|
molecular imaging |
5 |
|
energy storage |
4 |
|
fluorescence imaging |
4 |
|
image-guided surgery |
4 |
|
nir-iib imaging |
4 |
|
short-wave infrared |
4 |
|
anode-free lithium batteries |
3 |
|
battery |
3 |
|
caries detection |
3 |
|
chemistry |
3 |
|
clinical photography |
3 |
|
dental caries |
3 |
|
diagnosis |
3 |
|
diagnostic accuracy |
3 |
|
digital dentistry |
3 |
|
graphene |
3 |
|
high-voltage |
3 |
|
ionic liquid electrolytes |
3 |
|
light-sheet microscope |
3 |
|
material sciences |
3 |
|
near-infrared ii imaging |
3 |
|
near-infrared reflection |
3 |
|
nonflammable materials |
3 |
|
noninvasive imaging |
3 |
|
structured-illumination microscopy |
3 |
|
teledentistry |
3 |
|
analytical chemistry |
2 |
|
bio-syncretic robots |
2 |
|
biohybrid devices |
2 |
|
biosensor |
2 |
|
cancer |
2 |
|
carbon nanotube |
2 |
|
catalysis |
2 |
|
cell actuation |
2 |
|
cl2 trapping |
2 |
|
collaborative |
2 |
|
conjugated polymers |
2 |
|
cooperative learning |
2 |
|
cytotoxicity |
2 |
|
deep learning |
2 |
|
deep tissue |
2 |
|
dna |
2 |
|
drug delivery |
2 |
|
dual-ion batteries |
2 |
|
electrocatalysis |
2 |
|
electrocatalysts |
2 |
|
electrochemistry |
2 |
|
excretion |
2 |
|
field-effect transistor |
2 |
|
gold nanoclusters |
2 |
|
graduate education |
2 |
|
hands-on learning |
2 |
|
hexagonal-textured surfaces |
2 |
|
high-capacity |
2 |
|
high-energy-density battery |
2 |
|
high-safety battery |
2 |
|
hydrogen evolution |
2 |
|
hydrogen evolution reaction |
2 |
|
imaging agents |
2 |
|
imaging-guided surgery |
2 |
|
in vivo |
2 |
|
interfacial chemistry |
2 |
|
ionic liquid electrolyte |
2 |
|
laboratory instruction |
2 |
|
lithium dendrite |
2 |
|
lithium dendrites |
2 |
|
living machines |
2 |
|
low temperature |
2 |
|
manipulatives |
2 |
|
microsphere |
2 |
|
molecular imaging of apoptosis |
2 |
|
moving contact line |
2 |
|
nanomaterials |
2 |
|
nanomedicine |
2 |
|
nanoparticles |
2 |
|
nanostructures |
2 |
|
near-infrared |
2 |
|
near-infrared imaging |
2 |
|
nir-ii fluorophore |
2 |
|
nir-ii imaging |
2 |
|
nir-ii window |
2 |
|
nir-iib window |
2 |
|
oxygen reduction reaction |
2 |
|
pd-l1 |
2 |
|
phase transition |
2 |
|
photothermal therapy |
2 |
|
physical chemistry |
2 |
|
polymers |
2 |
|
potassium battery |
2 |
|
privacy and federated learning |
2 |
|
prussian blue |
2 |
|
quantitative analysis |
2 |
|
quantum dots |
2 |
|
rechargeable lithium/chlorine battery |
2 |
|
renal excretion |
2 |
|
research |
2 |
|
rheumatoid arthritis |
2 |
|
scanning tunneling microscopy |
2 |
|
sdg7: affordable and clean energy |
2 |
|
sdg9: industry innovation and infrastructure |
2 |
|
second near-infrared window |
2 |
|
self-assembly |
2 |
|
soft robots |
2 |
|
spectroscopy |
2 |
|
super-resolution |
2 |
|
superhydrophilic |
2 |
|
superspreading |
2 |
|
supramolecular chemistry |
2 |
|
surface science |
2 |
|
thionyl chloride (socl2) |
2 |
|
