- 1/f noise WE36.05, WE62.506
- 1/f WE36.07, WE62.508
- 2-D doping WE61.105
- 3D batteries TU24.04
- 3D grey scale TU24.02
- 3D microfabrication WE62.310
- 3D microfluidic MO60.701
- 3D organoid skin model WE62.313
- 3D periodic structures TU29.02
- 3D positioning WE21.01
- 3D reconstruction TH23.02
- 3D simulation WE34.03, WE60.108
- 3d simulation WE60.412
- 3D vascularized scaffold WE59.103
- 3D video tracking TU45.03
- 5-aminolevulinic acid TU60.907
- ab initio MO60.304
- ab-initio MO60.505
- abrasion resistance TU61.104
- absolute permeability tensor WE62.404
- absorption characteristic WE60.901
- absorption TU60.602
- AC coupling WE60.104
- AC electroosmosis MO60.101
- accelerated WE61.104
- accelerometer TU21.01
- accountability MO61.207, MO61.209
- acetone WE22.02
- acid dye WE60.808
- acidity TU61.309
- ACM TU60.705
- acoustic bandwidth compression TU30.105
- acoustic streaming WE51.02
- acoustic wave sensor WE61.808
- acoustic TU60.314
- acrylate TU60.902
- acrylic TU44.04
- activated carbon fiber WE60.911
- active coatings technologies MO60.501
- activity WE62.307
- actuators MO52.04, WE60.304
- actuator TU30.103, WE51.02
- adaptive optics TU22.02
- adaptive TU60.206
- ADC MO45.04
- addressable terabit/in2 arrays MO32.01
- adhesives WE39.11
- adhesive MO40.04
- adiabatic charge pump MO34.03
- adsorption MO37.03, MO60.415, WE38.25, WE60.906, WE60.910
- advanced CMOS technology TH26.04
- advanced encryption algorithm TU45.04
- aerospace & defense TU52.402, TU52.403
- aerospace applications TU60.711
- aerospace technology MO40.02
- AFM MO38.102, MO61.010, TH21.04, TH24.03, TH25.01, TU34.01, TU40.04, TU60.505, TU61.408, TU96.02, WE57.04, WE58.22, WE58.24, WE61.402, WE61.505, WE61.902
- Ag nano-particles MO35.04
- Ag2S TU61.203
- aggregation TU61.605
- aging TU30.207
- agro TU52.405
- AgX nanoparticle MO60.608
- AHP MO61.306
- air pollution MO60.415
- airborne contaminants MO60.415
- airborne imagery TU45.05
- airborne molecular contamination TU18.02
- airborne particles MO58.41
- Al2O3 TU24.02
- alcohol WE60.415
- aligned MO61.107
- alignment TU60.701
- alliance MO61.305
- alloys MO40.05
- alpha-power law model WE56.01, WE62.523
- alternative energy TU30.202
- alumina WE54.07
- aluminium alloys MO40.02
- aluminum nitride MO61.001
- aluminum oxide TU35.05
- aluminum MO40.04
- alzheimers MO47.04
- ambient conditions TU60.702
- AMC migration TU29.71
- AMI WE62.107
- amorphous carbon TU34.04, WE60.904
- amorphous diamond MO61.002
- amorphous photocatalysts MO60.504
- amperometry TH24.04
- amphiphilic block copolymer WE61.601
- amphiphilic PPPs TU25.02
- amphiphilic WE60.810
- amyloid beta WE61.811
- amylose TU95.02
- analog design methodology WE56.10, WE62.532
- analog-to-digital converter MO45.04
- analysis MO60.307, MO60.901
- analytic solutions WE36.30, WE62.522
- analytical modeling WE36.25, WE62.516
- Anatase MO60.803
- anatase MO60.807, MO61.005
- anchor losses TU32.04
- and cosmetics MO22.01
- and structural formation WE38.23
- androgen MO47.02
- aneurysm MO47.07
- angiology MO41.03
- anharmonic vibrational modes WE61.701
- animal assay WE57.02
- anion vacancies WE60.710
- anionic nanolipoplex WE61.710
- anisotropic etch simulator WE60.108
- anisotropic etching TU22.01
- anodic alumina template WE60.409
- anodic alumina TU35.05
- anodization TH35.04
- anthrax TU61.603
- anti-counterfeiting TU30.205
- anti-proliferative action MO47.03
- antibodies WE28.02, WE38.03, WE38.13
- antibody-antigen WE57.04, WE58.22
- antibody TU61.407, WE62.103
- anticoagulant TU30.206
- anticoccidial peptide MO47.06
- antiferromagnetic MO60.503
- antimicrobial MO59.904, TU44.05
- antineoplasics phytotherapeutical MO47.03
- antineoplasics MO47.03
- antinuclear autoantibody WE38.04
- antioxidants WE61.603
- antisense oligonucleotides WE38.03
- apoptosis MO58.03, MO58.04, TU30.207
- applications WE60.908
- aqueous TU60.506
- arc discharge MO34.02
- archirectures TU60.509
- architecture MO61.202, TH53.01, TH53.02
- argon plasma MO61.003
- army MO60.501
- array MO60.119, MO60.506
- arsenic MO37.02
- arthritis MO47.04
- aseptic processing MO58.31
- aseptic TU29.82
- assembly WE28.23
- assessment MO61.203
- astrocytes TH25.04
- asymmetic intermixing MO21.02
- asymmetric oxide stack WE36.28, WE62.520
- atherosclerosis TU60.905, WE62.104
- Atom Mapping MO38.105
- atomic doping WE25.03
- atomic force microscope TU96.03, WE61.408
- atomic force microscopy MO60.605, TU34.01, TU34.04, TU61.602, WE61.806
- atomistic continuum mechanics method TU60.705
- atomistic continuum method (CAM) MO60.305
- atomistic modeling TU60.402
- atomistic simulation WE60.603
- Au-nanoparticles WE28.22
- augmented reality TU45.03
- automatation WE57.02
- automotive TU30.102
- avian coccidiosis MO47.06
- avidin WE62.101, WE62.105
- B-spline MO60.303
- bacillus spores WE62.302
- back end TU60.507
- backscatter WE61.203
- bacterial biofilms MO61.111
- bacteria TU61.606, WE38.13
- badge platforms WE31.01
- ball shear strength WE60.410
- ballistic transport TU42.04
- band pass MO45.01
- barcoded particles TU60.311
- barium titanate WE60.613
- barrier properties WE58.12
- battery MO35.03, MO40.03
- bead WE61.802
- BEM TU60.206
- benchmark test TU26.02
- bending TU96.02
- benefit-cost WE60.110
- benefits TU61.503
- beta-carotene TH21.01
- beta-tubulin TU61.207
- bi/tricomponent fibers MO28.05
- Bi4Ti3O12 TU60.511
- bidens alba MO47.03
- bidirectional elastic light scattering WE38.23
- Bifurcation TU60.312
- bio sensor system MO60.203
- bio sensors WE27.03
- bio sensor TU61.409, WE60.201
- bio-analysis MO36.02
- bio-chip MO60.207
- bio-composites TU61.103
- bio-polymers WE60.801
- bio-probe TU61.602
- bio-probing WE62.106
- bio-sensing WE62.106
- bioactivation WE59.105
- bioactive films WE62.304
- biochip TU60.304, WE61.802
- biocompatibility TU61.607, WE62.301
- biocompatible WE60.106
- bioconjugates WE61.715
- biodegradable TH25.03
- biofeedback WE38.14
- BioFET MO60.206
- biofuel cells WE62.406
- biolabel WE61.803
- biological application TU60.802
- biological warfare MO39.04
- biologically inspired TU60.412
- biological MO58.23
- biomarkers TU60.316, TU61.305
- biomarker TH24.05
- biomaterials MO25.01, WE38.12, WE62.314
- biomaterial MO46.03
- biomedical instrumentation MO41.03
- biomedical WE62.314
- biomicrodevices WE60.202
- biomotion sensing WE31.01
- biopolymer MO53.04, MO61.112
- biopsy MO41.01
- bioreactor WE62.310
- biosenoser MO53.03
- biosensors MO60.210, TU61.402, TU61.412, TU61.414, WE61.812
- biosensor MO60.205, MO60.206, MO60.209, TH24.01, TH24.04, TU61.404, WE27.04, WE57.06, WE58.22, WE60.605, WE60.914, WE61.801
- bioseparation TU60.317
- biotechnologies TU92.01
- biotechnology TU30.202, TU60.803
- biotech MO59.601, MO59.602, MO59.603
- biotin TH24.02, WE62.101, WE62.105
- biphasic hydrogels WE60.805
- bipolar transistors TH26.02
- bismuth layer structured ferroelectric TU60.511
- bistable WE60.111
- block copolymers MO32.01, MO32.03, MO53.02
- block copolymer WE28.20
- block-co-polymer WE60.912
- blocker TU61.304
- blood MO36.05
- bond order potential MO21.03
- bone cancer TU61.310
- bone mineral TH25.01
- bone TH25.03
- borides MO60.503
- boron carbide MO60.801
- Boron diffusion TU60.402
- boron MO60.802
- bottom-up TU40.01
- boundary elements MO60.311
- Bragg grating TU34.02
- brain interaction MO60.313
- brain research TU29.11
- brain tumor WE61.713
- brain WE58.04
- brand imaging TU30.205
- break junction TU60.606
- break-up TU60.310
- breast cancer TU30.203, WE28.05
- bridge WE21.04
- Brownian dyanmics TU60.608
- BSA WE61.601, WE61.708
- BSE WE58.05
- BSIM TU42.01, WE56.03, WE62.525
- bu functional alkyl thiols TU61.202
- bubble TU28.02
- bucky balls MO60.806
- bulk charge approximations TU26.03
- bulk FinFET WE34.03
- bulk micromachining WE60.108
- bulk-charge sharing WE36.02, WE62.502
- bulkMOSFET TU36.02
- bundlet and droplet models for clusters MO60.404
- buried channel MOSFET WE60.403
- C-MEMS TU24.04, TU61.410, WE61.106
- c-swnt TU60.704
- C. elegans WE57.02
- CaCo-2 cell culture TU61.317
- caco-2 cell WE61.714
- calcium carbonate TU61.104
- calcium channel MO47.07
- calcium oscillations MO60.309
- calcium MO60.310
- calibration MO45.04
- Canada MO61.302
- cancer live cell imaging TH21.03
- cancer therapy WE28.04
- cancer treatment MO47.03
- cancer MO47.05, MO53.04, MO58.02, TU61.303, TU61.313, TU61.318, WE28.02
- Cancer WE38.11
- cancer WE59.103
- cantilever arrays MO60.202
- cantilever TU96.03, WE61.408
- capacitance model WE36.11, WE36.24, WE62.511, WE62.515
- capacitance TU60.205
- capacitive accelerometer WE60.104
- capillarity TU38.05
- capillary electrophoresis WE60.114
- capillary force TU60.104
- capillary MO60.702, TU61.406
- carbiding WE60.602
- carbon black suspensions TU60.302
- carbon fibers MO61.303
- carbon monoxide WE22.02
- carbon nano structures TU93.02
- carbon nanofibers WE62.303
- carbon nanofoam TU93.01
- carbon nanoparticles TU61.315
- carbon nanostructures MO60.413, WE60.906, WE60.910
- Carbon Nanotubes (CNTs) WE38.23
- carbon nanotubes composites TU60.711
- carbon nanotubes MO34.02, MO60.210, MO60.806, TH35.03, TU27.01, TU27.12, TU27.14, TU37.02, TU37.22, TU60.611, TU60.707, TU60.708, TU60.709, TU60.710, TU61.412, WE25.03, WE29.04, WE35.02, WE35.03, WE55.02, WE60.912, WE62.313
- carbon nanotube MO40.03, MO60.506, MO60.507, TU37.03, TU37.22, TU60.607, TU60.701, TU61.405, WE25.01, WE35.04, WE60.904, WE60.914, WE60.916
- carbon nitride TH35.05, WE60.905
- carbon replica WE60.909
- carbothermal reaction MO60.801
- carrier-based model WE36.21, WE62.512
- carrier WE60.712
- cascade MO60.904
- Casimir TU23.01, TU60.203
- catalysis particulate metter diesel combustion WE62.403
- catalysis MO25.01, MO53.11, MO60.804, MO61.303
- catalysts TU60.901
- catalyst MO60.904, TU60.710
- catheter MO46.05
- cavity growth MO60.412
- CBD TU35.02
- CBR WE60.604
- CdSe MO60.914, WE60.812, WE62.103
- CE-Nanochip MO60.204
- cell adhesion TH35.04
- cell alignment WE60.606
- cell assay WE32.04
- cell culture TH25.04
- cell scafold WE60.802
- cell separation MO60.104, WE60.606
- cell sorting TU60.304
- cell suspension TU60.309
- cells adhesion WE59.105
- cells TH21.05, TU61.301, WE61.902
- cellular communication WE61.901
- cellular TU61.604
- cellulose WE62.311
- cell WE57.07
- census MO61.304
- centre MO61.302
- ceramics MO60.902, TU41.04
- ceramic MO37.04
- cerebral vasospasm MO47.07
- ceria TU24.03, WE60.710
- cerium oxide MO53.11
- Ce MO53.13
- CFD modeling TU29.71
- CFD simulations TU38.06
- CFD MO60.115
- Cgd WE36.11, WE62.511
- chalcogenides MO60.918
- channels MO51.06
- chaotic mixing TU60.306
- chaotic TU60.307
- characterisation TU37.04
