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Nanotech 2005 Program - Index of Keywords

(eco)toxicology WE906.11
(salen)Mn TU66.04
0.7 anomaly MO43.02
1 WE907.09
1'-oxalyldiimidazole WE907.09
1/f noise TH22.09, WE918.14
1=f noise WE79.02
2D electrostatics TH38.07, WE918.07
2D GICCR WE79.01
2D quantum effects TH38.07, WE918.07
2D simulation TU84.08
2g WE916.09
3C-SiC TU83.05
3D GiCCR WE79.01
3D Monte Carlo MO53.03
3D nanolithography TU90.03
3D stacking WE915.11
6 band k.p WE916.06
90nm TU87.04
ab initio MO32.01, WE908.08
ab initio MD simulation WE916.15
abrasion resistance TU36.03
absorption MO45.06
AC impedance TU68.08
acceptor TU66.07
acidic vesicles TH75.02
acoustic separation WE36.05
acoustic wave sensor TU68.06, WE906.05
acrylate polymers WE55.01
acrylic elastomer WE914.06
activation energy TU72.04
active readout WE74.05
actuation MO44.04
actuator TU88.04, WE911.06, WE914.06
ad-hoc networks TU45.01
ad-hoc sensor networks TU45.03
adaptive optics WE58.01
adaptivity TH73.04
adatom clusters MO31.01
adenovirus TH33.01
adhesion TH54.04, TU79.06
adhesion behavior TU74.07
adhesive TU79.09
adjacent impedance probing WE906.07
adjuvant TU65.03
adriamycin TU65.09
adsorption TH34.03, TU35.01, TU76.06, TU80.01
aerospace MO47.06
aersol synthesis TU57.02
AFAM MO33.02
AFM MO33.02, MO33.05, MO48.04, TH35.02, TH56.03, TH57.04, TU90.03, WE902.05, WE904.09, WE910.04, WE913.05, WE913.09
AGC WE58.02
ageing TH57.03
agitator bead mill MO47.05
AIP WE906.07
aircraft systems retrofit WE915.06
airgaps TH38.10, WE918.18
ALD TU73.02, TU82.09
alleviation TU88.13
alloy scattering WE916.07
AlN WE913.01
AlQ3 TU76.03
aluminium WE913.03
ambipolar behavior TH72.03
amelogenin nanospheres WE903.04
amine derivative TU74.02
amino acids MO53.05
amorphous carbon TU77.09
amorphous diamond TU77.04
amplifying medium TU73.04
analog TH38.08, WE918.03
Analog circuits TH22.03
analog circuits WE918.08
analog signal processing TU91.02
analysis WE74.03, WE81.04
analytic equations WE919.06
analytic potential model WE39.02
anatase MO42.02
anemometry WE919.08
anisotropic wet etching TU88.08
ANN TH53.04
annealing WE910.04
annealing effect TU85.03
anodic alumuna MO35.02
anodisation WE913.03
anodized aluminium oxide MO51.03
ANSYS TH73.03, TU71.10, TU88.05, WE917.08
anti-fouling MO31.06
antibodies TU66.12
antimicrobial coating WE55.02
Antimony oxide WE912.05
antioxidants WE905.01
antitumor TU66.07
apoptosis TU67.01, WE904.09
applications MO47.02
applications technology MO47.04
array TH56.04, TH56.07, TU68.05, WE904.04
arrays WE55.04
artificial cell TU65.02
artificial noses MO58.02
assembly TU79.03, WE903.04
asymmetry electroosmotic flow WE907.08
Atlanta WE81.02
atomic force microscope MO33.01, TU81.01, TU92.01
atomic force microscopy TU89.05, TU90.01, WE901.02
atomic spontaneous decay TU77.05
atomic switch TU91.01
atomistic modelling TH73.02
atomistic simulations TH54.01
Au nanoparticles WE906.03, WE906.04
austria TU59.02
automotive WE58.02
azobenzene TU44.03
backend TH38.10, WE918.18
bacteria WE902.03
bacterial carpet WE907.04
bacterial pumps WE907.04
ballistic transport WE39.01
barium titanate MO31.04
batteries MO35.01
battery TH52.01
Bayh-Dole WE61.03
beam loss monitoring system WE919.11
BEEM MO33.06
behavioral modeling WE917.12
BEM MO55.01, MO55.05
Berendsen thermostat TH54.03
binding WE901.02
binding efficiency WE904.03
binding kinetics WE904.04
bio electromechanics TH57.04
bio-chemical sensors TU84.05
bio-hazard WE55.02
bio-nano-information fusion TH21.02
bio-nanosensors MO53.05
bio-pharmaceutical applications WE77.02
bio-sensors TU80.03
bioceramic WE903.14
biochip WE904.03
biochips MO57.02, WE906.10, WE907.06
biocidal WE55.02
biocompatibility TU66.06
biocompatible WE903.15
biocomposite WE903.03
bioconjugates WE903.05
bioelectronic nanoscale ion channel array stabilization WE74.05
bioelectronics TH75.03
biological applications TH72.04
biological self assembly WE914.07
biological sensor WE906.01
biologically inspired nano-scale communication system WE919.04
biology MO58.04
biomagnetics WE903.13
biomaterials WE903.07, WE903.08
biomechanical testing WE903.14
biomedical WE74.03, WE903.16, WE903.17, WE919.01
BioMEMS TU71.08
biomimetic TU65.02, WE902.02
biomimetics TU69.13
biomineralization WE903.04
biomolecular motors TH35.01, WE907.04
biomolecule TH33.02
biomolecules MO46.02
bionano TU79.03
bioparticles TU88.02
biopolymer WE911.03
biopotential TH75.01, TU68.07
biosensor TH35.03, TH51.02, TH75.01, TU68.01, TU68.07, WE57.03, WE904.10, WE906.06, WE906.13, WE907.03
biosensors TH35.04, TU68.03, WE51.02, WE906.09
biotech MO61.01, MO61.02, MO61.03, MO61.04, MO61.05, MO61.06, TU59.02, TU60.01, TU60.02, TU60.03, TU60.04, TU60.05