ultralow temperature |
2 |
|
upper-division undergraduate |
2 |
|
water splitting |
2 |
|
(opto-)electronics |
1 |
|
1,2,4-triazole |
1 |
|
18-crown-6 |
1 |
|
2d conjugated cofs |
1 |
|
2d conjugated metal-organic frameworks |
1 |
|
2d conjugated metal–organic frameworks |
1 |
|
2d conjugated mofs |
1 |
|
2d covalent organic frameworks |
1 |
|
2d crystalline polymer |
1 |
|
2d materials |
1 |
|
2d mof |
1 |
|
2d nanosheets |
1 |
|
2d polymer |
1 |
|
2d polymers |
1 |
|
2d semiconductors |
1 |
|
2d van der waals heterostructures |
1 |
|
3,4-ethylenedioxy thiophene |
1 |
|
3d |
1 |
|
3d nano-flower |
1 |
|
3d nir-ii molecular imaging |
1 |
|
60mv/decade |
1 |
|
ab initio molecular dynamics |
1 |
|
absorbance |
1 |
|
ac line-filtering |
1 |
|
acceptor molecules |
1 |
|
accessible site populations |
1 |
|
acrylamide |
1 |
|
active site |
1 |
|
active sites |
1 |
|
adults |
1 |
|
ag s quantum dot 2 |
1 |
|
ag -zn ionic exchange + 2+ |
1 |
|
ag mn o 0.4 8 16 |
1 |
|
ag s quantum dots 2 |
1 |
|
agglomeration |
1 |
|
air–water interface |
1 |
|
al-ion batteries |
1 |
|
aligned |
1 |
|
aligned array |
1 |
|
alkaline electrolyzer |
1 |
|
alkoxide |
1 |
|
aluminium laurate |
1 |
|
aluminum batteries |
1 |
|
aluminum battery |
1 |
|
aluminum deposition |
1 |
|
aluminum-ion battery |
1 |
|
anatase |
1 |
|
angiogenesis |
1 |
|
angiography |
1 |
|
anion intercalation |
1 |
|
anion tuning |
1 |
|
anion-derived passivation layers |
1 |
|
anionic surfactants |
1 |
|
anode-free |
1 |
|
anode-free lithium metal battery |
1 |
|
anticorrosion |
1 |
|
aqueous electrolyte |
1 |
|
aqueous zn-ion battery |
1 |
|
aspect ratio |
1 |
|
asymmetrical supercapacitor |
1 |
|
atomic force microscope |
1 |
|
atomic force microscopy |
1 |
|
atomic force microscopy (afm) |
1 |
|
atomically dispersed dual heteroactive sites |
1 |
|
autoantibodies |
1 |
|
autoantibody |
1 |
|
autofluorescence |
1 |
|
azine linkage |
1 |
|
azulene |
1 |
|
ballistic transport |
1 |
|
band-like charge transport |
1 |
|
band-like transport |
1 |
|
bandgap modulation |
1 |
|
beam damage |
1 |
|
benzoquinone |
1 |
|
bio-detection principles |
1 |
|
bioassay |
1 |
|
biocompatibility |
1 |
|
bioconjugate |
1 |
|
biodistribution |
1 |
|
bioimaging |
1 |
|
biological imaging |
1 |
|
bioluminescence |
1 |
|
biomarkers |
1 |
|
biomaterials |
1 |
|
biomedical applications |
1 |
|
biomedical imaging |
1 |
|
biomedicine |
1 |
|
biomolecules |
1 |
|
biostress sensing |
1 |
|
biosyncretic imaging system |
1 |
|
biotin-streptavidin complex |
1 |
|
blood circulation |
1 |
|
broadband emission |
1 |
|
broadband photodetectors |
1 |
|
bulk synthesis |
1 |
|
c4 |
1 |
|
cancer cells |
1 |
|
cancer therapy |
1 |
|
capacitance |
1 |
|
carbon |
1 |
|
carbon dioxide/nitrogen reduction |
1 |
|
carbon electrocatalysts |
1 |
|
carbon nanotube (cnt) |
1 |
|
carbon nanotubes |
1 |
|
carboxylate ester solvents |
1 |
|
catalyst |
1 |
|
