|
3d printing |
7 |
|
co2 conversion |
5 |
|
defects |
5 |
|
biocompatibility |
4 |
|
copper nanoparticles |
4 |
|
crosslinking |
4 |
|
efficiency |
4 |
|
growth of polyamide nanofilm |
4 |
|
high-resolution displays |
4 |
|
hybrid perovskite nanopixels |
4 |
|
light-driven microswimmer |
4 |
|
micromotors |
4 |
|
multilevel anticounterfeiting |
4 |
|
nanovoids |
4 |
|
perovskite solar cells |
4 |
|
polyamide rejection layer |
4 |
|
redox shuttles |
4 |
|
reverse osmosis |
4 |
|
selectivity |
4 |
|
silicon nanowire |
4 |
|
thin-film composite membrane |
4 |
|
water permeability |
4 |
|
acid mine drainage neutralization |
3 |
|
array devices |
3 |
|
chemical enhancement |
3 |
|
chemical potential energy harvesting |
3 |
|
cu2o nanoplates |
3 |
|
deposition |
3 |
|
dopant-free |
3 |
|
dye-sensitized solar cells (dssc) |
3 |
|
electrodeposition |
3 |
|
electromagnetic enhancement |
3 |
|
electroplating |
3 |
|
flexible bifacial dsscs |
3 |
|
freestanding nanoarchitectures |
3 |
|
hole transport materials |
3 |
|
ion selectivity |
3 |
|
low voltage |
3 |
|
magnetic microrobots |
3 |
|
mapbi 3 solar cells |
3 |
|
mobility |
3 |
|
molecular orientation |
3 |
|
monolayers |
3 |
|
morphology |
3 |
|
nucleation |
3 |
|
optical properties |
3 |
|
organic field‐effect transistors |
3 |
|
organic semiconductor crystals |
3 |
|
organic–inorganic metal halide perovskites |
3 |
|
percolation |
3 |
|
perovskite nanowires |
3 |
|
photocatalysis |
3 |
|
photocatalysts |
3 |
|
photoreduction |
3 |
|
platinum nanoparticles |
3 |
|
polyamide film |
3 |
|
propulsion |
3 |
|
proton conductance |
3 |
|
shape‐controlled synthesis |
3 |
|
solar energy |
3 |
|
surface‐enhanced raman scattering |
3 |
|
ultraflexible substrates |
3 |
|
workfunction |
3 |
|
2d |
2 |
|
2d-diffusion-ordered spectroscopy |
2 |
|
ag–cu |
2 |
|
annealing |
2 |
|
anodic electrodeposition |
2 |
|
artificial muscles |
2 |
|
bifacial dye-sensitized solar cells |
2 |
|
bioelectronics |
2 |
|
blocking layers |
2 |
|
chemical modification |
2 |
|
co2 reduction |
2 |
|
conductivity |
2 |
|
copper oxides |
2 |
|
corrosion |
2 |
|
counter electrode |
2 |
|
cu |
2 |
|
dft |
2 |
|
dipeptides |
2 |
|
diphenylalanine |
2 |
|
direct current |
2 |
|
double-network hydrogel |
2 |
|
dye-sensitized solar cells |
2 |
|
electricity |
2 |
|
electrocatalyst |
2 |
|
electrochemical actuators |
2 |
|
electroless |
2 |
|
embedded metal mesh |
2 |
|
energy level alignment |
2 |
|
enzymatic biosensor |
2 |
|
etching-free process |
2 |
|
fabrication |
2 |
|
field‐effect transistors |
2 |
|
flexible displays |
2 |
|
flow cell |
2 |
|
fully ambient-processed |
2 |
|
g-c3n4 nanosheet |
2 |
|
grain boundary-free |
2 |
|
grain growth |
2 |
|
graphene |
2 |
|
high-k dielectric |
2 |
|
hofmeister effect |
2 |
|
hybrid energy harvester |
2 |
|
imprint transfer |
2 |
|
impurity |
2 |
|
in situ interface engineering |
2 |
|
in-situ electro-deposition |
2 |
|
in-situ electrodeposition |
2 |
|
indoor-light |
2 |
|
ion transport |
2 |
|
ionic thermoelectric systems |
2 |
|
light-driven actuators |
2 |
|
low voltages |
2 |
|
low-grade heat harvesting |
2 |
|