- characteristics WE34.03
- characterization MO38.101, MO60.120, TU60.703, WE36.05, WE38.23, WE61.101, WE62.506
- charge centroid TU60.202
- charge model WE36.02, WE62.502
- charge partition WE36.10, WE62.510
- charge-sheet approximation TU26.02
- chem-bio WE60.306
- chemical engineering TU30.202
- chemical etching TU35.04
- chemical filtration TU18.02
- chemical imaging TU40.04
- chemical mechanical planarization TU60.507
- chemical process TU44.02
- chemical synthesis WE61.204
- chemical vapor deposition MO34.02, MO51.01, TU60.710
- chemical vapour deposition MO54.04
- chemicals TU53.305
- chemical MO58.23
- chemistry MO59.301
- chemotherapy TU30.207, TU61.311, WE38.02
- chip TU45.04
- Chirality dependence WE25.02
- chirality TU37.04, TU60.611
- chitosan TU60.907
- cholesterol MO61.009
- chromatography WE10.01
- chronic illness TU61.414
- CINT MO61.301
- circuit design TU16.02, WE36.23, WE62.514
- circuit-compatible model WE56.06, WE62.528
- circular dichroism WE62.307
- citrate sol-gel WE60.710
- clay WE58.13
- clean room design TU29.72
- clean rooms TU41.32
- cleaning MO29.22, TU41.41
- cleanroom building TU17.01
- cleanroom design MO29.12, TU17.01
- cleanroom wall systems MO29.11
- cleanrooms MO39.31
- cleanroom TU17.02
- clearance TU61.702
- clinic chip nanotechnology physician MO61.206
- clustering MO60.302
- clusters WE60.713
- cluster MO60.503, MO60.802
- cmos photodectors MO41.03
- CMOS scaling TH26.04
- CMOS-MEMS TU32.01
- CMOS TU10.02
- cmos TU22.02
- CMOS TU61.415, WE56.03, WE62.525
- CMP MO61.004, MO61.006
- CNFET circuit simulation WE56.05, WE62.527
- cnt-reinforced composite MO60.407
- CNT-reinforced composite TU60.810, WE55.03
- CNTFET TU60.609
- CNTs MO61.201
- CNT MO60.203, MO61.112, TU60.610
- cnt TU60.704
- CNT WE25.01
- CO nanoparticles TU60.909
- co-intercalation WE62.307
- CO2 Laser pyrolysis MO35.03
- CO2 snow cleaning TU18.01
- coalescence TU60.310
- coalesce TU44.02
- coarse graining TU39.04
- coating agents TU61.104
- coatings MO40.05, TU60.808, WE39.13, WE39.14, WE39.15, WE62.301
- coating MO60.407, TU30.205, TU60.810, TU61.501, WE28.21, WE55.03
- cobalt ferrite MO60.911
- CoCrMo TH35.04, WE60.602
- cognitive TU44.03
- cohesive WE61.401
- collaboration MO61.301, MO61.307
- colloid probe AFM WE61.602
- colloid probe WE61.501
- colloid self-assembly TU29.01
- colloidal films TU29.02
- colloidal glasses and gels TU29.01
- colloidal quantum dots WE60.504
- colloidal silver nanoparticles TU60.505
- colloidal suspensions TU29.03
- colloidal synthesis WE60.504
- colloidal systems TU11.01
- colloids TU41.04
- colloid MO32.04
- colon cancer TU60.907
- colorimetric TU61.405
- comapct model TU36.01
- combinatorial chemistry MO60.802
- Combined AFM\\STM MO61.008
- combustion synthesis MO60.902
- commercialization MO61.303
- comminution WE60.707
- communication interface TU61.204
- communication MO61.211, WE37.04, WE60.201
- compact model of CNFET WE56.05, WE62.527
- compact modeling TH16.01, TH16.02, TH26.02, TU26.02, TU36.02, TU36.04, TU42.01, WE16.02, WE36.21, WE36.22, WE36.26, WE56.02, WE56.07, WE62.512, WE62.513, WE62.517, WE62.524, WE62.529
- compact models WE26.02
- compact model TH26.04, TU32.03, TU36.03, WE36.24, WE36.27, WE36.30, WE56.01, WE56.08, WE62.515, WE62.518, WE62.522, WE62.523, WE62.530
- compact MOSFET model TU16.03
- complementarity MO61.212
- complex flow TU38.06
- complex fluids TU44.01
- complex functional nanomaterials MO61.301
- complex structures MO52.02
- compliance MO61.207
- compliant mechanism WE32.02
- composite materials MO60.210
- composite solders WE60.410
- composites MO61.101, MO61.109, MO61.303, TU27.01, TU95.01, WE58.15
- composite MO61.108, TU44.04, TU61.105, WE35.03, WE62.311
- compounds MO47.01
- computational chemistry MO60.415
- computational fluid dynamics MO60.108
- computed tomography WE38.05
- computer simulation WE28.14
- concentration MO60.116, WE38.23, WE61.804
- concentrator MO60.104
- conductance WE28.05
- conducting polymers TU29.11, TU29.13
- conducting polymer TU61.410
- conductive TU60.508
- conductivity TU61.304
- Conductivity WE35.05
- conductor TU60.405
- confocal laser scanning microscopy WE28.35
- conformal mapping TU42.03
- construction MO61.202
- contact angle TU28.01, TU92.02, WE60.912
- contactless capacitance detector WE60.114
- contact WE60.115
- containment applications TU41.31
- contamination control MO29.22, TU18.01
- contamination MO58.41, TU44.05
- continuous flow MO53.14
- continuous inkjet TU94.01
- contraction TU28.02
- contrast agents TU60.905, WE62.104
- contrast agent MO60.311, WE38.05, WE61.706
- Contrast TU29.24
- controlled drug delivery WE60.805, WE61.708
- controlled release WE38.02, WE58.24
- convex modeling MO60.103
- cooling MO46.05
- coordinate agent MO60.805
- copolymers of Pluronic and poly (2-dimethylaminoethyl methacrylate) (pDMA) TU61.208
- copolymer MO53.03
- copper MO61.004, TU60.508, WE61.405
- core-shell WE60.702, WE61.708
- core/shell nanocrystals WE60.504
- coreñshell rubber WE58.15
- Coriolis meter WE60.310
- corrosion WE60.601
- cosmetic TU60.902
- coumarin TH21.01
- coupling agent WE58.12
- covered EWOD TU60.401
- CPW-to-slotline ring resonator MO60.209
- creep damage MO60.412
- Creep MO61.103
- Creutzfeldt-Jakob_disease MO41.04
- cristallinity WE60.906, WE60.910
- critical cleaning TU18.01
- critical heat flux MO52.03
- Crohnís disease TU30.204
- cross-contamination TU44.05
- cross-linking MO60.915
- crosslinked TU61.307
- cryogenic WE32.01
- cryptography TU45.04
- crystallinity WE61.503
- crystallization in nanostructured fluids MO22.02
- crystallographic databases WE61.102
- cswnt TU60.704
- Cu-Ni alloys TU61.316
- cubic phase WE58.23
- culture MO61.307
- Curie temperature TU61.313
- curing TU60.508
- current compression WE60.401
- current enhancement WE60.403
- current loop converter WE60.104
- current quantization MO34.03
- current-voltage characteristics WE16.03
- cusp condition MO60.403
- cutoff frequency MO31.02
- cutting TU27.14
- CVD TU27.12, TU61.502, WE60.602, WE60.902
- CWA detection WE60.307
- cyclodextrin MO60.308
- cysteine-knot TU39.01
- cytokine MO58.03
- cytostatic MO47.03
- cytotoxicity MO60.210, TH21.02
- cytotoxic MO47.03
- damping MO60.407, TU32.03, TU60.810, WE55.03
- data fusion MO60.601
- data modelling MO60.302
- data projectors MO45.05
- data security TU45.04
- decision support TU61.608
- decontamination TU41.32
- deep trench WE61.105
- defect modeling TU60.609
- defoam TU44.02
- deformation analysis TU29.21
- deformation WE62.305
- degradation MO53.12, WE59.104
- delamination buckling WE60.302
- demography MO61.201
- demulsification TU44.02
- dendrimers MO51.02, MO61.303
- dendrimer MO39.04, TH21.05, TU27.13, WE28.04
- dendritic cells WE27.14
- density functional theory MO60.304, WE28.32
- density WE60.601
- dentinal tubules MO60.906
- depleted radiation TU30.106
- deposition MO35.02, WE60.713, WE61.104
- dermatology MO41.03
- desalination TU61.504
- design methodology TU38.06
- design MO61.202, TU17.02, TU60.102, TU60.509
- detection MO39.04, MO58.23, TH24.02
- detonation nanodiamonds WE60.907
- detonation synthesis WE60.908
- device correlations WE26.01
- device modeling TU60.202
- device physics TU26.02, WE36.21, WE62.512
- device simulation MO31.03, WE60.401
- dextran TU61.317
- DFT TU23.02, TU60.605
- DG MOSFET WE36.25, WE62.516
- DG-MOS FET TU60.410
- diabetes MO41.03, MO47.01, TU30.207, TU61.404
- diagnostic tool TU16.01
- diagnostics MO41.05, TU30.201
- diagnostic TU30.204
- Dialysis TU61.402
- diamond electrode MO61.002
- diamond-like carbon TH35.05
- diamond WE60.602
- diaphragm TU60.205
- diblock copolymers MO32.04, MO60.402
- diblock copolymer WE28.22
- diblock thin films WE60.804
- dielectric constant MO60.912
- dielectric function WE28.32
- dielectric TU60.405
- dielectrophoresis MO36.04, MO60.113, TU37.04, TU38.03, TU60.206, TU61.304, WE57.07, WE60.113
- differential scanning calorimeter WE60.703
- differentiation WE61.808
- diffraction gratings WE32.03
- diffraction TU60.803
- diffractive MEMS WE32.03
- diffractive optics TU21.02
- diffuse light scattering TH23.01
- diffuser/nozzle MO60.107
- diffusion MO37.02, MO60.412, MO60.914
- digital microfluidics TU60.401
- diluted magnetic semiconductor MO60.917, WE60.706
- dip pen nanolithography TU34.07
- dipole moments TU38.03
- dipole WE38.12
- direct detection MO60.209
- direct write TU60.510
- direct-write assebly MO60.701
- direct-write TU61.415
- directed assembly TU29.02
- directed evolution MO60.111
- directed self-assembly WE28.20
- direction TU60.102
- discrete impurity effects WE34.01
- discretization schemes TU60.204
- disease diagnosis TU61.405
- disinfection MO41.04, TU61.504
- disjoining pressure MO60.411
- disk resonators TU32.04
- dislocation dynamics MO60.408
- dispergator WE60.907
- dispersants TU41.04
- dispersing WE60.707
- dispersion MO61.112, WE61.101
- display devices MO45.05
- display WE25.01
- dissolution WE60.801
- distinfection TU41.41
- Distortion WE36.06, WE62.507
- distribution TU44.05
- disturbance TU60.307
- DLC TH35.05, WE60.601
- DNA computing MO60.401
- DNA condensation WE28.04
- DNA controlled release pH responsive polyion complex WE61.709
- DNA hybridisation TU60.311
- DNA microparticles multilayer layer-by-layer cationic polymers WE60.809
- DNA nanostructure WE62.315
- DNA repair WE57.03
- DNA sequencing MO60.308
- DNA-adducts TU60.316
- DNA-based biosensor TU61.403
- DNA MO36.02, MO60.116, MO60.119, MO60.208, MO60.416, TU39.05, TU61.408, WE35.03, WE60.202, WE60.914, WE61.904, WE62.307, WE62.311
- docking MO60.303
- dodecanethiol gold TH21.01
- domains WE60.613
- dose control MO60.601
- double gate MOSFETs WE36.30, WE62.522
- double gate TU36.04, TU42.03
- Double gate WE36.22
- double gate WE62.513
- double-gate MOSFETs TU42.04
- double-gate MOSFET TH26.03, WE16.02
- double-gate TU42.02, WE16.03, WE36.24, WE36.26, WE36.27, WE60.412, WE62.515, WE62.517, WE62.518
- doxorubicin MO58.02, WE38.02
- DPD MO60.402
- DPI WE61.107
- DPN TU34.07
- DRAM WE61.105
- drift correction TU34.06
- droplet ejection TU38.07
- Droplet formation MO60.114
- Droplet interaction and breakup MO60.114
- droplet microfluidics MO60.110
- droplets MO36.02, MO52.02, MO52.04
- droplet TU28.03
- drug delivery systems TU60.906
- drug delivery MO58.02, MO60.107, MO60.205, MO60.602, TU30.207, TU44.01, TU44.06, TU61.308, TU61.310
- Drug delivery TU61.319
- drug delivery TU61.607, WE38.01, WE38.11, WE61.711
- drug design & delivery TU30.202
- drug eluting coatings WE58.21
- drug MO60.303, WE58.01, WE58.03
- dry pressing MO60.510
- DSC MO61.103, WE60.704
- duality encrypted signals TU30.106
- duality modulation (DM) TU30.106
- durability TU25.03