catalytic reaction mechanism |
1 |
|
catalytic reduction |
1 |
|
catalytic sites |
1 |
|
cathode |
1 |
|
cathode materials |
1 |
|
cathode-electrolyte interphase |
1 |
|
cell-based photodetector |
1 |
|
cells detection |
1 |
|
cellular imaging |
1 |
|
cellular uptake |
1 |
|
chalcogenides |
1 |
|
charge separation |
1 |
|
chemical functionalization |
1 |
|
chemical mapping |
1 |
|
chemical vapor deposition |
1 |
|
chemical vapor deposition (cvd) |
1 |
|
chemically derived graphene sheets |
1 |
|
chemiresistive sensor |
1 |
|
chemiresistive sensors |
1 |
|
chemisorption |
1 |
|
chemotherapy |
1 |
|
chirality |
1 |
|
chromium oxide |
1 |
|
chromophore |
1 |
|
circulating tumor cells |
1 |
|
citrullinated peptide |
1 |
|
clickable dye |
1 |
|
cluster |
1 |
|
cluster compounds |
1 |
|
co electrolyzer 2 |
1 |
|
co reduction 2 |
1 |
|
co2-to-liquid fuels |
1 |
|
cobalt |
1 |
|
cobalt-free cathode |
1 |
|
colloids |
1 |
|
complement system |
1 |
|
composite polymer electrolyte |
1 |
|
computed tomography |
1 |
|
concentrated ether-based electrolyte |
1 |
|
concentrated hybrid aqueous electrolytes |
1 |
|
conducting polymer |
1 |
|
conducting polymers |
1 |
|
conductive 2d coordination polymers |
1 |
|
conductive 2d mofs |
1 |
|
conductive mofs |
1 |
|
conjugated coordination polymers |
1 |
|
conjugated metal–organic frameworks |
1 |
|
contrast agent |
1 |
|
coordination polymer |
1 |
|
coordination polymers |
1 |
|
copper |
1 |
|
copper foil |
1 |
|
covalent organic framework |
1 |
|
covalent organic frameworks |
1 |
|
cr3+ |
1 |
|
crystalline polymers |
1 |
|
cvd |
1 |
|
cyanine dyes |
1 |
|
cytokine |
1 |
|
cytokines |
1 |
|
cytomegalovirus |
1 |
|
damage mechanisms |
1 |
|
deep eutectic solvent |
1 |
|
deep-tissue imaging |
1 |
|
delamination |
1 |
|
dendrite |
1 |
|
density functional theory |
1 |
|
density gradient ultracentrifugation |
1 |
|
density gradient ultracentrifugation separation |
1 |
|
density gradients |
1 |
|
device simulation |
1 |
|
dft(b) |
1 |
|
diagnostics |
1 |
|
diazonium |
1 |
|
diblock copolymer |
1 |
|
dielectric microsphere |
1 |
|
dielectric microsphere nanoscopy |
1 |
|
direct inverse asymmetric pi model |
1 |
|
distance accuracy |
1 |
|
domino-driven synthesis |
1 |
|
donor–acceptor–donor dyes |
1 |
|
doping |
1 |
|
down-conversion |
1 |
|
doxorubicin |
1 |
|
drug delivery nanobiotechnology |
1 |
|
drug delivery system |
1 |
|
dynamic cantilever model |
1 |
|
dynamic contrast imaging |
1 |
|
dynamic copper clusters |
1 |
|
dynamic stabilization |
1 |
|
early detection |
1 |
|
echo effect |
1 |
|
edge functionalization |
1 |
|
electrical annealing |
1 |
|
electrical conductivity |
1 |
|
electrical transport measurements |
1 |
|
electrochemical energy conversion |
1 |
|
electrochemical performance |
1 |
|
electrochemically exfoliated graphene |
1 |
|
electrode coating |
1 |
|
electrohydrodynamic instability |
1 |
|
electrolyte additives |