biotechnology TU65.01, TU69.03
biotin WE901.01
biotinylated monolayer MO31.05
block co-polymer TU77.03
block copolymer WE75.03
block copolymers TU36.01, TU44.01, TU79.08
block-copolymer lithography WE903.09
bolometer TU88.12
Boltzmann equation MO43.04
bone healing WE903.14
bone marrow WE903.05
boolean network WE904.06
boron TU83.07
boron diffusion WE916.13
boundary layer. WE920.04
Bragg gap WE916.03
branching ratio TU72.05
breast cancer TU66.03
breath WE905.06
Brenner potential TU77.11
bridging disparate time and length scales MO32.05
Brownian ratchet TU69.05
BSIM3 TH38.09, WE918.19
BSIM5 WE23.02
bubble trap TU71.05
buckling deformation TU87.03
building blocks MO34.03
bulk silicon etch TU52.02
bursting TU69.07
C-MEMS MO51.06, TH52.01, WE52.01
C-V characteristics WE916.05
C(V) catalytically active nanoparticles TU57.05
C60 WE920.06
C70 WE920.06
Ca-alginate nanoparticle TH75.06
Ca-Mg phosphate WE903.06
cabon nanotubes WE72.03
CAD tools MO46.03
cAMP TU69.02
cancer MO57.02, WE36.01, WE900.04, WE903.11, WE905.01
cancer detection TH37.04, WE74.04
cancer treatment TU66.11
cantilever MO33.01, TU57.03
cantilever array TH35.04
cantilevers TU68.05
capacitance TH38.10, WE918.18
capacitive pressure sensors WE919.01
capacitors WE916.05
capcitive TU55.01
capillary forces TU79.06
carbon TU77.07, WE911.03
carbon microcoils TU80.07
carbon nano structures TU77.12
carbon nano tube WE38.01
carbon nanocoils TU80.07
carbon nanofiber MO51.06
carbon nanofibers TH52.01
carbon nanomaterial WE32.03
carbon nanostructure WE914.05
carbon nanostructures TH73.01
carbon nanotoroids WE915.08
carbon nanotube TH75.01, TU68.07, TU77.01, TU77.02, WE903.12, WE911.06, WE914.06, WE914.13
carbon nanotube AFM probes TU52.01
carbon nanotube field effect transistors TH72.03
carbon nanotubes MO32.01, MO53.05, MO58.06, TH52.01, TH52.03, TH72.04, TU75.05, TU77.03, TU77.05, TU77.08, WE32.04, WE51.03, WE52.03, WE72.01, WE906.01, WE915.06, WE920.06
carbon NEMS WE32.02
carbon-based nanomaterial WE77.02
carbonate apatite TH75.02
carbonnanotube TH52.02
carrier molecule WE919.04
casein micelles TU33.02
catalase mimic TU66.04
catalysis WE34.01
catalytic mechanism TU66.04
cationic surfactant WE54.05
cavity growth WE908.01
cavity size TH34.02
CD platform WE56.02
CdSe TU79.08, TU85.01
CdTe TU67.03
cell WE901.04
cell adhesion TU69.12
cell advancing method WE916.11
cell assays TH37.04, WE900.01
cell differentiation TU68.06, WE905.03
cell labeling TH37.02
cell migration WE905.02
cell sorting MO57.02
cell transport WE36.04
cell-array TH56.01
cells MO44.04, TH56.04, WE36.03, WE902.07
cellular biosensor WE906.11
cellular communication TU69.02
cellular differentiation TH33.03
cellulose acetate WE901.03
centrifugal force WE907.02
ceramic MEMS MO35.02, TU57.04
Cermet TU76.08
CFD MO54.05, TH53.06, WE36.05, WE901.07
channelling WE34.02
characterisation TU87.01
characterization TH56.04, TU73.01, TU75.06, WE902.02, WE903.14
charge TH22.07, TH38.07, WE918.01, WE918.07
charge based model TU58.01
charge decay WE912.04
charge pumping TU46.01
charge transport WE915.07
charge trapping TU85.04, WE912.04
charge-based model TU37.03
CHARMM TU80.05
chemical sensor TU80.04
chemical sensors MO58.02
chemical storage TU80.02
chemical synthesis WE76.05
chemical vapor deposition WE913.08
chemical vapour deposition WE51.03
chemiluminescence WE907.09
chemostat WE907.01
chemotaxis TU66.03
chip package co-design WE919.10
chitosan TU65.09, WE903.07
chlorotoxin TH57.02
chondrocyte WE905.04
chromatograph WE907.14
chronical diseases TU65.07
circuit design TU82.01, WE59.03
circuit simulation WE916.14
circuit simulation model TH22.09, WE918.14
circuit simulator TH53.04
circulating tumor cells MO57.02
clay nanocomposites TU36.01
clays WE911.04
closed loop TU55.01
cluster assembled nanooxides WE911.05
clustered atomistic-continuum method WE908.04
clusters TU41.03
CMOS MO53.04, TU88.14, WE71.03, WE915.04
CMOS circuit design WE23.03
CMOS RF WE23.02
CMOS/nano TU85.07
CMP TU76.08, TU82.04
CNT TH72.02, TH72.05, WE914.05
CNT enhanced TU79.10
CO detection TU57.02
CO2 WE905.06
coarse time stepper TU77.01
coarse-grained MO34.02, TU91.05
coating TU76.01, TU76.08, WE911.04
coatings TU59.02, TU66.06
coincidence detection TH37.01
collagen WE903.03, WE905.04
collection WE56.04
collective effects WE920.11
collisional cooling TH73.03
colloid TH56.07
colloid physics TU33.01
colloidal gold nanoparticles MO57.04
colloids WE910.02
color-masked catalyst WE909.02
colorimetric detection WE906.04
commercialization WE61.01
compact model TH22.02, TH22.08, TH38.11
Compact Model TU24.01