- DWS TU29.03
- dye-encapsulation WE60.702
- dyeability WE60.808
- dynamic behavior WE56.02, WE62.524
- dynamic intelligence MO60.313
- dynamic light scattering TU61.605
- dynamic response TU60.107, WE60.310
- dynamics WE38.22
- e-beam evaporation TU34.01
- EBL TU34.01
- echinoderms WE62.309
- economic TU61.502
- EDS TU29.22
- effective medium approximation MO60.912
- efficiency MO39.31
- EFM TH23.04
- Eimeria MO47.06
- EKV MOS model WE56.10, WE62.532
- EKV WE16.02
- elastic moduli TU60.811, WE61.406
- elastic scattering spectroscopy MO41.01
- elastic strain sharing WE60.608
- elasticity TU60.310
- electochemical sensor MO60.207
- electric field MO60.809, MO60.810, TU60.405, TU60.904
- electric rewritable paper WE61.501
- electrical characterization MO25.02
- electrical double layer MO60.116
- electrical properties TU60.711
- electrical recording TU29.11
- electro-mechanical coupling TU60.207
- electrocatalyt MO60.903
- electrochemical processes MO40.05
- electrochemistry TU29.13, TU60.316
- electrode arrays WE60.106
- electrodeposition MO40.05, MO60.903, TU61.105
- electrodeposit MO45.03
- electrodes TU60.606, WE60.304
- electrode WE60.105
- electroetch MO45.03
- electrohydrodynamic patterning MO32.02
- electrohydrodynamics WE61.804
- electrokinetics TU38.01, TU60.807
- electroluminescence MO61.002
- electrometrology TU32.02
- electromigration WE24.02
- electron beam lithography TU34.01
- electron beam MO60.604
- electron density MO60.403
- electron energy loss spectroscopy WE28.32
- electron states WE34.02
- electron transfer TH21.02
- electron-beam lithography MO60.603
- electron-phonon coupling TU60.707, WE25.02
- electronic properties MO61.008
- electronic structure MO51.05, MO60.304
- electronics manufacture TU60.510
- electronics MO28.03, MO45.01, MO59.201, MO59.202, MO59.901
- Electronics MO59.903
- electronics MO61.303, TU30.107, TU53.201, TU53.202, TU53.203
- electronic TU30.104
- electrophoresis TU28.04
- electrophoretic deposition TH25.02
- electrophotography TU60.510
- electroplating MO61.006, TU60.316
- electropolish MO45.03
- electrospinning TH25.05, TU29.11, TU29.12, WE60.307, WE60.802, WE62.312, WE62.314
- electrospray WE60.812
- electrospun MO61.107
- electrostatic actuation TU60.107
- electrostatic deposition TU30.205
- electrostatic force TU60.207
- electrostatic nanolithography MO60.605
- electrostatic potential WE36.25, WE62.516
- electrowetting MO60.110, TU60.104, TU60.401
- ELISA MO28.02, MO60.112, TU30.204, TU61.411
- emergent characteristics MO60.310
- emission WE25.01
- emulsifier TU44.02
- emulsion MO52.02
- enamel crystals TH25.01
- Enantio-separation WE60.915
- encapsulation MO60.908, MO60.916, WE61.803
- endometriosis TU30.203
- endoscopy MO46.02
- endothelial cells TH25.05
- energetics MO61.303
- energy bounds WE60.502
- energy conversion WE29.03
- energy harvesting MO61.106
- energy MO59.801, MO59.802, MO59.803, MO59.804, MO59.805, TU17.02, TU52.101, TU52.102, TU52.103, TU52.104
- engineered materials MO60.802
- engineering TU53.204
- enhancement MO60.907
- enriched radiation TU30.106
- entanglement WE25.03
- enthalpy of SAM formation WE61.504
- entropy MO60.102, MO60.307
- environmental friendly TU44.06
- environmental health TU41.43
- environmental ionic liquids MO32.03
- environmental monitoring MO58.31
- environmental MO61.203, TU61.502
- environment TU30.202, TU61.606, WE37.06
- enzymatic synthesis TU30.206
- enzymatic treatment TU61.103
- enzyme-prodrug therapy WE61.702
- enzyme WE60.914
- enzymosomes WE61.715
- epitaxy TU30.107
- epoxy resin TU60.711
- error rates WE60.408
- Erythrocytes TU61.404
- erythrocyte MO36.05
- ES-D3 WE61.903
- Escherichia coli O157 TU61.411
- ESD materials MO39.21
- ESD protection MO28.03
- ESD test methods MO39.21
- ESR MO60.503
- etch TU34.03
- ethanol WE22.02
- ethics MO61.208, MO61.211
- ethylene glycol WE60.705
- Euler buckling TU60.806
- eutectic lead- tin solder MO61.104
- EUV lithography MO45.06
- evanescent wave MO41.02
- Evanescent wave WE38.23
- evaporated droplets TU41.42
- evenly distributed flow MO60.109
- EWOD WE57.03
- exchange spring coupling MO60.908
- excitons MO34.01
- experimental modal analysis of MEMS TU60.108
- explosive MO58.23
- extended Kalman filter MO60.601
- extracellular polymeric substances TU61.602
- extraction MO60.116, TU61.602, WE36.09, WE56.08, WE62.530, WE62.535
- extreme wetting effects MO22.02
- extrinsic capacitance WE36.02, WE62.502
- extrusion MO60.502
- f electron MO60.503
- fabrication MO60.701, TU38.05, TU40.01, WE34.03, WE60.611
- Fabry-Perot TU37.22
- face-cubic-center crystal WE61.406
- factorial design WE61.704
- failure mechanisms WE60.107
- fairness MO61.208
- fast microorganism detection MO60.202
- fatigue WE61.401
- fault tolerance TH53.01
- fault tolerant system WE60.414
- FDA WE62.101
- Fe nanoparticles TU27.13
- FEA TU60.105, TU60.406
- femtosecond inscription TU34.02
- FEM TU60.705
- fermentation MO60.907
- ferroelectric thin-film TU35.03
- ferroelectricity WE61.401
- ferroelectric WE60.409
- ferrofluids WE38.22
- FESEM TU35.02, TU35.05
- fetal cells TU60.304
- FETs MO25.02
- FET WE60.914
- FFU MO39.31
- FGF MO47.04
- fibDAC TU29.21
- Fiber Center of Excellence MO28.05
- fiber meshes WE62.314
- fiber optic MO41.01, MO41.02
- fiber TU29.12
- FIB TU29.22, TU29.24
- field emission MO34.02, TU60.708, TU93.02
- field enhancement factor TH23.04
- field programmable logic device WE60.413
- field sequential color WE60.411
- field WE25.01
- filling TU28.01, TU28.02
- film boiling MO36.03
- film MO61.009
- filters MO45.01
- filtration MO37.03
- fin angle WE34.03
- financial journalism MO61.213
- FinFET WE60.604
- finite element analysis TU60.105, TU60.106, TU60.107, TU60.406
- finite element method MO60.403, TU23.03, TU60.207, TU60.208
- finite element modeling TU60.108
- finite element simulation WE61.404
- finite temperature MO51.03
- Finite Volume Method WE62.404
- fire detector WE60.407
- first principles calculations TU60.604
- first principles computer simulations TU30.202
- fixturing systems TU41.03
- flame retardant treatment TU44.06
- flame synthesis MO25.01, MO35.01, MO35.02
- flash nanoprecipitation WE28.20
- flatband voltage WE61.302
- flexible display MO60.609
- flexural modulus WE55.02
- flexural stiffness WE55.02
- flicker WE36.07, WE62.508
- FLIM MO60.118
- flip chip bonding WE60.106
- florid plaque WE58.05
- flow at rough TU60.306
- flow cytometry WE61.801
- flow effect TU60.315
- flow order MO60.112
- flow-through reactor MO60.105, MO60.106
- flowability of powders MO25.04
- flow MO21.01, TU30.102
- fluid damping TU60.411
- fluid flow TU37.03
- fluid separation TU44.02
- fluid-structure interaction MO60.107
- fluidic device design and fabrication TU60.302
- fluidic nanoelectronics TU60.608
- fluids MO51.06
- fluorescence anisotropy TU61.208
- fluorescence imaging WE38.03
- fluorescence MO39.04, MO60.118, TU61.201
- Fluorescence TU61.403
- fluorescence TU61.409, WE58.04, WE60.702, WE61.813
- fluorescent labeling TH21.02
- fluorescent nanocrystals WE62.101
- fluorescent nanoparticles TH21.03, TU61.203
- fluorescent TH21.05
- fluorogenic substrate TU61.406
- fluoropolymers TU60.305
- flurescence microscopy WE27.12
- foam TU44.02
- focused ion beam TU34.04, TU34.06
- focussed ion beam etching TU35.03
- food MO22.01, TU53.306, WE28.13
- force measuremnt WE57.04
- force measures WE61.402
- formic acid WE29.05
- Fourier transform infrared spectroscopy MO61.001
- fractioning WE60.907
- fracture mechanics WE60.304
- fracture WE61.401
- free space optical communication WE32.03
- free volume WE60.803
- freely joint chain (FJC) MO60.305
- frequency dependence MO31.01
- frequency doamin TU60.408
- frequency domain MO60.307
- frequency tuning WE60.109
- frequency TU60.411
- FRET MO60.208, WE61.805
- friction MO60.402
- fringe capacitance TU60.407
- fringing electric field TU60.404, WE60.402
- FSMA WE60.305
- FTIR spectroscopy WE27.12
- FTIR WE60.306, WE60.704, WE60.705, WE61.601
- fuel cell WE29.04, WE29.05
- fullerenes MO60.413, TU61.606
- fullerene TU61.605, WE62.102
- functional food design TU11.01
- functional materials MO60.802
- functional mechanism MO60.504
- functionalization MO37.04
- functionalized nanobeads TH35.01
- functional TU95.01
- fundings MO61.304
- fusion bonding WE60.105
- fuzzy logic WE60.110
- GaAsN TU60.504
- gamma-alumina WE38.24
- GaN MESFET WE60.401
- GaP TU60.506
- gas absorption MO60.907
- gas barrier WE58.13
- gas generation MO60.704
- gas sampling WE60.906, WE60.910
- gas sensors MO35.02, TH52.01, TU60.702, WE60.307, WE60.713
- gas transport TU60.506
- gas treatment WE60.906, WE60.910
- Ge dots MO54.01
- gecko foot hairs WE39.11
- gemini surfactant WE58.23, WE60.607
- gene delivery MO53.05, WE28.04
- gene rearrangement TU61.305
- gene regulation TU39.05
- gene therapy TH35.02, WE58.23
- gene transfer WE61.710
- generation-recombination-trapping TU16.01
- generation-recombination MO31.03
- generic programming TU60.204
- genetic algorithm TU60.208
- genomics MO60.202
- geography TU45.05
- geospatial information systems TU45.05
- Germany WE39.23
- Ge MO54.04
- GFAP TU61.207
- GIS TU45.05
- glass transition temperature WE60.703
- glass WE60.105
- global security MO58.23
- gloveboxes TU41.31
- glucose sensor TU61.410
- glucose TU61.404
- glutathionylation TU30.201
- glycoprotein WE61.805
- glycosaminoglycan MO53.04
- GMR WE60.811
- gold colloidal nanoparticles WE61.811
- gold composites TU61.101
- gold nanoparticles MO60.903, MO60.916, WE27.14, WE28.04, WE28.23, WE62.105
- gold nanoparticle WE61.805
- gold TH21.05, TU61.318
- government policy MO61.306
- GPCR MO47.05
- grain boundary movement WE60.603
- grain WE62.305
- granules TU29.02
- graphite nanoplatelet MO61.110, WE58.11, WE60.913
- graphite platelet WE60.610
- GRAS TU44.03
- grating TU21.02
- gravimetrica analysis TU41.42
- gravity WE61.904
- green chemistr MO53.01
- green TU17.02, TU44.06
- grinding WE60.707
- guest-host TH21.05
- guidlines WE60.107
- gyroscopes TU31.01
- gyroscope TU32.05
- H7 TU61.411
- halo TU36.02
- hardened WE60.414
- hardness TU34.04
- harmones MO60.309
- harmonic maps WE60.502
- harmonic oscillators WE55.02
- harsh environments TU22.03
- harsh environment TU31.04
- HBT TH26.01, WE36.06, WE62.507
- HCV MO60.301
- HDF WE61.708
- health & medical devices MO59.101, MO59.102, MO59.103, MO59.104, TU52.401, TU53.101, TU53.102, TU53.103, TU53.104, TU53.105, TU53.106
- health effects MO61.203
- health MO61.208, TU61.504, WE37.06
- heal WE39.12
- heart WE60.711
- heat spreader MO61.002
- heat transfer MO52.03, MO60.108, MO60.115
- heatspreader TU60.106
- heavy metal ions MO37.03
- hectorite WE58.13
- height WE38.23