1 |
|
electron transport |
1 |
|
embryonic stem cells |
1 |
|
encapsulation |
1 |
|
endocytosis |
1 |
|
energy migration |
1 |
|
enhancement mechanisms |
1 |
|
excited emission |
1 |
|
exciton emission |
1 |
|
exfoliation |
1 |
|
extraction voltage |
1 |
|
extravasation |
1 |
|
extreme electrolyte |
1 |
|
fabrication |
1 |
|
fast kinetics |
1 |
|
feco/gc |
1 |
|
feedforward control |
1 |
|
fept |
1 |
|
ferromagnetism |
1 |
|
fet |
1 |
|
field emission |
1 |
|
field-effect transistors |
1 |
|
films |
1 |
|
first-principles calculations |
1 |
|
flexible |
1 |
|
flexible micro-supercapacitors |
1 |
|
fluorescence |
1 |
|
fluorescence enhancement |
1 |
|
fluorescent protein |
1 |
|
fluorine |
1 |
|
fluorophores |
1 |
|
focused beams |
1 |
|
fowler-nordheim equation |
1 |
|
fracture mechanisms |
1 |
|
full-length znt8 |
1 |
|
functionalization |
1 |
|
gels |
1 |
|
germanium |
1 |
|
glucose sensor |
1 |
|
gold |
1 |
|
gold nanoparticles |
1 |
|
graphene devices |
1 |
|
graphene nanoribbon |
1 |
|
graphene nanoribbon (gnr) |
1 |
|
graphene nanoribbon field-effect transistors (gnrfets) |
1 |
|
graphene nanoribbons |
1 |
|
graphene-sulfur composite |
1 |
|
graphite |
1 |
|
graphite exfoliation |
1 |
|
graphite foams |
1 |
|
graphite oxide |
1 |
|
h zn (de)insertion +/ 2+ |
1 |
|
halogen substitution |
1 |
|
heart failure |
1 |
|
heating |
1 |
|
hemodynamics |
1 |
|
heterogeneous charge transport |
1 |
|
heterojunction |
1 |
|
heteronuclear |
1 |
|
hexagonal boron nitride |
1 |
|
hexatic phase |
1 |
|
hierarchical core-shell |
1 |
|
hierarchical nanosheets |
1 |
|
hierarchical nanostructure |
1 |
|
high concentration electrolyte |
1 |
|
high cycling stability |
1 |
|
high energy density |
1 |
|
high mobility |
1 |
|
high power |
1 |
|
high-energy-density batteries |
1 |
|
high-performance nir-ii bioconjugate |
1 |
|
high-rate cathodes |
1 |
|
high-resolution angiography |
1 |
|
high-resolution transmission electron microscopy |
1 |
|
high-sensitivity multiplexed assay |
1 |
|
high-voltage cathode |
1 |
|
hollow carbon spheres |
1 |
|
hollow hybrid materials |
1 |
|
honeycomb films |
1 |
|
host-guest interaction modulation |
1 |
|
hrem |
1 |
|
hrtem |
1 |
|
hybrid anisotropic nanostructures |
1 |
|
hybrid membranes |
1 |
|
hybrid nanomaterials |
1 |
|
hydrocarbon chemistry |
1 |
|
hydrogen generation |
1 |
|
hydrogen production |
1 |
|
hydrogen-evolution reaction |
1 |
|
hydrolysis |
1 |
|
hydrophobic effect |
1 |
|
hypertensive heart disease |
1 |
|
hyperthermia |
1 |
|
hysteresis |
1 |
|
icosahedral |
1 |
|
il-17 |
1 |
|
il-20 |
1 |
|
il-21 |
1 |
|
imaging |
1 |
|
imine-based cofs |
1 |
|
immunosensor |
1 |
|
immunotherapy |
1 |
|
impurity pinning |
1 |
|
in operando techniques |
1 |
|
in situ growth |
1 |
|
in situ intercalation |
1 |
|
in situ test |
1 |
|
in vivo imaging |
1 |
|
in-plane |
1 |
|
in-situ |
1 |
|
in-situ spectroscopy |
1 |
|