compact model TU37.01, TU37.02, TU37.03, TU46.01, TU58.01, TU91.04, WE39.02, WE907.07, WE916.17, WE918.05, WE918.11, WE918.22
compact model parameter extraction TH38.12, WE918.06
compact modeling TH22.10, TH38.02, WE23.02, WE39.01, WE59.03, WE79.01, WE918.16, WE918.23
compact modelling WE59.04
compact-model TH38.05, WE918.12
comparison TU37.01
compensator TU88.08
complex fluids TU44.01
composable system simulation MO54.03
composite TH53.02, WE911.03
composite performance MO47.06
composites MO35.04, WE52.03
compressive modulus TU36.02
computational WE920.09
computational biology TU69.01
computational methods TU69.03, TU77.12
concentration of coordination TU77.09
condensation TU79.05
condition monitoring WE919.07
conducting polymer WE904.07
conductive adhesive TU79.09
conductive atomic force microscopy MO51.03, TU85.06
conductivity MO47.06, TU83.07
confocal microscopy. TU66.12
confocal microsocpy MO51.05
conjugated polymer WE904.08
conjugation TU77.10
constitutive modelling TU73.03
contact angle TU76.07, TU77.03
contact angle hysteresis MO54.02
continuum van der Waals TH33.02
contrast agent TH57.06
control MO55.05
controlled drug release WE54.03
convection TU91.04
convection diffusion MO34.05
convective flow WE56.01
cooling MO54.01
copolymers WE913.07
copper WE916.15
copper oxide WE912.06
core-shell TU80.11
correlation time TU72.04
cosmetics MO35.04
cosmic radiation MO55.02
coulomb blockade WE913.05
coupled TU69.05
coupled-field physics MO55.05
creep flow WE908.01
crossbar TU41.01
crosslinking TU80.06
crossover theory TH34.03
crosstalk WE59.01
crystallinity TU72.05, TU75.07
crystallization TU75.03
crystallographic structure TU83.02
cubosomes TU54.01
CuFe2O4/SiO2 WE911.01
cuprates WE908.07
cupric oxide WE909.01
current TH38.07, WE918.07
curved channels WE907.12
curved panels TH33.02
cutting WE32.01
CVD MO31.02, TH72.02, TU77.08, TU82.05
cyclostationary noise WE79.02
cylinder motion WE920.14
cytokine TH56.06
damping coefficient extraction WE917.04
De Beers WE909.03
dean flows WE907.12
decal transfer lithography TU41.04
deconvolution of AP TU69.08
decoupled WE58.02
deep etching TU82.06
defect control MO58.03
defectivity MO45.03
deformable mirror WE58.01
degradation TU65.05
delay WE59.01
delivery TU65.03, TU66.07
delta doping TH31.01
dendrimer WE902.01
densification TU79.12
density-gradient equation WE920.04
deposition/etching process WE916.11
design MO54.01, WE920.10
design concepts MO44.01
design of experiment WE917.11
desorption-ionization WE74.01
detection TH37.04, TH75.04, TH75.04, TU66.01, WE900.01, WE906.03
detection of cells WE906.12
detectors TU80.03, TU84.03
development WE911.03
device modeling MO43.04, WE916.02, WE916.04
device models WE916.07
device parameter extraction TH38.06, WE918.20
Device Physics TU24.01
devices TU52.05
dexamethasone phosphate WE54.03
DFT TH31.02, WE34.01
dft calculations TU66.04
diabolo cross-section TU80.09
diagnostic WE900.04
diagnostics TU56.02, WE904.12
diamond electrode TU77.04
diamond film WE913.01
diamond grit WE909.03
diamond molecule WE32.03
diamond molecules WE77.02
diamond seed WE909.03
diamond synthesis WE909.03
diamondlike carbon TU76.04
diamondoid WE32.03
diaphragm WE917.02
diblock copolymers TH72.04
dielectric MO53.04
dielectric constant MO31.04
dielectric spectroscopy WE902.02
dielectrics WE908.02
dielectrophoresis MO54.04, TU88.02
diffusion MO32.04, MO54.03, WE908.01
diffusion coefficient WE916.15
diffusion constant MO34.05
diffusion trajectory WE916.15
diffusion-advection-reaction equations TH33.01
diffusion-reaction model WE920.02
digital microfluidics TU71.01
dioxin WE909.02
dip-pen Nanolithography TU90.01
direction WE919.08
discrete-event TU69.09
dispersion MO58.01
dispersion nanotubes WE72.02
dispersions MO47.04
display TU88.07
displays MO47.02
distributed computing WE920.09
distributed intelligence WE78.02
DLC TU76.08
DMA TU89.04
DNA TH75.03, TU68.03, TU68.05, TU77.10, TU85.01, WE54.05, WE55.05, WE56.01, WE904.04, WE904.06, WE906.03, WE906.04
DNA concentration WE56.04
DNA delivery TH75.02
DNA detection WE904.07, WE904.08
DNA hybridization TH56.02
DNA Hybridization TU69.03
DNA hybridization TU71.04, WE56.02, WE906.07
DNA immobilization WE56.02
DNA microchip WE56.03
DNA mismatch TU68.08
DNA purification WE901.03
DNA release TH75.02
DNA sensors TU68.08
DNA sequencing TU35.03
DNA synthesis WE907.06
DOD TU55.03
DOE WE917.11
dopaminergic receptors TH35.05
dopant fluctuations TH22.11, WE918.13
doped WE34.02
doped-ZnO TU75.06
doping TU84.07
double gate WE916.08
double gate MOSFETs WE39.02
double gate structure TH72.03
double-gate TH38.05, WE918.12
Double-Gate MOSFET TH38.03
double-gate MOSFET WE916.10