- Helium TU29.24
- helix TU61.309
- hemoglobin WE62.307
- heparan sulfate TU30.206
- heparin TU30.206
- hepatocytes MO60.309
- Her2 WE28.05
- heterogeneity TU40.04
- heterogeneous MO60.904
- heterostructures WE35.02
- hexagonal arrays WE55.02
- HfO2 MO61.008
- Hicum TH26.01
- hicum TH26.02
- Hicum WE36.06, WE62.507
- hierarchical multiscale modelling TU30.202
- high aspect ratio etching MO58.25
- high brigthness MO60.703
- high gradient magnetic separation TU60.317
- high magnesium calcite WE62.309
- high pass MO45.01
- high performance computing TU60.204
- high pressure MO60.412
- high temperature sensors TU30.103
- high temperature MO60.412, WE62.402
- high troughput screening WE60.811
- high-density MO60.604
- high-frequency modeling WE16.01
- high-gradient strong electric field MO60.113
- high-index nanocomposites MO35.03
- high-K gate dielectric TU60.407
- high-k offset spacer TU60.404, WE60.402
- high-k WE34.04
- high-K WE56.02, WE62.524
- high-pressure WE61.201
- high-speed visualization TU28.02
- high-temperature sensors TU22.03
- high-throughput screening MO60.109
- high-throughput WE61.812
- high-voltage TH16.01
- highly scaled devices TU60.410
- hip cup implant TH25.02
- HiPCO WE60.901
- homeland security TU45.04
- homologous GJIC channels MO60.401
- horizontal alignment WE60.916
- hospital MO41.04
- hot electron effects WE36.28, WE62.520
- HSPICE WE36.09, WE62.535
- HTS WE57.02
- human acetyltransferase MO60.111
- human health TU41.43
- HV MOS transistor TH16.02
- hybrid materials WE28.22, WE58.14
- hybrid power source MO40.03
- hydration MO52.03
- hydrogel TH25.03
- hydrogen bonding WE60.801
- hydrogen peroxide WE61.813
- hydrogen storage WE60.909, WE62.405
- hydrophobic drugs TU60.908
- hydrophobic valve MO60.109
- hydrophobicity WE60.906, WE60.910, WE60.912
- hydrophobic TU25.03
- hydrothermal synthesis MO53.15
- hydroxyapatite MO60.906, TH25.02, TU61.310, WE62.306
- hypoxia MO58.03
- IC processing TU60.507
- icosahedron MO60.503
- identification TU60.201, WE38.13
- Idlow WE56.01, WE62.523
- IF nanostructures TU60.809
- IGF1R WE28.05
- III-V on silicon MO54.02
- IIP3 WE36.03, WE62.503
- IL-1 MO47.04
- image analysis TH21.04
- image sensor TU22.02
- imaging WE38.14, WE57.04, WE61.505
- Imaging WE62.108
- immersion lithography MO60.601
- immobilization WE60.712, WE61.808
- immune assay TH24.03
- immunoassay TH24.05, TU61.409, WE57.06, WE62.101
- immunoliposomes WE61.713
- immunotherapy WE28.02
- impact ionisation MO31.03
- impact modification MO61.102
- impedance TU37.04
- impedence field WE26.03
- impedimetric TU61.407
- implantable biosystems WE10.01
- implantable TU61.414
- implants WE62.301
- implant TU60.406
- imprint lithography MO60.602, TU61.308
- imprinting lithography MO60.607
- improved performance MO39.31
- impurity MO61.004
- in situ TU60.709
- in vitro translation/transcription MO60.111
- in vivo tumour transfection TU61.312
- inactivation MO41.04
- inclulsion complexes TU95.02
- independent double gate MOSFET WE36.23, WE62.514
- indium MO60.505
- inductors TH16.03
- industrial control TU30.102
- industry MO61.303
- infectious_agents MO41.04
- inflammation MO47.05
- inflammatory disease TU30.203, TU30.204
- information molecules TU60.412
- infrared emission WE60.504
- infrared sensors WE61.809
- infrared WE60.407
- infrasound TU30.105
- inhibition assay WE61.805
- inhibitors of cell multiplication MO47.03
- initatives MO61.304
- initial configuration WE60.502
- initial tension WE60.309
- inkjet TU38.07, TU60.808, TU94.01
- InSb nanowires MO60.508
- instability MO32.02
- institute MO61.302
- instrumentation MO59.203, MO59.305, MO59.401, MO59.402, MO59.403, MO59.404, MO59.405, MO59.406, MO59.407
- insulating nanofilms MO60.405
- insulin secretion MO47.01
- integral equation TU23.04
- integrated cell TU61.413
- integrated circuits MO61.303, WE10.02
- integrated circuit MO45.03
- integration WE21.03, WE57.05
- intellectual property WE60.101
- interaction energy MO61.111
- interconnect MO45.03
- interface structure MO21.02
- interface traps TU16.01, WE34.01
- interface MO53.03, MO61.109
- interfacial tension TU44.02
- interferometric techniques TU22.03
- interferometry TU60.313
- intermetallic compounds (IMCs) WE60.410
- internal resonance TU60.103
- International TU47.01
- internet security TU45.04
- interpenetration thickness MO60.402
- intersubband transition TU60.602
- intratumoral therapy MO58.01
- intrinsic charges WE36.02, WE62.502
- inventors MO61.212
- inverse micelles TU61.203
- inversion charge-based model TH26.04
- inverter WE36.27, WE62.518
- investigation WE36.08, WE62.509
- investment MO61.204
- ion beam lithography TU34.03
- Ion Beam TU29.24
- ion channel TU61.304, WE27.04
- ion exchange MO37.02
- ion sputtering TU29.23, TU60.501
- ionic reservoir WE60.701, WE62.302
- IP valuation MO61.214
- IPA bottle TU41.33
- IP MO29.301, TU47.01, WE39.301
- iridium oxides WE61.204
- iridium oxide TU94.02
- iron oxide MO37.02
- iron-oxide WE60.711
- IR WE54.07
- ISFET TU61.402
- isoG/isoC WE62.315
- isolation MO41.05, WE62.107
- isolators MO58.41
- isoprene WE22.02
- Italy MO61.304
- iterative method TU61.205
- IV characteristic TU26.01
- java mapping client TU45.05
- jets WE28.21
- Josephson junction TU37.22
- Joule heating TU60.206, TU60.308
- junction capacitance WE56.04, WE62.526
- KekulÈ structure MO60.306
- kinetic Monte Carlo TU60.402
- kinetics WE60.415
- Kondo TU37.22
- lab on a chip MO60.207, WE60.811
- lab-on-a-chip MO36.02, MO60.105, MO60.106, TU30.104, TU94.04
- lab-on-chip TU61.409, TU61.415, WE57.05
- label free MO60.202
- labeled avidin-biotin technique WE62.101
- labeling TH21.05, TU61.207
- laboratory TU17.02
- Langmuir-Blodgett technique TU60.701
- Laplace law TU60.401
- large deflection WE60.309
- large particles TU60.309
- large scale production MO60.705
- large-scale simulations MO51.05
- laser ablation MO25.03, WE60.905
- laser assisted synthesis TU60.506
- laser desorption TU29.23
- laser doppler imaging MO41.03
- laser irradiation TU61.315
- laser nanomachining microfluidics nanofluidics diagnostics microTAS MO46.06
- laser postionization TU29.23
- laser pyrolysis MO60.807
- laser transfer TU35.03
- laser-assisted cleaning MO21.04
- lasers MO45.02
- laser MO41.02
- lateral flow device MO60.103
- lattice Boltzmann method TU60.306
- lattice constant WE60.710
- Lattice-Boltzmann Equations WE62.404
- layer-by-layer WE61.803, WE62.304
- layer-layer deposition TU60.801
- LBL deposition MO46.01
- LCOS technology MO45.05
- LDI-MS WE61.810
- LDMOS TH16.01, WE36.11, WE62.511
- lead MO37.03
- LEDs MO45.02
- LED MO60.703
- legislation TU61.704
- length TU37.02
- leukocyte MO36.05
- level sets MO60.115, TU28.01
- li-Ion intercalation TU24.04
- license MO61.214
- life cycle assessment TU61.503
- life science TU30.104
- life-time imaging WE58.04
- ligand-receptor WE58.22
- ligands MO61.109
- ligand WE58.01, WE58.03
- LIGA MO60.604
- light scattering TU40.02
- light-emitting films TU25.02
- light-on-board TU30.104
- lignin MO61.112
- liivng polymerization WE60.805
- limit switch TU30.102
- linear scaling MO51.05
- linear WE28.31
- lipase MO60.312
- lipid bilayer WE27.04, WE61.812
- lipid nanosystems WE38.01
- lipid peroxide WE61.813
- lipid vesicles WE61.715
- lipobeads TU60.906
- liposomes TU60.906, TU61.201, WE61.707, WE61.711
- liposome MO58.02, TU61.206, WE38.05
- liquid crystals TU60.804
- liquid crystal WE60.502
- liquid immersion lithography MO29.21
- liquid nanofilm MO60.411
- liquid-solid interface WE60.905
- lithography MO60.119, MO60.604
- live lung cells WE27.12
- local chemotherapy MO58.01
- localization WE21.01
- long-circulating liposomes TU61.302
- long-term reliability TU16.01
- longevity MO61.208
- Lorentz force WE32.01
- lotus effect TU35.04
- Low energy Ion scattering MO21.02
- low pass MO45.01
- low polydispersity TU61.206
- low temperature growth TU93.02
- low-power design WE10.02
- luminescence WE35.02
- lumped element model phase change memory WE56.09, WE62.531
- lungs TU61.607
- lupus MO47.04
- machine vision TU45.03
- macromodel TU38.04
- macropinocytosis TU61.312
- macroporous structures TH52.01
- macroscle WE61.402
- macrosurfactant MO32.04
- magnetic beads TU61.409
- magnetic biosensors TU61.413
- magnetic conductor WE60.501
- magnetic drug targeting WE28.03
- magnetic field TU28.03
- magnetic fluids MO60.907
- magnetic Hyperthermia TU61.313
- magnetic hyperthermia TU61.314, TU61.316
- magnetic interaction MO60.503
- magnetic nanoparticles MO60.905, TU61.313, TU61.319, WE28.02
- magnetic particles MO36.02
- Magnetic Particles TU61.403
- Magnetic property MO21.02
- magnetic resonance imaging WE38.05
- magnetic transport TU60.317
- magnetic wall WE60.501
- magnetic WE60.712
- magnetie TU61.317
- magnetism WE60.606
- magnetite MO60.804
- magneto-rheological (MR) fluids TU41.03
- magnetocytolysis TU61.317
- magnetohydrodynamics (MHD) TU38.06
- magnetophoretic control TU60.317
- magnetophoretic microsystem TU60.317
- magnetophoretic nanoparticle transport WE28.03
- magnetophoretic transport TU60.317
- magnetoresistance WE61.802
- magnetotactic bacteria TU60.301
- malignant tumors MO60.916
- manganites TU61.314
- manganite MO61.010
- manufacturing TU61.502
- mapping TU45.02
- Marangoni instability TU94.01
- margination MO36.05
- mass spectrometry TU29.23, WE61.810
- mass transfer MO60.907
- mastering MO60.604
- materials design TU60.805
- materials-by-design MO60.802
- materials MO28.03, MO59.302, MO59.303, MO59.304, MO59.902, MO61.202, MO61.302, TU53.301, TU53.302, TU53.303, TU53.304
- mathematical modelling TU38.02
- matrix development MO29.12
- matrix-free WE61.810
- MBE TU60.504
- MD simulation MO21.02
- MDR MO58.04
- MD MO60.414
- measurement TU60.102, TU60.313, TU61.301
- mechanica strength MO60.607
- mechanical activation MO60.911
- mechanical and thermodynamic properties MO60.409
- mechanical attrition WE58.14
- mechanical properties MO60.408, MO61.104, MO61.108, TU61.104, TU96.02, WE39.12, WE58.12, WE61.407
- mechanical property WE61.902
- mechanisms WE58.04
- mechanism WE61.706
- mechnical property TU32.01
- media TU52.404
- medical devices TU30.205, WE58.21
- medical device MO46.05
- medical manufacturing TU30.202
- medical optics TU60.803
- medical TU30.102
- melanoma TU61.318, WE62.313
|
- membrane fouling MO60.810, TU60.904
- membrane proteins WE61.812
- membrane TU37.03, TU60.109, WE62.308
- memory TU44.03, WE54.05, WE60.111, WE60.409
- mems compound grating WE32.03
- MEMS inkjet TU94.01
- MEMS modeling TU60.108
- MEMS MO60.107, MO60.501, TU10.02, TU22.03, TU23.01, TU25.03, TU30.103, TU31.01, TU31.02, TU31.04, TU34.07, TU60.105, TU60.203, TU60.205, TU60.313, WE21.04, WE28.35, WE60.104, WE60.107, WE60.110, WE60.201, WE60.203, WE60.411