induced pluripotent stem cell |
1 |
|
inorganic fullerene-like nanostructures |
1 |
|
interface engineering |
1 |
|
interfacial copolymerization |
1 |
|
interfacial reaction |
1 |
|
interfacial synthesis |
1 |
|
interlayer coupling |
1 |
|
intravital microscopy |
1 |
|
intrinsic electrical conductivity |
1 |
|
ionic conductivity |
1 |
|
ionic liquid |
1 |
|
ionic liquids |
1 |
|
ionic-liquid electrolytes |
1 |
|
ionicity |
1 |
|
iron |
1 |
|
ischemia |
1 |
|
kagome lattice |
1 |
|
kinetic model |
1 |
|
kpf -tmsp 6 |
1 |
|
l -ficolin |
1 |
|
ladder-type coordination polymer |
1 |
|
lamellar structure |
1 |
|
langmuir-blodgett |
1 |
|
laser processing |
1 |
|
laser-nanomachining |
1 |
|
layer-by-layer methods |
1 |
|
layered double hydroxides |
1 |
|
lead |
1 |
|
light-emitting diodes |
1 |
|
liquid phase separation |
1 |
|
liquid–liquid interface |
1 |
|
lithium batteries |
1 |
|
lithium halides |
1 |
|
lithium ion batteries |
1 |
|
lithium metal anodes |
1 |
|
lithium metal batteries |
1 |
|
lithium metal battery |
1 |
|
lithium oxygen batteries |
1 |
|
lithium-ion battery |
1 |
|
lithium–sulfur battery |
1 |
|
live ovary imaging |
1 |
|
live-cell imaging |
1 |
|
low-temperature photodetection |
1 |
|
luminescent polymers |
1 |
|
lung cancer |
1 |
|
macroporous |
1 |
|
magnetic force |
1 |
|
magnetic nanoparticle |
1 |
|
magnetic resonance imaging |
1 |
|
magnification factor |
1 |
|
manganese oxide |
1 |
|
map5: improvement |
1 |
|
md |
1 |
|
mechanical patterning |
1 |
|
mechanical strain |
1 |
|
melamine |
1 |
|
mesoporous |
1 |
|
mesoporous carbon |
1 |
|
mesoporous polyaniline |
1 |
|
metal enhanced fluorescence |
1 |
|
metal ions |
1 |
|
metal nitrides/oxides |
1 |
|
metal organic frameworks |
1 |
|
metal-organic framework |
1 |
|
metal-organic frameworks |
1 |
|
metallic nanoparticles |
1 |
|
metallic state |
1 |
|
metallosurfactants |
1 |
|
metal–organic frameworks |
1 |
|
methoxy(polyethylene glycol)-phospholipid |
1 |
|
micro-pillars |
1 |
|
micro-robotics |
1 |
|
micro-supercapacitor |
1 |
|
micro-supercapacitors |
1 |
|
micro/nanofabrication |
1 |
|
microarray |
1 |
|
microarrays |
1 |
|
microelectrode array |
1 |
|
microelectromechanical systems |
1 |
|
microfluidic devices |
1 |
|
microlens |
1 |
|
microlens array |
1 |
|
microparticles |
1 |
|
microporous materials |
1 |
|
milling exfoliation |
1 |
|
mobility |
1 |
|
moisture-tolerance |
1 |
|
molecular fluorophores |
1 |
|
molecular magnetism |
1 |
|
molybdenum disulfide |
1 |
|
monolayers |
1 |
|
mri |
1 |
|
multi-site occupancy |
1 |
|
multicolor live molecular imaging |
1 |
|
multifunctional nanoparticle |
1 |
|
multilayer graphene |
1 |
|
multiple architectures |
1 |
|
multiple modes |
1 |
|
multiplex |
1 |
|
multiplex serology |
1 |
|
multiplexed imaging |
1 |
|
multiplexed serologies |
1 |
|
multiplexing |
1 |
|
multiwalled |
1 |
|
n-ethyl urea |
1 |
|
nano-scale processing |
1 |
|
nanobiotechnology |