Double-Gate MOSFET WE918.17
Double-Gate MOSFETs TH38.04, TH38.06, WE918.15, WE918.20
double-strand DNA WE908.04
DPN TU71.05
drain current TH22.06, WE918.02
drain current model WE39.03
DRAM TH51.01
DRIE TU71.08, TU82.08
drop extraction TU71.01
drop method TU41.01
droplets WE75.04, WE907.16
drug delivery TU65.01, TU65.05, TU65.06, TU65.07, TU65.08, TU65.11, WE35.03, WE54.01, WE54.02, WE57.03, WE76.03, WE904.12
drug discovery WE76.05
drug release TU65.08
drug screen WE906.05
drug targeting TU59.02, WE54.02
dry release TU82.08
Dupré relation TU80.05
durable TU76.01
dynamic contact angle MO54.02
dynamic measurement TU89.08
dynamic viscoelastic relaxation TU72.04
dynamic viscosity TU74.08
dynamics TH34.01
e-beam TU82.05
E.Coli TU67.02
EBL WE32.02
economic growth WE61.03
ECP TU69.11
edge effect WE920.08
effect of ambient atmosphere TU84.02
effective channel length TH22.04, WE918.09
effective mobility MO53.02, TU46.01
effector TU66.07
egfr mutation WE904.01
ejector WE76.04
elastic WE902.05
elastic network WE908.03
elastodynamics TU91.03
electric field WE56.04
electric field enhanced oxidation TU82.10
electric force microscopy TU90.04
electrical characteristics TU84.08
electrical detection WE906.07
electro-optic WE912.08
electroactive polymer WE917.06
electrocatalyst TU72.02
electrochemical reduction WE912.06
electrochemical sensor TU68.09
electrochemistry WE906.02
electrode surface TU90.04
electrodeposit MO46.04
electrodeposition WE907.05
electrokinesis MO54.04
electrokinetic MO54.03, TU56.03
electrokinetic transport TU35.02
electrokinetics TU56.01
electrolyte MO46.04, WE907.05
electromagnetic effect MO47.06
electromagnetic levitation TU42.01
electromechanical WE917.10
electromechanical coupling WE920.05
electromigration WE917.13
electron WE920.03
electron and optical properties WE920.13
electron beam TU81.05, WE914.05
electron beam lithgraphy TU84.04
electron beam lithography WE32.02, WE72.01
electron diffraction X-ray WE51.03
electron emission MO58.06
electron lithography TU81.01
electron microscopy TU67.01, TU89.02
electronic properties MO53.05
electronic properties. MO34.02
electronic sensing TU66.12
electronic structure TH54.01
electronic structure studies WE908.08
electronic transport TH31.02
electronics MO35.04, MO47.02, MO60.01, MO60.02, MO60.03, MO60.04, MO60.05, MO60.06, WE908.02
electronics cooling WE76.01
electronics engineering education TH22.03, WE918.08
electroosmosis TU71.03, TU88.02, WE36.04
electroosmotic flow TU35.02
electrophores TU69.05
electrophoresis MO54.05, TU56.01, TU71.06, WE36.04, WE56.04, WE907.15
electrostatic TU88.04, TU88.14, WE76.04
electrostatic force microscopy (EFM) WE912.04
electrostatic interaction WE904.07
electrostatique conversion WE78.04
electrowetting WE76.02
electrowetting on dielectric TU71.07
ellipsometry TH35.02, WE913.06
embedded boundaries WE920.07
embedded networked sensing TU34.01
emerging memory WE915.11
emulsifier-based colloids TU33.02
encapsulated lens WE914.05
endocytosis WE903.15
endofullerene TU80.08
energy MO64.01, MO64.02, MO64.03, WE78.03
energy gathering WE919.14
energy landscape WE74.02
energy minimization TU71.07
energy scavenging WE78.04
energy states WE920.03
ENFOL MO45.04
enhanced materials MO35.03
environment WE53.01, WE906.11
environmental regulation WE53.01
enzyme WE902.06
enzyme inmovilization TU80.06
epidermal growth factor TU66.03
epithelial cells TH57.03
epoxy WE911.08
epoxy resin TU36.02
ERK WE905.03
error estimation TH73.04
ESD TH38.09, TU82.03, WE918.19
etch holes WE917.01
etching TU88.12
ethics TU67.04
Eu WE34.03
European Union WE53.01
EUV TU81.05
EWOD TU71.01, WE76.02
excess chemical potential TU69.11
exfoliation TU36.01, TU36.02, WE911.04, WE911.07
exponential function TU91.02
extraction TH22.04, TH22.05, WE918.09, WE918.10
extravasation process WE905.02
fabrication WE920.10
fabry-perot interferometer MO34.01
fast micromixing WE907.11
fault detection WE919.07
fault tolerance TU86.01
fault tolerant system WE919.09
FB-SOI TH38.12, WE918.06
FBAR MO46.01
FCC platinum nanowire WE908.06
FD-SOI MO53.02
FDG-PET. sodium MRI TH57.05
FDSOI TH22.08, WE918.22
FE-RAM memory devices MO33.03
FEA WE36.05
feasibility WE78.02
feedthrough WE919.02
FEM MO55.04, WE920.05
FEMLAB MO54.01
femtogram TH56.06
ferrimagnetic TH75.05
ferrite TU74.08
ferrocene TU68.03, WE904.08
ferroelectric MO31.04, TU91.01, WE913.04
ferroelectric thin films MO33.03
ferromagnetic resonance WE915.03
ferromagnetic rings TU68.02
ferromagnets TH31.01
FET TH38.05, WE918.12
FET variation modeling WE59.03
FIB TU41.05, TU89.01
field effect transistor TH52.03
field emission TU76.03, TU80.03
field emission transmitter MO58.04