- MeOx MO61.008
- mercuric chloride MO60.415
- mercury TU41.02
- mesenchymal stem cells TH35.05
- meso-microporous MO60.805
- mesoporous silica WE61.810
- messaging TU45.02
- metal gate WE34.04
- metal nanoparticles MO60.909
- metal nanorods TU41.02
- metal nanostructures TU60.804
- metal oxides MO60.705, MO60.806, WE54.02
- metallic CNT TU60.609
- metallic TU60.611
- metallofullerenes MO60.413
- metals MO40.05
- metal MO40.04
- metastable states TU40.03
- method of moment TU60.205
- methoxy poly(ethylene glycol) TH21.01
- metrology MO60.601, WE61.101
- MFI nanoparticles WE60.709
- MFI thin film WE60.709
- micelles WE61.711
- Micelle TU61.319
- mice TU60.905, WE60.711, WE62.104
- micomechanical TU21.01
- micro cantilever WE60.109
- micro membrane pump MO60.107
- micro particles MO60.104
- micro tubes MO60.115
- micro umbrella WE60.201
- micro-bubble WE51.02
- micro-cantilever MO60.410
- micro-channel TU28.02
- micro-chemlab TU23.02
- micro-circulation MO41.03
- micro-fluidics MO60.117
- micro-igniter WE51.03
- micro-machine WE51.02
- micro-machining MO60.117
- micro-nozzles WE28.21
- micro-pump MO36.03
- micro-rocket WE51.03
- micro-structuring TU25.02
- micro/nano combined structure TU92.02
- micro/nanostructures WE61.404
- microactuators WE60.115
- microactuator WE60.305
- microarrays MO60.302
- microarray MO60.205, TU61.406, WE57.05
- microbubbles MO60.311, WE61.706
- microcantilever sensor TU32.06
- microcavity WE60.308
- microchannel emulsification MO60.114
- microchannel forced convection TU60.312
- microchannels MO60.108
- microchannel MO60.105, MO60.106, TU38.04, WE60.105
- microchips TU61.305
- microchip WE32.04, WE60.114
- microcoil TU60.406
- microcontact printing MO60.608
- microelectronics MO60.602
- microemulsion WE60.702
- microfabrication MO35.02, TU60.301, WE27.04, WE51.03, WE60.202
- microFACS TU60.311
- microfludics MO36.05
- microfluid electrophoresis WE60.114
- microfluidic channel TU61.413
- microfluidic device TU60.316, TU94.02
- microfluidic injet TU94.01
- microfluidic particle transport TU60.317
- microfluidic separation TU60.308
- microfluidics systems TU60.315
- microfluidics MO36.02, MO41.05, MO52.04, MO60.101, TU23.02, TU28.03, TU60.301, TU60.302, TU60.305, TU60.311, TU61.305, TU94.03, WE28.13
- microfluidic MO60.104, MO60.107, MO60.118, TU60.307, TU61.409, TU61.411, TU61.415, TU94.04, WE57.03
- microfluids TU38.04
- microfluid MO60.112
- microhardness WE61.403
- microjetting MO60.311
- micromachining SOI TU60.106
- micromachining TU22.02
- micromanipulation scheme TU60.104
- micromanipulation TU60.301
- micromirrors TU60.103
- microorganisms TU29.82
- microphone TU30.103
- micropore WE60.911
- microreactor MO60.111
- microrheology TU40.02
- microspeaker TU30.103
- microspectrometer TU21.02, WE60.306
- microsphere templates TH52.01
- microstructural material WE32.02
- microstructure stability WE60.807
- microstructures MO60.509
- Microstructure TU96.01
- microstructure WE62.402
- microsystems WE10.01
- microsystem WE57.03
- microvalve WE60.305
- microvessels WE62.310
- microwave plasma MO54.03
- microwave resonator MO60.209
- mid-infrared FTIR spectroscopy WE61.502
- migration energy MO60.505
- military nanocomposites MO28.05
- military uniform TU44.06
- millimeter long TU37.11
- minerals MO61.303
- miniaturization TU60.201
- minienvironment MO58.41
- minimum energy path MO60.505
- mismatch TH16.02, WE56.03, WE62.525
- mitochondria TU30.207, WE38.14
- mixed-level macromodels TU32.05
- mixing MO52.04, MO60.102, MO60.110, MO60.118, TU38.02, TU94.03
- mobile mapping TU45.05
- MOBILE TH53.02
- mobility model WE36.04, WE62.505
- mobility MO34.01, TU26.01
- MOCVD MO54.03
- model validation TU60.108
- modeling MO60.303, TH26.01, TU39.05, TU42.03, TU60.101, TU60.201, TU61.303, TU94.04, WE36.05, WE36.08, WE56.04, WE61.901, WE62.506, WE62.509, WE62.526
- modelling TU60.107
- model MO61.201
- moderate and strong inversion WE56.10, WE62.532
- modified Bessel functions WE60.309
- modified protein MO60.312
- MOEMS WE32.03, WE60.411
- molar mass WE60.804
- molding TU44.04
- molecular automaton MO60.401
- molecular biology MO47.03
- molecular communication TU60.412, TU61.204
- molecular diagnostics MO41.05
- molecular docking MO60.312
- molecular dynamics simulation MO31.04, MO60.406, MO60.410
- molecular dynamics MO60.301, MO60.416, TU38.03, TU39.02, TU60.608
- molecular electronics TU60.509, TU60.606, WE24.02
- molecular imaging MO60.602, TU60.905, WE62.104
- molecular mechanics TU39.04
- molecular modeling MO60.304
- molecular recognition WE60.301
- molecular simulation MO51.02, MO51.06, MO60.415
- monitoring system WE21.04
- monitoring TU61.301, WE21.03
- mono-disperse droplets TU60.310
- monoclonal antibody TU61.302, WE61.806
- monodisperse nanocrystall WE60.706
- monodisperse nanocrystals MO60.917
- monodispersed MO53.14, MO60.905
- monodisperse TU61.308
- monolayer deposition MO59.905
- monolayers TU25.03
- Monte Carlo MO31.03, MO51.04, WE34.01
- Monte-Carlo WE60.909
- MOS FET model TU26.01
- MOS sizing WE56.10, WE62.532
- MOS structures MO61.008
- MOS technology WE24.03
- MOSEFT TU42.02
- MOSFET compact model TU16.02
- MOSFET modeling WE36.01, WE56.11, WE62.501, WE62.533
- MOSFET model WE36.10, WE62.510
- MOSFET parameter extraction WE56.11, WE62.533
- MOSFET symmetry WE36.01, WE62.501
- MOSFET threshold voltage WE56.11, WE62.533
- MOSFET TU26.02, TU36.01, TU36.04, TU42.03, TU60.202, WE16.03, WE26.02, WE34.04, WE36.03, WE36.04, WE60.902, WE62.503, WE62.505
- movie industry TU45.03
- MRI contrast agent TU61.319
- MRI TU60.905, WE60.711, WE62.104, WE62.108
- MUC2 TU39.01
- mucin glycoprotein TU39.01
- mucin WE61.602
- mullite MO61.101
- multi walled carbon nano tubes TU60.702
- multi-method characterization WE58.21
- multi-objective compromise optimization MO61.306
- multi-plex assay WE27.03
- multi-scale computational framework MO51.01
- multi-scale modeling TU38.03
- multi-scale structure WE39.12
- multi-wall and single-wall carbon nanotubes MO51.01
- multicanonical MO51.04
- multifractals MO60.102
- multilayer WE60.304
- multiphase TU28.01
- multiphysics simulation MO60.105, MO60.106
- multiple enzymes WE62.308
- multiple jets TU29.12
- multiple myeloma TU61.305
- multiple-label TU61.405
- Multiplicity TU60.312
- multiscale modeling MO60.408, TU39.04, WE28.14
- multiscale MO51.03, TU61.604
- multistage surface treatment WE61.501
- MWCNTs WE60.902
- MWNT MO61.101
- myoglobin WE60.711
- mytotic inhibition WE61.701
- nacre WE62.305
- nano - crystalline NiFe2O4 WE60.705
- nano CdSe WE61.813
- nano electromechanical devices TU10.01
- nano medicine WE60.311
- Nano particles MO61.103
- nano porous biopolymers WE59.102
- nano powders MO60.705
- nano ridges WE62.309
- nano robots WE60.311
- nano silver TU60.911
- nano SoC MO60.203
- nano structured amorphous carbon WE28.34
- nano structured materials TU60.805
- nano structured polysaccharide matrices WE59.102
- nano-catalysts MO37.01
- nano-diamond WE61.201
- nano-fibres TU61.103
- nano-filter MO60.509
- nano-hemispheres WE60.912
- nano-indentation WE61.407
- nano-magnet MO60.908
- nano-mesospheres MO58.01
- nano-micro-bio interfaces MO61.301
- nano-particles TU60.316
- nano-scale devices MO29.22
- nano-scale fillers TU61.102
- nano-scale materials TU60.805
- nano-sensors TU60.706
- nano-size powders TU60.903
- nano-titanium MO46.04, TU46.02
- nanoassembly TU34.07
- nanobattery TU60.201
- nanobelts WE60.405
- nanobiology TU39.04
- nanobiotechnology MO60.602, MO61.211, WE58.22
- nanobio TU34.07
- nanobundle TU60.610
- nanocapacitors WE60.613
- nanocapillary TU60.807
- nanoceramics WE38.15
- nanochannel TU23.02, TU38.01, TU38.05, WE60.302
- nanoclay WE58.15, WE60.808
- nanocluster formation MO25.03
- nanoclusters MO51.04, WE62.403
- nanocomplex melanoma polyhemoglobin-tyrosinase TU61.306
- nanocomposites MO60.502, MO61.102, TH21.05, TU61.102, WE58.13, WE58.14, WE60.806, WE60.903, WE60.908
- nanocomposite MO61.107, MO61.110, TH24.04, TH25.03, TU61.318, WE35.04, WE58.11, WE59.104
- nanocomposits TU29.01
- nanocomposit WE62.401
- nanocontact printing MO60.609
- nanocrystal quantum dots light emitting devices silicon heterojunctions WE54.06
- nanocrystalline aluminum WE60.603
- nanocrystalline diamond TH35.05
- nanocrystalline thin films MO60.918
- nanocrystalline thin film TU60.511
- nanocrystalline TiO2 WE60.704
- nanocrystalline MO35.03, MO40.05, MO60.805
- nanocrystallography WE61.102
- nanocrystals MO60.913, TU61.201
- nanocrystal WE62.311
- nanoDAC TU29.21
- nanodevices MO38.101
- nanodiamond WE60.908, WE62.106
- nanodots TU60.501
- nanodot MO60.603
- nanoelectronics MO61.301
- nanoelectronic MO60.206
- nanoemulsion TU60.908
- nanofabrication MO60.602, MO60.809, TU34.06, TU34.07
- nanofiber membrane WE62.312
- nanofiber reinforced composites MO28.05
- nanofibers TH25.04, TU29.13, WE60.307
- nanofiber MO61.107, TH25.05, WE60.802, WE61.708, WE61.903
- nanofilm WE61.406
- nanofluidics TU23.02, TU38.05, WE60.302
- nanofluids MO60.108, MO60.120, MO60.414
- nanofluid MO52.03
- nanogap WE24.02
- nanogels TU60.906, WE60.701
- nanohybrid architectures WE60.406
- nanoidentation WE60.603
- nanoimprinting WE60.605
- nanoindentation MO60.408, WE61.106, WE61.404, WE61.405
- nanolithography MO61.010, TU34.03
- nanomachine communication TU61.204
- nanomachine TU60.412
- nanomanipulation MO38.104
- nanomanufacturing impurities cleaning TU29.81
- nanomaterials MO21.01, MO35.03, MO61.106, MO61.204, MO61.303, TU60.303, TU96.02, WE28.14, WE38.22
- nanomaterial WE62.306
- nanomechanical WE60.111, WE60.112
- nanomechanics MO61.301
- nanomembrane WE60.608
- nanometal oxides WE60.803
- nanometal/polymer composites WE60.803
- nanometallic particles WE27.02
- nanometals WE60.803
- nanometer scale TU60.602
- nanomotor WE60.113
- nanoparicle sol-gel process silica sphere core-shell WE61.103
- nanoparticle coatings MO28.05
- nanoparticle formation WE28.20
- nanoparticle transfection polyion complex pH responsive WE61.705
- nanoparticle transport in microvasculature WE28.03
- nanoparticle-in-microsphere WE61.704
- nanoparticles MO25.01, MO25.04, MO35.03, MO58.04, MO60.205, MO60.602, MO60.807, MO60.809, MO60.910, MO60.915, MO61.001, TH21.04, TU24.02, TU29.13, TU37.22, TU41.04, TU41.43, TU60.403, TU60.808, TU61.307, TU61.312, TU61.605, TU61.608, WE22.03, WE27.12, WE28.21, WE38.11, WE38.21, WE39.13, WE54.05, WE58.12, WE59.102, WE60.703, WE60.707, WE60.708, WE61.202, WE61.203, WE61.505, WE61.603, WE61.804
- nanoparticle MO53.12, MO60.801, MO60.904, MO60.907, MO61.105, TH21.01, TH24.05, TU24.03, TU61.603, TU61.604, WE27.13, WE27.14, WE28.04, WE39.14, WE60.807, WE60.810, WE60.905, WE61.104, WE61.714, WE61.807, WE62.311