1 |
|
nanocarbon |
1 |
|
nanocrystal |
1 |
|
nanocrystals |
1 |
|
nanoelectronics |
1 |
|
nanofibrillar |
1 |
|
nanoflakes |
1 |
|
nanomanipulation |
1 |
|
nanoparticle geometry |
1 |
|
nanoribbons |
1 |
|
nanoscale imaging |
1 |
|
nanoscale manipulation |
1 |
|
nanosheets |
1 |
|
nanospheres |
1 |
|
nanostructure |
1 |
|
nanostructured materials |
1 |
|
nanostructuring |
1 |
|
nanotechnology |
1 |
|
nanotubes |
1 |
|
nanotubes, carbon |
1 |
|
nanowires |
1 |
|
natural killer t cells |
1 |
|
na–i batteries 2 |
1 |
|
near infrared |
1 |
|
near infrared fluorescence |
1 |
|
near-infrared (nir)-ii fluorophores |
1 |
|
near-infrared (nir)-ii imaging |
1 |
|
near-infrared fluorescence |
1 |
|
near-infrared ii |
1 |
|
neuromorphic memory device |
1 |
|
new channel material |
1 |
|
newborns |
1 |
|
nickel |
1 |
|
nickel sulfide |
1 |
|
nickel-iron |
1 |
|
niobium |
1 |
|
nir |
1 |
|
nir ml |
1 |
|
nir-ii confocal |
1 |
|
nir-ii fluorescence imaging |
1 |
|
nir-ii fluorophore probe |
1 |
|
nir-ii molecular imaging |
1 |
|
nir-ii multicolor molecular imaging |
1 |
|
nirii |
1 |
|
nitrogen-doping |
1 |
|
nmr spectroscopy |
1 |
|
nonflammable electrolyte |
1 |
|
nonlinear optics |
1 |
|
novel salt |
1 |
|
nuclear inelastic scattering |
1 |
|
oligomers |
1 |
|
on-water chemistry |
1 |
|
operando x-ray diffraction |
1 |
|
optical excitation |
1 |
|
optical microscopy |
1 |
|
optical probe |
1 |
|
optically induced electrokinetics |
1 |
|
optically induced electrokinetics forces |
1 |
|
opto-electronics |
1 |
|
optoelectronic devices |
1 |
|
optogenetically engineered cell |
1 |
|
organic 2d materials |
1 |
|
organic photodetectors |
1 |
|
osteoarthritis |
1 |
|
oxidative stability |
1 |
|
oxygen defects |
1 |
|
oxygen electrocatalyst |
1 |
|
oxygen evolution |
1 |
|
oxygen evolution reaction |
1 |
|
oxygen reduction |
1 |
|
oxygen reduction/evolution |
1 |
|
pad |
1 |
|
particle concentration |
1 |
|
patterned growth |
1 |
|
patterning |
1 |
|
pdms |
1 |
|
peptide probe |
1 |
|
peripheral arterial disease |
1 |
|
ph-neutral electrolyte |
1 |
|
pharmacokinetics |
1 |
|
phase instability |
1 |
|
photoacoustic |
1 |
|
photoacoustic imaging |
1 |
|
photoacoustic molecular imaging |
1 |
|
photocatalysis |
1 |
|
photocatalyst |
1 |
|
photocathode |
1 |
|
photoconductivity |
1 |
|
photodynamic therapy |
1 |
|
photoelectrocatalysis |
1 |
|
photoelectrochemical water splitting |
1 |
|
photoluminescence |
1 |
|
photon scattering |
1 |
|
photonic nanojet |
1 |
|
photophysics |
1 |
|
photosensitivity |
1 |
|
photostability |
1 |
|
photothermal |
1 |
|
photothermal/photodynamic/chemo combination therapy |
1 |
|
phthalocyanine copper |
1 |
|
pi interactions nano-biotechnology |
1 |
|
piezoelectric actuator |
1 |
|
piezoelectric sensing |
1 |
|
plasma |
1 |
|
plasma etching |
1 |
|
plasmonic |
1 |
|
plasmonic chips |
1 |
|
plasmonic gold |
1 |
|
plasmonic gold chips |
1 |