field solver TH38.10, WE918.18
field-effect transistor MO51.01
field-flow fractionation MO46.06
filaments TU36.04
film TU76.01, TU91.05
films MO31.03, WE913.07
filter MO45.02
filtration TU71.08, WE901.03
FinFET MO53.03
fingerprint WE902.03
finite element analysis WE917.03
finite element modeling TU66.11
finite-element method WE920.12
first principles TU83.03
flame WE34.03
flash memories WE79.04
flexible TU76.05
flexural plate wave WE906.05
flow TH34.01, WE919.08
flow cytometry TH37.04, WE900.01
flow-through WE56.02
fluid transport WE36.04
fluids TH34.03
fluorescence WE907.16
fluorescence quenching WE904.01
fluorescence spectroscopy TH35.05
fluorescent bids TH37.04, WE900.01
fluorination WE32.01
FMM MO53.03
focus grid TU69.06
focused ion beam TU89.02, TU89.07
focusing WE56.04
folic acid TH57.06
food colloids TU33.02
food production TU33.02
food technology TU33.01
force mapping WE75.02
foresight TU92.02
formulations MO47.04
four-component exact formulation TH22.01, WE918.04
four-terminal junction field-effect transistors WE79.03
fracture TU87.05
fractureness WE908.03
free surface flows MO54.02
free volume TH34.02
free-space optics TU45.01
frequency WE916.17
frequency stability TU57.01
front-end WE919.10
FTIR WE911.01
fuel WE914.01
fuel cell MO35.03
fuel Cell TU72.03
fullerene TU77.06
fullerene soot TU77.06
fullerenes WE920.06
fumed silica WE911.02
functional carbon nanotubes WE914.07
functional nanotubes TU77.10
functionalization WE77.02
fungi WE902.05
fused silica MO32.02
future high-density data storage system TU88.08
G-proteins TU69.02
GaAs WE51.04, WE917.09
gallium nitride MO51.05
gap-tooth method TU77.01
gas WE911.02
gas sensor TU57.02, WE915.02
gas sensors TU83.03
gate tunneling TU46.01
gate tunneling current TU46.02
GEMIOS TH73.03
gene TU65.09
gene delivery TU35.04, TU65.10, WE54.05, WE903.06
gene synthesis WE56.03
general health monitoring WE57.01
genetic metabolic network TH33.03
genetically modified organisms WE904.02
genomic WE81.05
geometry dependent TH22.06, WE918.02
germanium dots TU82.05
glancing angle deposition MO45.05
glass TU71.06, WE907.15
glass bids TH37.04, WE900.01
glass-ceramics TH75.05
glioma TH57.02
global MEMS simulation WE78.04
glucose detection WE57.01
glycolytic TU69.04, TU69.09
gold WE52.02
gold ball TU90.01
gold nanoparticle TU68.04, WE904.01, WE906.03, WE906.04
gold nanoparticles TH35.02, WE903.16
gold thin film TU90.01
good and poor solvents WE900.02
GPU WE74.04
grand canonical Monte-Carlo TH73.01
graphene MO53.05
graphite WE911.04
grating TU88.11
gratings TU82.08
green catalysis WE909.04
Green's function method TH54.05
ground bounce WE59.01
growth WE913.09
growth of carbon nanotubes MO32.05
guided neuronal growth WE901.08
Guinier-Preston zone TH73.05
gyro sensor WE917.12
gyroscope WE58.02, WE919.02
H2S sensor TU80.10
halloysite MO35.04
Hamiltonian model reduction MO53.05
hardened WE919.09
hardness WE52.03
HDL WE917.12
head flyability TU79.11
health care MO63.01, MO63.03, MO63.04, MO63.05
heat conduction WE917.07
heat dissipation MO47.06
heat sink MO42.04
heat spreader TU77.04
heat treatment TU76.03
heavy metals TU80.12
helices WE915.08
hematopoiesis TU68.06
hepatic cancer TU66.02
HER2 TU66.12
heterogeneous dynamics WE75.01
heterogeneous immunoassay TU71.03
heterostructure materials WE906.09
heterostructures MO32.04, WE51.01
high frequency effect WE59.01
high magnetic field WE911.08
high performance computing WE74.04
high pressure MO32.02, WE909.03
high speed MO33.05
high temperature WE908.01
high-frequency noise TU46.02
High-k material TH38.01, WE918.21
high-voltage MOS WE59.04
highly-tensile silicon nitride WE920.01
Hills WE919.02
History TU24.01
holographic TU91.01
HRTEM TU83.02
HSQ TU81.02
humidity sensor TU79.04
hybrid TU75.08
hybrid devices TH35.01
hybrid nanocontact printing(HnCP) TU81.03
hybridization TH56.05
hydraulic actuator TU82.02
hydrogel WE57.03
hydrogen silsequioxane TU81.04
hydrogen storage TH73.01
hydrophilic TU76.01
hydrophobic TU76.01
hydrophobicity TU76.07, TU77.03
hydrothermal TU75.02
hydrothermal synthesis TU75.08
hyperbrached poly(epsilon-caprolactone) TU72.04
hyperthermia TH75.05, WE903.11
hysteresis TH22.10, WE918.23
IA-32 architecture WE919.09
icpms WE902.03
identification TU87.02
ignition WE914.01
IHC MO44.04
III-nitrides MO51.05
image data MO34.05
imaging MO33.06, MO48.04, WE902.07
imbibition WE72.03
immobilization TH35.03, WE904.11
immunassays WE906.02
immunoassay TU56.02, TU67.02, WE904.10
immunology WE57.02
immunomagnetic WE36.01
immunosensor TH35.02
impedance modeling WE915.01
implantable nanobiosensor WE903.02
implants TU66.06, WE905.02