- nanopatterning MO60.605
- nanophosphor powders sol-gel process photoluminescence WE61.301
- nanophosphors MO35.01, MO54.03
- nanophosphor MO53.13
- nanophotonics MO61.301, WE54.05, WE60.405
- nanopillar MO61.007
- nanopore DNA sequencing tunneling current TU39.03
- nanoporous silicon WE29.05
- nanoporous WE28.22, WE38.25
- nanoporus MO37.04
- nanopowder compacting WE38.15
- nanopowders MO60.902, TU61.314, TU61.316
- nanopowder MO60.510, MO60.911, WE38.15
- nanopraticles WE62.107
- nanoreactors WE61.702
- nanorods TU60.809
- nanorod MO60.801
- nanoscale anisotropic multilayers MO60.405
- nanoscale architectures TH53.03
- nanoscale characterization MO38.104, WE61.107
- nanoscale devices MO61.302
- nanoscale double gate SOI MOSFETs WE36.29, WE62.521
- nanoscale fabrication MO45.06
- nanoscale mechanisms MO60.208
- nanoscale memories WE60.408
- nanoscale transducers MO60.208
- nanoscale MO38.101
- Nanoscale MO38.102
- nanoscale MO61.108, TU40.04, TU61.301, WE60.409, WE61.402
- nanoscopic channels TU38.03
- nanoscopic tunning WE60.805
- nanosensors WE60.405
- nanosheath MO46.01
- NanoSTAR WE58.15
- nanostructured films WE60.713
- nanostructured fluids MO22.01
- nanostructured TiO2 film TH35.02
- nanostructured MO40.05, WE61.810, WE62.301
- nanostructures TU34.07, TU60.503, TU61.101, WE61.812
- nanostructure MO60.802
- nanostructuring coating WE39.12
- nanostructuring WE38.21
- nanotech and government WE39.25
- nanotechnologies TU61.503
- nanotechnology adoption WE37.04
- nanotechnology stocks patents TU61.703
- nanotechnology MO28.03, MO60.501, MO61.201, MO61.202, MO61.212, MO61.214, MO61.215, MO61.303, MO61.304, MO61.305, TU30.202, TU31.05, TU61.311, TU61.704, TU92.01, WE39.23, WE61.203
- nanotecnology MO61.306
- nanotherapy WE61.710
- nanotopography TH35.03
- nanotoxicology TU41.43
- nanotubes TU41.43, TU60.704, TU61.202, WE60.903, WE61.806
- nanotube MO60.802, WE60.915, WE61.101, WE61.801
- nanowires MO54.04, MO61.001, TU29.11, TU61.105, TU61.202, WE34.01, WE60.606, WE61.407
- nanowire TH24.02, TU60.502, TU60.811, WE54.02, WE54.07, WE56.06, WE60.812, WE62.528
- nano MO60.119, TU60.910, TU61.407
- nansocale chemnical characterization TU40.04
- NASIC TH53.01
- natural frequencies WE55.02
- natural macromolecules WE62.304
- NBT TU60.610
- near-field TH23.03
- NEMS MO60.206, TU10.01, TU31.04, TU60.203, TU60.706, WE60.111, WE60.112
- NERIME TU34.03
- nerve agent decomposition MO60.804
- nervous system disorders TU30.207
- net-shaping MO60.510, WE38.15
- netlisting WE56.08, WE62.530
- network security TU45.04
- network transistor TU60.610
- networks MO46.01, TU95.02
- neural prostheses WE10.01
- neuronal adhesion TH35.01
- neurons MO60.310
- neuron WE58.01, WE58.03
- neuropathy target esterase WE61.812
- neurosciences TU61.207
- neutravidin WE62.101
- neutron scattering TU61.206
- New Jersey MO61.305
- NEXAFS WE28.33
- Ni-Co MO60.604
- nickel islands TU60.708
- nitric oxide TU30.201
- nitride stress liner WE56.08, WE62.530
- nitride WE29.03
- nitriding WE60.602
- nitrosylation TU30.201
- NMR TU60.703
- noise reduction MO60.302
- noise WE26.03, WE36.04, WE36.07, WE36.08, WE60.408, WE62.504, WE62.505, WE62.508, WE62.509
- non invasive WE38.11
- non linear transmission lines TU61.205
- non-charge-sheet WE36.21, WE62.512
- non-classical MOSFETs WE36.21, WE62.512
- non-compact baseline model TU26.03
- non-ferrous alloys MO40.02
- non-invasive WE38.14
- non-linearity WE60.901
- non-volatile residue TU41.42
- nonclassical MOSFETs TU42.04
- noninvasive drug targeting WE28.03
- nonlinear distortion WE26.03
- nonlinear optics TU37.22
- nonlinearity WE36.03, WE62.503
- nonlinear WE28.31, WE60.111
- nonylphenol TH24.03
- Northwestern MO28.02
- novel applications MO61.105
- novel diagnostics platform TU31.03
- nozzle MO53.15
- NQS WE36.10, WE62.510
- nuclear decay rate WE62.102
- nucleation WE61.401
- nucleic acid detection TU61.405
- nucleosomes TU61.302
- nude mice WE61.713
- nuleic acid MO41.05
- numerical modeling WE54.04
- Numerical simuKlaiton TU60.312
- numerical simulations WE60.502, WE60.903
- numerical simulation MO60.101
- nutrition TU44.03
- Nylon 6 TU29.12
- nylon MO61.110
- Nystrom method TU23.04
- obesity TU30.207
- object models TU45.02
- ODN condensation WE28.04
- odor sensor WE60.301
- on-chip flowcytometry TU60.311
- on-demand MO60.704
- on-line rheology MO60.502
- on-site detection TU61.403
- one chip TU60.102
- op-amp WE56.03, WE62.525
- open EWOD TU60.401
- optical behavior WE28.31
- optical communications WE54.04
- optical efficiency MO34.01
- optical interconnect WE32.03
- optical memories TU60.911
- optical MEMS TU22.03
- optical nose TU41.02
- optical properties WE25.03, WE34.02
- optical response MO60.909
- optical scanning probe TH23.01
- optical sensor TU22.02, TU61.404
- optical tagging TU60.803
- optical transistor TU30.106
- optical transmission TU24.02
- optical MO41.01, TU21.01
- optics WE58.16
- optimal control TU60.413
- optimisation MO60.502
- optimization MO51.04, MO60.103, MO60.701, TU60.106, WE34.03
- Optoelectronics MO45.05
- optoelectronic TU30.104
- oral bioavailability TU60.908
- oral delivery system WE61.704
- oral peptide delivery WE61.602, WE61.714
- orbial symmetry MO60.313
- organic field effect transistors WE60.406
- organic microcrystal WE61.803
- organic/inorganic TU60.503
- organoclay MO61.102
- organ TU61.604
- orientation MO61.006
- ossicles WE62.309
- osteoblastic cells WE62.312
- osteoblasts TH35.03
- osteoblast TH35.04
- osteoporosis WE62.306
- OTFT array MO60.609
- OTFT MO60.609
- ovarian cancer MO58.04
- oxidation TU60.901, WE60.415
- oxidative stress WE61.813
- oxidi-reduction properties MO60.504
- oxidize TU44.05
- oximate ion MO60.804
- oxygen reduction MO60.903
- oxygen MO60.907
- ozone TU44.05
- p53 gene TU39.02
- PABN WE60.502
- package MO45.03
- packaging TU44.05
- paints MO22.01
- palladium TU60.804
- pancreatic cancer WE28.01
- paralysis MO46.05
- paramagnetic carbon nanoclusters TU93.01
- paramagnetic WE61.807
- parameter extraction TU36.03
- parametric models TU23.03
- parametrizable library TU60.101
- Parkinsonís disease MO47.02
- particle aggregation MO60.113
- particle manipulation MO36.04
- particle ordering WE38.22
- particle shape and structure WE61.503
- particle size analysis MO60.806
- particle size control MO53.14
- particle WE57.07
- partnership MO29.301
- passive and active components TU30.104
- patchy surfaces WE39.11
- patent infringement TU61.702
- patents MO61.214, MO61.215
- patent TU61.704, WE60.101
- pathogens TU29.82
- pathogen WE38.13
- pattern matching TH53.02
- pattern recognition WE22.03
- patterning TU60.503, WE59.105
- patterns WE28.15
- PC12 WE61.903
- PCL WE61.708
- PCR-Free sensibility TU61.403
- PCR WE57.05
- PDF WE38.24
- PDMS (polydimethylsiloxane) WE61.502
- PDMS stamp MO60.609
- PDMS MO60.607, TU60.305, TU94.03, WE32.02
- PECVD WE60.902
- peer to peer TU45.02
- pegylated poly-L-lysine TU61.312
- PEG TU60.315
- peg WE38.02
- PEM TU60.801, WE62.401
- pentacene TU30.107
- peptide motifs TU40.01
- peptide WE61.801
- percentage-RMS-deviation TU26.03
- perchlorate MO37.01
- percolation threshold WE35.05
- perforation TU32.03
- Perovskites TU60.901
- perpendicular orientation WE60.804
- personal care products MO22.01
- personal care TU52.204
- petrinets TU61.303
- PET TU94.03
- pH measurement TU94.02
- pH responsive WE61.707
- pH-responsive hydrogel WE60.701
- phalloidin TU61.309
- pharma & biotech TU52.201, TU52.202, TU52.203
- pharmaceuticals TU30.205
- pharmacokinetics WE38.05
- pharma MO59.601, MO59.602, MO59.603
- phase transformations MO51.06
- phase-quadrature sinusoidal signal MO60.113
- phonon scattering MO31.04
- phospholipids vesicles TU61.208
- phospholipid TU61.206
- phosphorous implantation WE24.03
- phosphors MO35.03
- photo-initiatiror WE60.611
- photo-stability WE60.504
- photocatalysis MO53.12, MO61.005, TU61.501, WE60.609
- photocatalyst MO60.506, MO60.803
- photocatalytic MO60.805
- photochemical diagnosis TU60.907
- photodetectors WE54.04
- photodetector WE54.07, WE60.407
- photodynamic therapy WE61.703, WE61.712
- photoluminescence spectra WE54.02
- photoluminescence MO35.01, MO60.808, MO61.003
- photonic band gap WE60.308
- photonic bandgap TU22.01
- photonic crystals TU34.06
- photonic nanostructures TU34.02
- photonics TU92.01
- photonic TU60.508
- photoresist WE61.106
- photovoltaic fibers MO28.05
- photovoltaics MO61.303
- photovoltaic WE60.812
- physiological unobtrusive sensing WE21.03
- piezo resistivity WE28.34
- piezoelectric materials WE60.304
- piezoelectric pump MO60.107
- piezoelectric stack WE32.01
- piezoelectric transformer TU60.208
- piezoelectric TU30.103, TU60.313, WE60.104
- pillar MO58.25
- pixel TU22.02, WE60.411
- planar metamaterials WE60.501
- plant leaf TU92.02
- plasma CVD WE60.301
- plasma enhanced chemical vapor deposition MO25.04
- plasma-enhanced CVD TU27.13
- plasma MO41.04, MO51.01, TU60.704
- plasmon resonance TU61.101
- plating MO40.05
- platinum TU60.804
- players MO61.304
- PLGA WE61.603
- PL TU60.504
- PMMA MO61.007, TU61.104
- PNA MO60.416
- point defects MO31.04
- Poisson TU60.206
- polarity sensors WE60.702
- polarization MO41.02
- policy MO61.207, MO61.211, WE37.06
- polishing TU24.03
- poly(butylene terephthalate) WE60.802
- poly(caprolactone) TH21.01
- poly(ethylene glycol) MO53.03
- poly(ethyleneimine) TU61.411
- poly(methyl methacrylate) TU61.411
- polyacrylamide WE27.13
- polyacrylic acid WE60.708
- polyamidoamine dendrimer WE61.712
- Polyaniline WE35.03
- polycaprolactone WE62.312
- polydiacetylene TU60.801
- polyelectrolyte MO46.01, MO53.05, WE61.812
- polylactide WE58.15
- polymer ceramic nanocomposite WE58.16
- polymer disposable MO36.03
- Polymer Electrolyte Membrane Fuel Cell WE62.404
- Polymer matrix TU41.03
- polymer matrix WE28.31
- polymer micelle WE60.607
- polymer systems TU40.03
- polymer-durg conjugate WE61.712
- polymerase chain reaction (PCR) MO60.105, MO60.106
- polymeric micelles WE61.707
- Polymeric Micelle WE62.108
- polymeric nanoparticles TU61.308, WE38.01
- polymerization WE35.04
- polymers MO61.109, WE28.14
- polymer MO40.04, MO46.01, MO60.605, MO61.108, TU40.04, TU60.709, TU92.01, WE28.21, WE58.13
- polyol WE60.705
- polypeptides MO53.02
- polypeptide MO51.04
- polypropylene WE58.11, WE58.12, WE60.808
- polypyrrole TH24.04, TH25.04, TU61.410
- polysaccharide nano particles WE59.102
- polysilicon TFT WE60.412
- polystyrene WE60.703
- pooling MO61.215
- pores MO51.06
- porous carbons MO21.03
- porous silicon WE60.308
- porous MO46.01
- potential barrier lowering WE36.02, WE62.502