|
plasmonic gold pgold |
1 |
|
plasmonics |
1 |
|
plasmonics, imaging |
1 |
|
polarity selectivity |
1 |
|
poly(benzimidazobenzophenanthroline) |
1 |
|
poly(maleic anhydride- alt -1-octadecene) |
1 |
|
polyaniline |
1 |
|
polymer brushes |
1 |
|
polymer modification |
1 |
|
polymerization |
1 |
|
polynuclear |
1 |
|
polypyrrole film |
1 |
|
polypyrroles |
1 |
|
potassium-doped |
1 |
|
potassium-ion storage |
1 |
|
principal component analysis imaging |
1 |
|
printing |
1 |
|
protein microarray |
1 |
|
proteoliposome |
1 |
|
proton storage |
1 |
|
purcell effect |
1 |
|
quantum effects |
1 |
|
quantum yield |
1 |
|
quasi-ionic liquid electrolyte |
1 |
|
quasi-parallel |
1 |
|
radiation therapy |
1 |
|
raman scattering |
1 |
|
raman spectroscopy |
1 |
|
rare earth |
1 |
|
rate capability |
1 |
|
real-time |
1 |
|
rechargeable li-s battery |
1 |
|
regioselective modification |
1 |
|
renal-excretion |
1 |
|
resting protocol |
1 |
|
retinal prosthesis |
1 |
|
reversed vesicles |
1 |
|
reversibility |
1 |
|
rheological properties |
1 |
|
rheology |
1 |
|
rheumatoid arthritis-specific autoantibodies |
1 |
|
rheumatoid factor interference |
1 |
|
rna interference |
1 |
|
robotic fish |
1 |
|
rubella |
1 |
|
rutile |
1 |
|
saliva |
1 |
|
sbcl 3 |
1 |
|
sc5b-9 |
1 |
|
scanning platform |
1 |
|
scanning probe-lens microscopy |
1 |
|
scanning superlens microscopy |
1 |
|
schiff base reactions |
1 |
|
schiff bases |
1 |
|
sdg11: sustainable cities and communities |
1 |
|
sdg3: good health and well-being |
1 |
|
seawater splitting |
1 |
|
second near-infrared |
1 |
|
sedimentation |
1 |
|
selective dispersion |
1 |
|
selective ion transport |
1 |
|
self-sensing cantilever |
1 |
|
semi-rigid |
1 |
|
semiconducting nanoparticles |
1 |
|
semiconductors |
1 |
|
sensing |
1 |
|
sensor |
1 |
|
separation |
1 |
|
serial imaging |
1 |
|
seroconversion |
1 |
|
serum antibodies |
1 |
|
serum biomarkers |
1 |
|
side-chain effects |
1 |
|
signal-to-noise ratio |
1 |
|
silicon photocathode |
1 |
|
silver nanoparticles |
1 |
|
silver nanowires |
1 |
|
single carbon nanotube tip |
1 |
|
single crystal |
1 |
|
single crystals |
1 |
|
single laser triggering |
1 |
|
single wall carbon nanotube |
1 |
|
single-layer nanosheet |
1 |
|
single-walled |
1 |
|
single-walled carbon nanotubes |
1 |
|
singlet oxygen quantum yield |
1 |
|
sirna |
1 |
|
site activity |
1 |
|
site populations |
1 |
|
size distribution |
1 |
|
solar driven |
1 |
|
solid electrolyte interface |
1 |
|
solid electrolyte interphase |
1 |
|
solid shells |
1 |
|
solid-electrolyte interphase |
1 |
|
solid-state batteries |
1 |
|
solvent effects |
1 |
|
sp -sp carbon 2 3 |
1 |
|
sp-carbon |
1 |
|
specificity |
1 |
|
spin crossover |
1 |
|
spray-coating |
1 |
|
stability |
1 |
|
stimulus-responsive |
1 |
|
strong acid |
1 |
|
structural evolution |
1 |
|
structural phase transition |
1 |
|
structural tailoring |
1 |
|