implicit surface potential TH22.07, WE918.01
imprinting TU81.02
imprinting mechanism TU91.03
IMU WE919.13
in silico chemotherapy WE54.04
in situ atmospheric measurements TU45.03
in-plane TU88.11
in-situ WE913.09
In2O3 nanowire TU85.02
incineration WE909.02
indium oxide TU82.10
inductors WE55.03
industrial converting MO47.05
inelastic light scattering WE32.04
inflammatory process WE905.02
information TU69.13, WE78.03
information processing TU69.07
infrastructure MO58.03
inhibitors TU66.03
initial tension WE920.08
injector TU56.03
ink-jet TU79.09
innovation research TU47.01
inorganic slat TU84.07
inorganic/organic WE908.08
instrumentation TU61.01, TU61.03, TU61.04, TU61.06, TU61.07, TU88.15
instrumentation-software TU61.02
Integrated circuit design TH22.03, WE918.08
integrated nanosystems TH21.02
integrated optics devices TU84.05
integrated process design MO34.03
integration MO46.01, TU81.06
intelligent algorithm WE920.10
intelligent sensor WE919.07, WE919.13
intelligent sensors WE38.02
inter-valley scattering MO43.01
interconnect TH38.10, TU86.02, WE917.13, WE918.18
interconnection technology TU79.10
intercrystalline fracture WE908.01
interdiffusion MO32.04
interface MO33.06, TU91.05
interface interdiffusion TH54.05
interface modeling TH51.03
interfaces TU59.02, WE908.08
interfacial interaction WE911.07
interferance microscopy TU89.05
interference MO45.01
intracellular trafficking WE902.01
intracellular transport TH33.01, TU35.04, TU67.03
intrinsic channel WE39.03
invariant manifolds MO55.03
inverse problem TU66.11, WE76.03
inverse problems MO55.05
inversion charge TU37.01
inversion layer MO53.01
inversion layer centriod TH38.02, WE918.16
ion beam micromachining TU89.07
ion beams WE74.03
ion channel TU69.06, TU69.08, TU69.11
ion channels TU82.07
ion projection lithography TU89.07
ion source TH73.03
ion temperature TH73.03
ionic conductivity TU35.02, TU72.01
ionomer WE902.02
IP WE81.05
IrO2 MO51.02
iron oxide TU75.01
iron oxide nanoparticles TH57.06
iron oxide-gold WE903.17
isotachophoresis MO54.05
IV MO51.02
jets WE900.02
JFET compact model WE79.03
JKR theory TU69.12
kernel WE919.07
kinesin TH35.01
kinetic Monte Carlo MO32.03, MO32.05, WE916.13
kinetic monte-carlo TU77.01
klinoptinolith WE905.01
knowledge engineering TU92.02
Kramers theory WE74.02
lab on a chip MO44.02
lab-chips TU82.03
lab-on-a-chip MO44.01, TU56.02, TU56.03, WE56.04, WE901.03, WE906.06, WE907.14
lab-on-chip TU71.05, TU71.06, WE76.02, WE907.15
labeling TU66.08
lactate oxidase TU68.01
Lagrangian mechanics WE920.14
laminin WE901.04
Lanczos TH73.05
landscape phage TH75.04
landscaping WE81.05
Langmuir TU44.03
large area flat TVs MO58.06
large deflection WE920.08
largescale simulation TH52.02
laser assisted direct imprinting (LADI) TU91.03
laser surgery TU66.11
laser welding TU82.03
lasers TU84.06
LaSrMnO3 nanowires TU80.11
lateral deflection WE913.09
lattice Boltzmann WE907.03
layer-by-layer WE903.05
layered cell constructs WE905.05
layout choices WE59.03
layout optimization TU82.01
LC-tank MO46.05
LDA MO43.02
LDMOS WE59.04
lead zirconate titanate (PZT) thin film WE917.14
leakage current TH72.05
LED TU88.10, WE913.01
legal WE81.02
license WE61.03
life sciences MO58.03
lifetime estimation MO43.05
lightning strike MO47.06
limit cycles TU87.02
line slope TH38.10, WE918.18
linear actuator MO55.04
linear atomic metal chain WE913.08
lipo-based TU65.07
liposome TH37.03, WE54.05
liquid bridge TU79.05
liquid core waveguide WE907.09
liquid crystals WE905.07
liquid flow TH53.06
living cell WE903.01
living neuronal networks WE901.08
local CVD MO51.06
local therapy TU65.04
locally deliver TU80.02
logic WE31.04, WE71.03
logic devices WE915.04
low temperature TU75.07
LPCVD TU82.09
LTCC WE906.02
lubrication TU91.05
luminessence TU84.01
lumped model WE907.10
luteinizing hormone releasing hormone receptors MO57.03
lyophilization WE903.07, WE903.08
lysosomes TU67.01
M-DNA TU68.08
machine element WE914.13
macro-modeling TH53.04
macrophage TU67.03
magnetic WE55.03, WE900.04, WE909.04
magnetic beads TU68.02
magnetic clusters nanowires WE915.08
magnetic field WE920.14
magnetic flocculation WE911.08
magnetic heating TU66.05
magnetic hyperthermia TU66.05
magnetic implants TU65.04
magnetic nanoparticles TU65.04, WE34.05
magnetic properties WE903.13
magnetic QCA WE915.09
magnetic recording TU79.11
magnetic resonance imaging MO57.03, TH57.06
magnetomotive WE917.10
magnetophoresis WE36.03
magnetoresistance TU80.11
magnetoresistive WE906.10
MALDI TH73.03
manganite TU88.12
marangoni effect TU71.02
margination WE36.02
mask layout WE917.11
mass detection limit TU80.09
mass production TU77.06
mass sensing TU80.09