- potentiometer TU30.102
- powder dispencing MO60.702
- power devices TU60.208
- power-aware circuits WE10.02
- prenatal diagnosis TU60.304
- preparation MO60.120
- pressure sensors TU30.103
- pressure sensor TU22.03, TU60.106, TU60.205
- pressure TU60.109
- primary human melanocytes TH35.02
- priming TU28.02
- prion MO41.04
- private investment MO61.213
- private MO61.304
- Probe MO38.105
- probe MO60.416
- process characterization TU32.02
- process-dependant model card WE36.09, WE62.535
- process MO61.101
- product development TU61.702
- products MO61.303
- program control MO60.701
- programmes MO61.304
- pronted electronics MO28.03
- properties MO61.101
- prostate MO46.02
- protease TU61.406
- protection MO61.204
- protein adsorption MO53.03, TU60.315
- protein A WE38.13
- protein characterization WE61.502
- protein delivery WE60.810, WE61.715
- protein detection MO60.206
- protein immobilisation MO60.205
- protein microarray WE57.06
- protein partitioning TU28.04
- protein TH21.04, WE28.23, WE60.202, WE60.914
- proteoglycan MO53.04
- proteomic detection MO28.02
- proteomics MO60.202
- protoporphyrin IX WE61.703
- prototyping MO61.305
- PR MO61.213
- PSP TU16.03
- Pt nanoparticles WE62.405
- Pt nanotubes WE62.405
- public interest MO61.209
- public perception WE37.04
- public policy MO61.209
- public MO61.304
- pull-in voltage WE60.115
- pull-in WE60.109
- pulsation reactor MO60.705
- pulse current MO61.006
- pulse testing MO38.101
- pump simulation MO60.107
- PVA MO61.107
- pyrolysis WE61.106
- q factors TH16.03
- QCM TH24.03, WE60.301
- QD lasers MO54.03
- quality control MO60.120, WE61.203
- quality factor TU32.04
- quantization effects TU60.410
- quantum cellular automata WE24.03
- quantum chemistry MO60.304, MO60.306
- quantum corrections WE36.30, WE62.522
- quantum dot crystal MO54.01
- quantum dots MO54.03, MO60.910, MO60.916, MO61.111, TU25.01, TU61.201, TU61.207, WE34.02, WE35.02, WE61.813
- quantum dot MO61.003, TU60.601, WE58.01, WE58.03, WE61.805
- quantum effects WE36.26, WE62.517
- quantum effect TU60.202
- quantum mechanics MO60.313
- quantum simulation WE60.604
- quantum transport TU60.605, TU60.607
- quantum well TU60.602
- quantum wire WE54.07
- quartz crystal microbalance WE61.504
- quasicontinuum MO51.03
- quasiharmonic models MO51.03
- quorum sensing WE60.311
- R&D MO61.304
- radiation environment WE60.414
- radiation therapy TU61.318
- radiation tolerance WE60.413
- radiopharmaceuticals TU94.03
- RAFT WE60.805
- Raman scattering MO61.005
- Raman spectroscopy TU27.01, WE28.35
- Raman spectrum WE54.02
- Raman MO60.901, TH23.03, WE28.33
- random access memory WE60.413
- random TU60.610
- rapid WE62.107
- rare-earth MO60.905
- ratchet WE60.113
- rational materials design TU30.202
- RBC MO36.05
- RDF WE26.02
- reaction yield TU38.02
- reactive milling MO60.910
- reactivity MO60.306
- reactor design MO53.15
- real time TU45.02
- real-time structural analysis TU40.03
- real-time system WE60.414
- realt-time imaging MO41.03
- rear projection television MO45.05
- receptor WE58.01, WE58.03
- red phosphors MO60.808
- reduced order model TU23.03
- reduced-modules WE61.407
- reduced-order modeling TU60.408
- reduced-order model TU60.103, WE60.103
- reduction scheme MO60.406
- reduction MO37.01
- reference voltage MO45.04
- reflection theory MO60.405
- reflex-arc WE60.203
- Regional aproach WE36.22
- regional aproach WE62.513
- regulation MO61.205
- reinforcement MO53.11, WE60.904
- relational database TU45.02
- relative permeability tensor WE62.404
- Relaxivity WE62.108
- reliability WE28.35, WE60.107
- reliabilty TU29.21
- remediation TU61.504
- renewable resources MO53.01
- replication MO46.01
- research and deveopment MO61.204
- research cleanrooms TU29.72
- residual stress TU32.01, WE60.611
- resistance TU25.03
- resistivity MO61.006, TU60.508
- resonant nanocantilevers WE60.102
- resonators TU23.01
- responsive materials MO53.02
- retroviral infection TH35.02
- Revenue TU47.01
- reverse micelle MO39.04
- reverse Monte-Carlo MO21.03
- reversible sealing WE32.04
- RF applications TU36.01
- RF filter WE60.103
- RF noise WE36.05, WE62.506
- RF power WE36.05, WE62.506
- RFCMOS WE36.07, WE36.08, WE62.508, WE62.509
- rf TH16.03
- RF TU10.02, WE26.03, WE60.112
- rheology TU29.03, TU60.302, WE35.01
- Rijndael TU45.04
- ring oscillator WE36.27, WE62.518
- risk assessment TU41.43
- risk communication MO61.213
- risks TU61.503
- risk MO61.203, MO61.204, TU61.702, WE37.04
- RMS detector WE60.104
- robotic arm WE61.809
- root growth mode TU37.11
- root mean square WE60.104
- rosette nanotubes TU61.607
- rotation WE62.305
- rotaxanes TU61.408
- rotor WE51.02
- roughness TH23.02
- rovibrational excitation TU60.413
- RTD TH53.02
- rule based WE61.901
- runtime engine TU45.02
- Rutile MO60.803
- rutile MO60.807
- S/D extension shift WE60.402
- safety MO61.203, WE37.06
- salt solution WE61.904
- salted sol-gel MO53.13
- sample size WE61.404
- SAMs TH25.01, WE60.203
- satellite imagery TU45.05
- saturation MO34.01
- SAW TU60.101
- SAXS WE58.15, WE58.23
- scaffold MO46.03, WE61.708
- scalable Mextram model WE56.12, WE62.534
- scaling WE61.402
- scanning electron microscopy TU34.01
- scanning probe lithography TU34.07
- scanning probe microscopy MO35.04
- scattering TU60.707
- SCEs WE36.28, WE62.520
- Schottky diode WE36.05, WE62.506
- schwarzite TU93.01
- scientific computing TU60.204
- SCM WE61.105
- scour WE21.04
- scratch hardness WE61.405
- scratch resistance WE39.15
- search regimes MO61.212
- SECM MO60.507
- secondary structure of proteins WE61.502
- security TU45.02
- self assembled monolayers WE60.406
- self assembling TU34.01
- self assembly TU61.202, TU95.02
- self-assembled layers MO46.01
- self-assembled scalable devices TU60.706
- self-assembled TU25.03
- self-assemble WE60.810
- self-assembling nanosystems WE38.01
- self-assembly monolayer MO60.410
- self-assembly MO32.01, MO32.03, MO35.04, MO53.01, MO53.02, MO60.809, MO60.915, TU25.01, TU30.107, WE28.15, WE60.801, WE62.315
- self-assemby TU39.04
- self-cleaning TU61.501
- self-doped WE35.03
- self-organization TU25.02
- semi-conducting TU60.611
- semi-continuum model WE61.406
- semicircle TH24.02
- semiconductor devices TU60.408
- semiconductor fabrication TU34.03
- semiconductor facilities TU29.71
- semiconductor heterostructures TU25.01
- semiconductor nanotube TU60.806
- semiconductor nanowires MO54.02
- semiconductor TU30.107
- SEM MO38.104, MO61.112, TU29.22, TU29.24, TU34.01
- sensing arrays WE22.03
- sensing systems TU22.03
- sensing TU31.05
- sensitivity TU60.702, WE60.309
- sensor networks WE31.01
- sensor systems WE21.02
- sensors MO25.01, MO60.501, MO61.303, TU10.02, TU31.01, TU31.02, WE60.609
- sensor MO39.04, TU21.01, TU30.102, TU37.03, TU41.02, TU60.109, TU60.606, TU61.407
- Sensor WE38.12
- sensor WE60.308, WE60.811, WE61.802
- separation by valence TU38.01
- separation TU37.02, WE60.712
- separator MO60.104
- sequencing MO60.119, TU61.408
- SERS MO60.901
- SEU TU60.409
- shaping TU41.04
- shear thickening fluid TU41.01, TU60.303
- shearing traction WE55.02
- shell cross-linked nanoparticle WE61.703
- SHE MO61.201
- shielding of electrical circuits TU60.711
- shish-kebab WE35.01
- short channel effects WE36.02, WE36.29, WE62.502, WE62.521
- short SWNTs TU27.14
- short-channel effects TH26.03, WE36.26, WE62.517
- short-channel MOSFET WE62.504
- Si-incorporation WE60.601
- Si/Ge TU25.01
- SiGe HBT WE56.12, WE62.534
- SiGe TH26.01, TU60.806, WE36.06, WE60.608, WE62.507
- signal peptides MO60.301
- signal processing WE60.404
- silica matrices TU61.203
- silicalite MO60.913
- silica MO52.03, MO53.11, MO61.107
- silicide MO61.008
- Silicon Carbide TU31.04
- silicon ions WE61.302
- Silicon lasers MO45.05
- silicon nanocrystal MO60.912, WE61.302
- silicon nanoparticles MO25.02
- silicon nanowires TH53.01
- Silicon on Insulator WE60.902
- Silicon Photonics MO45.05
- silicon TH24.02, WE38.12, WE54.04
- silver TH21.05, TU60.508, TU60.910, TU61.603
- simple atomistic model TU60.402
- simple structure MO60.209
- SIMS TU60.504
- simulation of forces TU60.403
- simulation MO21.01, MO21.04, TU38.07, TU60.102, TU60.107, TU60.409, WE28.13, WE38.25, WE56.07, WE60.113, WE60.310, WE62.529
- single chip WE60.407
- single crystal MO60.508
- single event effect WE60.413
- single event upset WE60.413, WE60.414
- single molecules WE60.915
- single molecule MO60.119
- single stranded DNA TU39.02
- single wall carbon nanotube WE25.02, WE28.05
- single-electron transistor WE24.03
- single-electron tunnelling WE34.02
- single-gate WE60.412
- single-wall carbon nanotubes TU27.13
- single-walled carbon nanotube TU60.705
- single-walled nanotubes TU60.703
- singlewall carbon nanotube (sCNT) electrode MO60.204
- SiO2 MO60.810, TU60.904
- six band k.p WE60.403
- size distribution WE61.503
- Si WE24.03, WE60.608
- skin electrical landscape WE38.14
- skin penetration WE27.14
- skin WE38.14, WE58.23
- SKPM TH23.04
- sliding mode control TU32.06
- SLS and vanadium(V) WE60.415
- small angle scattering WE38.21, WE38.25
- small-signal modeling WE16.01
- smart coatings MO60.501
- smart holograms TU31.03
- smart materials TU61.314, TU61.316
- smart systems MO39.31
- SMD MO60.308
- Sn-3.8Ag-0.7Cu solders MO61.103
- Sn-3.8Ag-0.7Cu solder MO61.104
- sodalite MO60.913
- soft condensed matter WE38.21
- soft materials MO60.915
- soft matter TU95.01
- soft nanomaterials MO53.01
- soft nanotechnology MO22.01
- software TU45.02
- SOI MESFET MO31.02
- SOI MOSFET TU60.407
- SOI TU36.04, TU42.02, TU60.404, WE56.08, WE60.402, WE62.530
- sol-gel process MO54.04, WE60.704
- sol-gel TU60.511
- Sol-Gel WE60.807
- sol-gel WE61.204
- solar cell MO61.002
- solar-blind WE60.407
- Solid Oxide Fuel Cell WE62.404
- solid phase extraction MO41.05
- solid propellant WE51.03
- solid-state reaction WE61.204
- solid-state MO60.704
- solubity of carbon nanotubes MO60.404
- solution combustion synthesis TU60.903
- solvents WE28.21
- sonication MO61.112
- sonoporation model MO60.311
- sonoporation WE61.706
- sorbents MO37.04
- sorption enthalpy WE61.504
- sorption isotherm WE61.504
- sorter WE57.07
- source-drain short FET TU60.609
- source/drain extension region design WE36.29, WE62.521
- spectral convergence TU23.04
- spectroscopic ellipsometry TH24.03
- spectroscopy TH23.03, TU60.703
- speech processing WE60.404
- spherulites TU95.02
- SPICE modeling WE26.01, WE36.01, WE62.501
- SPICE sub-circuit TH16.02
- SPICE WE56.01, WE62.523
- spiinin disc MO53.14
- spin wave intercommunication TH53.03
- spin-on TU60.505
- spinal cord MO46.05
- spinel MO60.904
- spine MO46.05
- spintronics MO60.917, MO60.918, WE60.706