structural topology |
1 |
|
sub-diffraction limited |
1 |
|
sub-nanomachining |
1 |
|
substoichiometric tio 2 |
1 |
|
sulfone-n,n′-dioxide |
1 |
|
sulfurized-polyacrylonitrile |
1 |
|
sum-frequency generation |
1 |
|
super-conductivity |
1 |
|
super-resolution imaging |
1 |
|
supercapacitor |
1 |
|
supramolecular architecture |
1 |
|
supramolecular framework |
1 |
|
surface activity |
1 |
|
surface charge |
1 |
|
surface chemistry |
1 |
|
surface functionalization |
1 |
|
surface modification |
1 |
|
surface plasmon scattering |
1 |
|
surface synthesis |
1 |
|
surface-enhanced raman scattering |
1 |
|
surfactant |
1 |
|
surfactants |
1 |
|
sustainable chemistry |
1 |
|
swnt |
1 |
|
synergetic effect |
1 |
|
synergy |
1 |
|
synthesis |
1 |
|
systemic lupus erythematosus |
1 |
|
t cells |
1 |
|
targeting |
1 |
|
tem |
1 |
|
template strategy |
1 |
|
terahertz spectroscopy |
1 |
|
tetradecycldimethylamine oxide |
1 |
|
theranostic nanoparticles |
1 |
|
thermal effects |
1 |
|
thermal interface material |
1 |
|
thermal interface resistance |
1 |
|
thermoelectrics |
1 |
|
thermore-flectance thermometry |
1 |
|
thermoreflectance thermometry |
1 |
|
thin film |
1 |
|
thin films |
1 |
|
thin-film patterning |
1 |
|
thiophene donor |
1 |
|
three-dimensional imaging |
1 |
|
tip-enhanced raman spectroscopy |
1 |
|
tissue penetration |
1 |
|
titanium dioxide |
1 |
|
titanium oxide |
1 |
|
toxicity |
1 |
|
toxicology |
1 |
|
toxoplasma gondii |
1 |
|
toxoplasmosis |
1 |
|
transient absorption spectroscopy |
1 |
|
transistors |
1 |
|
transition metal dichalcogenides |
1 |
|
transition-metal-free cathode |
1 |
|
transmission electron microscope (tem) |
1 |
|
transmission x-ray microscopy |
1 |
|
transparent conductive electrodes |
1 |
|
treatment |
1 |
|
tumor imaging |
1 |
|
tumor metastasis |
1 |
|
tumor targeting |
1 |
|
tunable crystallinity |
1 |
|
tungsten disulfide |
1 |
|
two-dimensional conjugated metal−organic framework |
1 |
|
two-dimensional materials |
1 |
|
two-dimensional metal–organic frameworks |
1 |
|
type 1 diabetes |
1 |
|
ultrafine nanoparticles |
1 |
|
ultrasonic-assisted machining |
1 |
|
ultrasound |
1 |
|
ultrathin nanosheets |
1 |
|
unusual interaction |
1 |
|
unzipping |
1 |
|
upconversion nanoparticles |
1 |
|
urea electrolyte |
1 |
|
vacancies |
1 |
|
vacancy defects |
1 |
|
van der waals heterostructure |
1 |
|
vertically aligned carbon nanotubes |
1 |
|
vertically-aligned carbon nanotubes |
1 |
|
vesicle |
1 |
|
vesicles |
1 |
|
vinylene-linked 2dp films |
1 |
|
viologen |
1 |
|
viscoelastic vesicle gel |
1 |
|
viscosity |
1 |
|
visible light communication |
1 |
|
volatile organic compounds |
1 |
|
wavy structure |
1 |
|
wetting behavior |
1 |
|
work function |
1 |
|
x-ray absorption spectroscopy |
1 |
|
zinc ion battery |
1 |
|
zintl ion |
1 |
|
zintl phases |
1 |
|
zn dendrites |
1 |
|
zn metal anodes |
1 |
|
zn-ion electrolyte |
1 |