mass sensor TU57.01, TU79.02
mass spectrometry WE74.01
mass-micro balancing WE906.06
masterbatches MO47.05
matching TH22.02, WE916.01, WE918.05
material characterization MO33.01, WE915.01
materials MO62.01, MO62.02, MO62.04, MO62.05, MO63.02
materials design WE908.05
materials-software TU61.05
mathematical modeling TU65.08
MAXITARG TU66.02
MCM WE919.10
measurement TU89.04, WE919.08
mechanical WE902.05
mechanical properties TH52.02, TU42.02
mechanical strength WE51.02
mechanics of cells TH57.03
media TU67.04
medium-range order MO32.02
membrane TU88.03, WE902.06
membranes TU75.03, TU82.07
MEMCAD TU88.07
memory MO53.04, WE31.04, WE71.03, WE914.03
MEMS MO44.02, MO46.04, TH53.01, TH53.02, TU55.03, TU71.06, TU71.10, TU82.02, TU87.01, TU88.01, TU88.04, TU88.06, TU88.07, TU88.09, TU88.10, TU89.08, WE38.01, WE58.01, WE78.02, WE907.15, WE917.06, WE917.08, WE917.09, WE917.14, WE919.01, WE920.12
MEMS design TH53.05
MEMS interface TU55.01
MEMS modeling TH53.03, WE917.01, WE917.04
MEMS NEMS TU79.02
MEMS/NEMS WE75.01
meniscus bifurcation TU71.05
mesenchymal stem cell TH37.02
meso-mechanics WE908.04
mesoporous TU80.01, WE74.01
mesoporous carbon TU72.02
mesoporous silica WE51.03
mesoporous silicas MO51.03
mesoscale modeling WE35.03
mesoscale phenomena WE75.01
metal TU73.02, TU80.01, WE900.04
metal clusters WE34.01
metal-chalcogenide TU83.03
metal-insulator transition TU80.11
metal-semiconductor TU83.04
metal-semiconductor chemistry WE913.08
metallic WE52.02
metallic nickel TU73.01
metastable state WE74.02
metastases MO57.03
metastasis TU66.03
metering WE56.04
methodology TU88.09
metrology TU76.02
MFM tips TU90.02
micro actuator TU88.07
micro and nano-scale TH35.04
micro fluidic system MO46.06
micro fluidics rheology TU71.09
micro PCR WE901.06
micro power generators MO34.04
micro-capillary flow TU71.05
micro-contact printing WE904.02
micro-fluidics TU71.04
micro-nozzle WE900.02
micro-optics TU79.01
micro-sensor plate WE920.08
microarray MO44.04, TH56.02, TH56.05, WE904.11, WE907.16
microarray hybridization modeling WE920.02
microarrays TU82.03, WE81.05, WE904.12
microbridge TU87.03
microcantilevers WE906.12
microcavity MO45.02
microchannels WE906.02
microchip TU71.03

micro TU76.02
microdevice TU71.03
microdrops TU71.07
microelectronics TU79.09
microemulsion TH75.06
microemulsions MO31.03, TU42.03
microfabricated WE56.04
microfabrication TU82.07
microfluid WE36.03
microfluidic TH56.02, TU56.02, TU56.03, WE76.02, WE907.09
microfluidics MO44.01, MO44.02, MO44.03, MO54.01, MO54.04, TH53.06, TH56.05, TU56.01, TU66.03, TU71.06, TU82.03, TU82.11, WE36.01, WE36.05, WE56.02, WE61.01, WE76.03, WE907.01, WE907.02, WE907.03, WE907.05, WE907.06, WE907.07, WE907.12, WE907.13, WE907.15, WE920.07
microfluids MO35.01
microjet instability TU71.02
micromachine TU80.10, WE917.02
micromachines ceramic WE901.08
micromanipulation TU79.05, TU79.06
micromechanical resonators WE917.01
micromixer WE907.07
microneedle WE57.01, WE76.03
microorganisms WE906.10
micropattern WE904.05
micropatterning WE901.04
microphase separation WE75.03
micropipette TU69.12
microporous carbon WE52.04
micropump TU71.10
micropumps WE907.10
microreactor TU88.03
microscale cell culture analog WE57.04
microscale heat transfer WE76.01
microsensor TU57.04
microseparator WE36.03
microsystem WE38.01
microsystems TU79.09
microTAS MO44.02
microtubule TH33.01
microtubules TH35.01, TU35.04
microvalve TH53.06
microvavle TU82.02
microwave models WE23.02
microwave plasma TU77.02
military TU55.03, WE919.03
miniaturized antennas WE55.03
mismatch TH22.02, TH38.08, WE916.01, WE918.03, WE918.05
mixed metal oxides WE34.04
mixed SAMs WE901.02
mixed self assembly monolayer WE904.03
mixing MO44.04, WE907.12
MMT TU74.02
mobility model MO43.01
MOCVD MO51.02, TU83.05
model WE76.02
model design WE917.02
model generation WE917.12
model order reduction TU91.04
modeling MO32.04, MO43.03, MO53.04, MO55.02, TH38.10, TH53.01, TH53.02, TH53.06, TU55.03, TU69.02, TU82.03, TU88.04, WE79.03, WE79.04, WE918.18, WE919.01
modelling WE36.05, WE919.06
modification WE919.03
modified Bessel functions WE920.08
modifier TU74.02
modulation TU82.06
modules WE55.03
moems MO34.01
molecular WE904.06
molecular beacons WE904.11
molecular conductance TH51.03
molecular design TH33.04
molecular dynamics MO32.05, TH54.02, TH54.04, TU77.01, TU80.08, WE914.03
molecular dynamics simulation TH54.03, TU77.11, WE901.02
molecular dynamics simulations TU80.05
molecular electronics TH51.03, WE915.06
molecular fan MO42.04
molecular mobility TU72.04
molecular modeling TU35.03
molecular static relaxations TH73.02
molecular-scale devices TH21.02
monodisperse TU75.06