- SPION WE62.108
- SPL TU34.07
- SPM WE58.22
- spontaneous forming TU61.206
- SPR TH24.03
- spr WE57.06
- sputtering TU60.911
- squeeze-film TU32.03
- SRAM WE56.03, WE62.525
- ssDNA backbone MO60.305
- stability TU25.03, TU60.203
- Stability TU60.312
- stability TU61.206, WE28.15
- stacked hybrid integration WE60.106
- stamp MO60.607
- standardization WE61.101
- standards WE37.06
- starch TU95.02
- static performance TU60.107
- static WE60.413
- statistical modeling WE26.01
- statistical moment method MO60.409
- statistics WE36.07, WE62.508
- stealth liposomes WE38.04
- stealth radar TU30.106
- steam reforming TU60.903
- steel MO40.04
- stem cell WE61.808, WE62.303
- stents WE58.24
- steric model TU61.602
- sterilization MO41.04, TU41.32
- sterilize TU44.05
- stiffness calibration TU96.03, WE61.408
- stimuli-responsible gel WE61.602
- stimuli-responsive hydrogel WE61.714
- STM MO61.009
- stochastic reconstruction WE62.404
- storage TU44.05
- strained Si/SiGe MOSFET WE56.07, WE62.529
- strained SiGe WE60.403
- strategy WE60.101
- streptavidin TH24.02
- stress gradient TU32.01
- structure characterization WE61.202
- structure MO61.108, WE61.902
- SU-8 films WE60.611
- SU-8 MO60.509, TU24.04
- sub-Band energy TU60.202
- sub-threshold WE10.02
- subcellular localization TH21.02
- substrate WE36.08, WE62.509
- subwavelength WE60.503
- suffering MO61.208
- sulfides MO60.910
- sulfite TH24.04
- super paramagnetic resonance WE61.807
- superalloys MO40.02
- supercapacitor MO40.03
- supercritical CO2 processing TU61.102
- supercritical fluids WE28.21
- supercritical fluid WE29.04
- supercritical water MO53.15
- superhydrophobic surfaces TU28.03
- superhydrophobicity TU35.02, TU35.04, TU60.505
- superhydrophobic TU60.314
- superparamagnetic iron oxide nanoparticles WE28.01
- superparamagnetic nanoparticles TU41.03
- supplement TU44.03
- supramolecular assembly TU60.906
- supramolecular chemistry MO53.01
- supramolecular polymers MO22.03
- surface acoustic wave WE61.808
- surface chemistry TH35.01
- surface enhanced Raman spectroscopy WE27.02
- surface flaw WE39.12
- surface functionalization WE60.908
- surface inspection TH23.01
- surface metrology TH23.02
- surface micromachining TU60.107
- surface modifications WE39.15
- surface modification TU61.411, WE62.106
- surface modified catalysts TU27.12
- surface morphology TU37.12
- surface plasmon resonance WE60.605
- surface plasmons MO60.909, WE54.04
- surface plasmon TH24.01, WE60.503
- surface potential based model TU26.02
- surface potential compact model TU16.01, TU26.03
- surface potential TH23.04, TU16.03, TU36.01, TU36.04
- surface preparation TU29.81
- surface roughness WE60.105
- surface tension TU44.02, TU60.310
- surface treatment MO61.105, WE60.610
- surface-to-volume ratio WE61.503
- surface MO53.04
- surfactant mixtures TU29.03
- surfactant transport TU60.310
- surfactant-templated WE61.810
- surfactants WE61.711
- surfactant TU44.02, WE62.308
- surfmer WE60.607
- surgery MO46.05
- surrounding gate MOSFETs WE36.30, WE62.522
- surrounding-gate MOSFET WE36.21, WE62.512
- surrounding-gate WE60.412
- sustainable TU17.02
- swarm intelligence WE60.311
- SWCNTs MO61.104, WE60.901
- swcnt TU60.704
- SWCNT TU60.705
- sweet spot WE36.03, WE62.503
- switch TU30.102, TU60.105
- SWNTs TH23.03
- SWNT TU61.502, WE35.01
- symbolic model TU16.02
- synthesis MO60.802, TU60.909, TU94.03
- synthetic cell culture matrix WE61.903
- synthetic polymers WE60.801
- system level simulation TU94.04
- system on chip WE60.404
- system-level analysis TU38.04
- T-mixer TU60.307
- tailored interfaces MO61.105
- targeted drug delivery WE38.02
- targeting WE61.713
- TATp WE61.707
- Tax Law TU47.01
- TBMD MO60.409
- TCAD SOI compact model WE36.31, WE62.536
- TCAD TU60.204, WE26.03, WE36.09, WE62.535
- technology transfer matchmker MO29.301
- telecommunication TU30.104
- telemetry TU60.406
- temperature sensor TU22.03
- temperature-sensitive MO58.02
- temperature MO31.01, MO60.118, WE61.904
- tempering MO51.04
- templates TU60.804
- template WE28.23
- templating TU34.07
- TEM TU35.05, TU60.501, WE60.807
- Tensile properties MO61.103
- tensile strength WE58.16, WE60.904
- terpolymer WE62.103
- test system WE59.103, WE62.313
- test WE38.14
- Tetrahedral carbon WE28.33
- texture MO61.004
- TG/DTA WE60.705
- TGA TU60.703
- the bystander effect MO60.401
- theory and simulation MO61.301
- therapeutic nanoparticles WE28.03
- therapeutic proteins WE61.715
- therapy WE38.11, WE59.103
- Thermal Analysis WE35.05
- thermal calcination WE60.709
- thermal conductivity MO28.03, MO31.04
- thermal neutron detector MO58.25
- thermal noise WE62.504
- thermal process MO60.705
- thermal radiation MO61.002
- thermal resistance WE60.906, WE60.910
- thermionic WE29.03
- thermo-mechanical reliability WE60.410
- thermocycling MO60.105, MO60.106
- thermoelectric application MO60.508
- thermoelectrics MO61.106
- thermoelectric WE62.402
- thermoplastic polyurethane WE60.806
- thermoset TU44.04
- thermostable MO60.312
- thermotherapy WE28.02
- thickener TU44.04
- thin film calorimetry WE61.504
- thin film transfer WE60.305
- thin film transistor TU36.03
- thin films MO35.02, MO60.809, MO61.008, TU60.313, TU60.911
- thin film TH52.01
- Thin film TU96.01
- thin membrane WE51.03
- thiolation TU61.307
- threats MO58.23
- threshold compact model WE36.23, WE62.514
- threshold voltage TU60.407, WE56.07, WE62.529
- threshold TH53.02
- thrombosis MO47.05, TU60.905, WE62.104
- throughput MO60.703
- tight-binding MO21.03
- time depent magnetic fields TU60.601
- time-resolved pH measurements WE60.701, WE62.302
- Tio2 dispersions WE61.403
- TiO2 MO35.03, MO53.12, MO60.506, MO60.810, MO61.007, TU24.02, TU60.904, TU61.501, TU61.601
- TIRFM MO41.02
- TIR WE60.411
- tissue distribution WE27.13
- tissue engineering MO46.03, TU44.06, WE59.104
- tissue targeting WE38.03
- tissues WE61.902
- titania MO60.805, MO60.807, TU60.902, WE22.02
- titanium dioxide WE60.609
- titanium TH35.04
- TNF-alpha MO58.03
- Tomography MO38.105
- tools MO59.203, MO59.305, MO59.401, MO59.402, MO59.403, MO59.404, MO59.405, MO59.406, MO59.407
- Tool MO38.102
- topography TU34.03
- topological classification WE60.502
- torsional micromirror TU60.107
- total current TU60.405
- total internal reflection TH24.03
- total scattering WE38.24
- toxicity TU61.601, TU61.604, TU61.606, WE27.12, WE38.02
- toxicokinetics WE27.13
- toxicology TU61.607, TU61.608
- track etched membrane WE60.811
- track etched template WE60.811
- track etched WE60.811
- training MO61.201
- transaction logs TU45.02
- transaction markets TU45.02
- transcapacitance WE16.02
- transcription TU39.05
- transferable WE60.608
- transient pressure TU28.02
- transients MO31.01
- transmembrane peptide TU61.309
- transmission electron microscopy WE24.02, WE61.102
- transmission spectrum WE61.502
- transportation infrastructure WE60.110
- transportation MO40.02
- transport TU38.01, WE62.308
- transurehtral MO46.02
- trap WE60.401
- tribloc copolymers WE61.702
- tribological coatings WE61.403
- TSM TU60.314
- tubular scaffold TH25.05
- tumor angiogenesis WE38.03
- tumor imaging WE28.01
- tumor targeted magnetic iron oxide particles WE28.01
- tumor-targeting WE38.04
- tumor MO58.03, TU61.311, TU61.315
- tumour MO47.03
- tunable filter WE60.103
- tuneable filters TU22.01
- tuning system WE32.01
- tunneling current TU61.202
- turbid suspensions TU40.02
- two-phase systems TU28.04
- two-photon chromophores WE58.04
- type I and type II semiconductors WE60.504
- U-87 MG WE61.713
- ubiquitous computing WE31.01
- UHMWPE WE35.01
- ulta-porous MO46.01
- ultra low power WE56.10, WE62.532
- ultra-pure water MO29.21
- ultra-thin body TU36.04, TU42.04
- ultrasonic vibrations MO60.510
- ultrasonication WE60.911
- ultrasonic MO36.04
- ultrasound detection TU30.105
- ultrasound MO60.311, WE61.203, WE61.706
- ultrastructural model of florid plaque WE58.05
- Ultrathin WE28.33
- ultraviolet TU44.05, WE60.407
- Ultrocold molecule TU60.413
- unified charge control model WE16.01
- unified parameter extraction WE56.12, WE62.534
- uniform compacting WE38.15
- uniformity WE60.411
- Unilamellar vesicles TU61.206
- unintentional doping WE34.01
- US-China relations MO61.307
- user facilities MO61.301
- UTB WE34.04
- UV stabilizer WE39.13
- UV-nanoimprint lithography (UV-NIL) TU92.02
- UV-protection TU60.902, WE39.14
- UV-VIS monitoring WE35.05
- UV/ozone treatment WE60.709
- vacancy density TU60.811
- vacuum MO58.41
- value MO29.301
- valve TU60.309
- Van Der Waals concept MO60.411
- Vancouver MO61.302
- Varactor diodes TU61.205
- varactor WE56.04, WE62.526
- variational technologies TU23.03
- vascular graft TH25.05
- vCJD WE58.05
- VCSELs MO45.02
- verilogA WE36.23, WE62.514
- vertically aligned single-walled carbon nanotubes TU37.12
- vertically aligned SWNT TU37.11
- vesicles MO60.915, TU60.801, WE61.711
- vesicle TU61.204
- VHDL Verilog-A WE56.12, WE62.534
- VHDL TU60.409
- vibration monitoring WE60.104
- vibration sensor TU22.03
- vibration transmitter WE60.104
- vibration TU60.411
- video games TU45.03
- virtual reality TU60.403
- visible light MO60.506
- visual basic WE61.809
- vitamin TU44.03
- VLSI multiprocessors TH53.03
- VOC WE60.906, WE60.910
- voltage control WE60.109
- wafer bond MO60.703
- waste heat WE62.402
- water deprivation WE58.04
- water-soluble WE62.103
- water WE60.801
- wave guide WE60.411
- waveguide TU21.02, TU30.104
- waves equations TU61.205
- WBC MO36.05
- Weak Inversion TU61.402
- weak WE56.10, WE62.532
- wear index WE61.403
- web mapping TU45.05
- weight of evidence TU61.608
- welding MO40.02
- wet etching WE60.108
- wettability engineering WE59.105
- Wetting MO61.103
- whole blood MO36.03
- whole cell biosensors MO60.207
- wireless sensor networks WE10.02, WE21.01, WE21.02
- wireless sensor network WE21.04
- wireless sensors WE21.03, WE31.01
- worm-like micelles TU29.03
- X-ray absorption near edge spectroscopy MO61.001
- X-ray crystallography WE61.806
- X-ray diffraction MO54.04
- X-ray interference lithography MO54.01
- X-ray microscopy WE38.21
- x-ray WE61.201
- XPS WE60.610
- XRD WE60.704, WE60.705
- YAG MO53.13
- Youngís modulus TU60.705, TU96.01, WE61.106
- Yttrium silicate MO35.01
- Z-pinch MO45.06
- zeolite micropattern TU60.802
- zeolites MO60.913
- zeptomole MO60.204
- zeta-potential MO60.810, TU60.904
- zinc oxide nanotowers TU35.02
- zinc oxide TU60.502, TU60.902
- Zinc Oxide WE27.14
- zirconia MO37.03
- zirconium hydroxide MO37.03
- zirconium phosphate MO53.11
- ZnCdSe-CdSe MO54.03
- ZnO MO60.917, TU37.22, WE54.02, WE60.706
- ZnS MO60.918
- Zn MO60.914
- ZrO2 MO61.008
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