monolayer TU76.05, TU90.04
monolithical integration TU82.02
Monte Carlo TH38.08, TU69.06, WE916.07, WE916.09, WE918.03
Moore’s Law TU82.04
mor TU91.04
MOR WE916.12
MOS TH38.09, TU85.04, WE916.01, WE916.16, WE918.19
MOS compact modeling WE39.03
MOS devices MO53.01
MOS Model 20 WE59.04
MOS Transistor WE23.03
MOS transistor tip TU88.08
MOSCITO WE917.08
MOSFET TH22.02, TH22.11, TH38.01, TU24.01, TU37.02, TU46.02, WE916.02, WE916.04, WE918.05, WE918.13, WE918.21
MOSFET detection TH53.01
MOSFET figures of merit WE23.03
mosfet model TU58.01
MOSFET model WE23.01
MOSFET modeling WE23.03
MOSFET noise TU46.03
MOST TU24.01
motility WE907.04
motor proteins TH35.01
motor-assisted transport TH33.01
MOVPE WE51.04
MoxSyIz TU83.01
MoxSyIz nanowires TU83.02
MR sensors TU68.02
MRI TH57.02, TU65.07
mRNA probe TU68.05
multi wall TU77.02
multi-frequency TU88.02
multi-height TU82.11
multi-scale TU65.08
multi-scale modeling MO32.05
multi-trap assisted tunneling MO53.04
multilevel memory TU85.02
multiphoton spectroscopy MO51.05
multiple-gate MOSFETs WE39.01
multiplexed TU66.01
multiscale TU35.05, TU91.05
multiscale model TU69.08
multiscale modeling TU35.01
multiscale modelling MO31.01
multiscale simulation TU77.01
multivariant TU91.04
myosin electric field TU70.01
n-alkanes TU76.06
nano MO44.04, TH56.07, TU76.02, TU81.06, TU82.05, WE31.02, WE900.04, WE919.03, WE920.01
nano channel WE907.08
nano corners TU83.08
nano electronics TU76.05
nano imprint lithography TU81.02
nano lithography MO45.04
nano materials WE908.05
nano modules and circuits TU86.02
nano particle TH54.04, WE910.02
nano particles TU75.05
nano patterning MO31.06, MO58.03
nano rods MO51.02
nano scale TU74.03
nano structured Ni TU82.02
nano textured surfaces resonant gas sensors TU88.01
nano tubes MO51.02
nano wire TH51.01, TU81.02
nano wires MO51.02, WE32.02
nano-assembly TU79.04
nano-carpet effect WE51.02
nano-channel WE915.07
nano-crystal WE903.06
nano-device modeling WE915.10
nano-devices TU47.01
nano-electronics TU47.01
nano-fabrication TU47.01
nano-ferrofluid suspension WE920.14
nano-filled TU79.09
nano-imprinting TU91.03
nano-lithography TU41.05
nano-machines WE914.13
nano-machining TU89.01
nano-morphology WE913.02
nano-particle TH75.02
nano-particles TU71.09, WE912.07
Nano-resonator WE917.10
nano-scaffolds WE905.05
nano-scale materials WE908.05
nano-systems WE920.11
NanoArc WE34.04
nanoarray TH35.03, WE903.09
nanobiomagnetics TU65.01
nanobiosensors TU80.06
nanobiotechnology TU67.04
nanocable TU83.04
nanocatalyst WE909.04
nanochannel TU35.01, TU35.02
nanochannels MO46.02, TU52.04
nanoclay TU36.02
nanoclusters WE913.05
nanocoating MO31.02
nanocomposite TU36.03, TU74.04, TU74.06, TU90.05, WE55.03, WE911.01, WE911.07
nanocomposites TU36.02, TU36.04, TU74.01, TU74.08, WE35.03, WE908.03, WE911.05, WE912.11
nanocontact printing TU81.03
nanocrystal TU75.01, TU84.04, TU85.03, WE55.02
nanocrystal self-assembly WE55.04
nanocrystalline TU79.12
nanocrystalline SnO2 TU80.10
nanocrystals TU75.06, WE912.09
nanodevice WE916.16
nanodevices MO42.04
nanodiscs WE915.08
nanodots WE913.04
nanoelectrodes WE901.08
nanoelectronic devices MO32.01
nanoelectronics MO58.03, MO58.04, TH21.01, TU79.03, WE51.01
nanoemulsion WE54.05
nanoencapsulation TH37.03
nanofabrication MO35.02, TH75.04, TU65.02
nanofiber TU80.04, WE905.04
nanofibers TU36.04
nanofluidic WE907.14
nanofluidics MO46.02, MO54.04, TU35.05, TU52.04
nanohemispheres TU77.03
nanoimprint MO58.03, TU41.01
nanoimprint lithography TU81.04
nanoimprinting TU41.02, WE917.07
nanoindentation TH73.04, WE52.03
nanolithogaraphy TU81.05
nanom diamond TU82.04
nanomachine WE919.04
nanomagnetic TU67.02, WE903.11
nanomaterial WE55.03, WE903.02
nanomaterials MO35.04, MO47.04, MO47.05, WE53.01, WE61.01
nanomaterials synthesis TU52.01
nanomechanical TU57.03, WE31.03
nanometals TU73.03
nanoparticels TU54.01
nanoparticle MO45.03, TU65.07, TU66.01, TU66.02, TU75.08, WE34.02, WE34.03, WE52.04, WE57.02, WE903.01, WE903.15, WE913.06
nanoparticles MO47.05, MO57.03, MO58.01, TH54.02, TH57.02, TU36.03, TU42.03, TU44.01, TU52.03, TU65.11, TU72.02, TU75.07, TU79.08, TU82.09, WE34.04, WE900.02, WE900.03, WE903.02, WE903.05, WE903.13, WE903.17, WE905.01, WE910.01, WE911.08, WE912.01, WE912.05, WE912.06, WE912.11, WE914.01
nanopatterning TU52.01
nanophotonic WE55.05
nanophotonics TU84.06
nanopillar arrays WE51.02
nanoPIXE WE74.03
nanopore TH34.01, TH34.02, TU35.03, WE913.03
nanopores TH34.03, WE903.10
nanoporous membranes WE35.03
nanopowder WE912.06
nanoprototyping TU89.02
nanorods MO51.05, TU85.01
nanoscale TU75.02, WE920.09
nanoscale circuits MO41.04
nanoscale imaging TU89.08