mechanical energy |
2 |
|
mesoporous pbi2 scaffold |
2 |
|
metal nanoparticles |
2 |
|
metal-mesh transparent electrodes |
2 |
|
microbubbles |
2 |
|
microgels |
2 |
|
nanocomposites |
2 |
|
nanofluids |
2 |
|
nb2o5 nanoparticles |
2 |
|
nickel hydroxide/oxyhydroxides |
2 |
|
optical phase change materials |
2 |
|
organic crystals |
2 |
|
organic electrochemical transistor |
2 |
|
organic field-effect transistor |
2 |
|
organic transistors |
2 |
|
organometal halide perovskites |
2 |
|
oxygen reduction reaction |
2 |
|
pd–ag bimetals |
2 |
|
perovskites |
2 |
|
photodetectors |
2 |
|
photovoltaic effect |
2 |
|
piezoelectricity |
2 |
|
quantum size |
2 |
|
reduced tio2 |
2 |
|
secm |
2 |
|
self-assembly |
2 |
|
single crystal |
2 |
|
smart window |
2 |
|
soft robotics |
2 |
|
solar radiation |
2 |
|
solution shearing |
2 |
|
supercapacitor |
2 |
|
surface charge effect |
2 |
|
surface energy |
2 |
|
templated electrodeposition |
2 |
|
templates |
2 |
|
thermal management |
2 |
|
thermochromic smart windows |
2 |
|
thermopower |
2 |
|
tio2 nanocrystals |
2 |
|
transparent counter-electrodes |
2 |
|
transparent counterelectrodes |
2 |
|
transparent thin-film heaters |
2 |
|
triboelectric effect |
2 |
|
water radiolysis |
2 |
|
x-ray diffraction |
2 |
|
x-rays |
2 |
|
"thermal charging" |
1 |
|
(1 1 0) surface |
1 |
|
(o-sec.-butyldithiocarbonatio-s ,s') copper |
1 |
|
2d materials |
1 |
|
3d/0d quasi-core-shell |
1 |
|
ac voltammetry |
1 |
|
acidic catholyte |
1 |
|
action potential |
1 |
|
activation energy |
1 |
|
adhesion |
1 |
|
adhesives - chemistry |
1 |
|
adhesivity |
1 |
|
agricultural products |
1 |
|
air–knife |
1 |
|
al-mg-si alloy |
1 |
|
al/air cell |
1 |
|
alumina |
1 |
|
aluminum-air battery |
1 |
|
ambient condition |
1 |
|
ambient process |
1 |
|
amine functional groups |
1 |
|
ammonia |
1 |
|
anaerobic digestion |
1 |
|
anode materials |
1 |
|
anodic stripping voltammetry |
1 |
|
antisolvent |
1 |
|
applications in non-enzymatic glucose detection |
1 |
|
auger electron spectroscopy |
1 |
|
band-gap tuning |
1 |
|
bath-immersion |
1 |
|
best value |
1 |
|
biogas |
1 |
|
bismuth telluride based alloys |
1 |
|
boiling heat transfer |
1 |
|
bubble nucleation |
1 |
|
built environment |
1 |
|
built‐in electric fields |
1 |
|
bulk materials |
1 |
|
carbon dioxide |
1 |
|
cascade energy alignment |
1 |
|
cell regeneration |
1 |
|
ceramics |
1 |
|
cerotic acid |
1 |
|
challenges |
1 |
|
charge recombination |
1 |
|
chemical adsorption/desorption |
1 |
|
chemical finishing |
1 |
|
chemical mechanical planarization |
1 |
|
chemical mechanical planarization (cmp) |
1 |
|
chemical mechanical polishing |
1 |
|
chemical polishing |
1 |
|
chemistry |
1 |
|
chronoamperometry |
1 |
|
circulating hydrogen |
1 |
|
close-packed planes |
1 |
|
co2 photoreduction |
1 |
|
co4n nanoparticles |
1 |
|
cobalt mediator |
1 |
|
cobalt nanoparticles |
1 |
|
colloid |
1 |
|
commercialization |
1 |
|
compact layer |
1 |
|
composite |
1 |
|
composites |
1 |
|
concave |
1 |
|
conductive |
1 |
|
conductive glasses |
1 |
|
conversion efficiency |
1 |
|
copper |
1 |
|
copper nanomembranes |
1 |
|
copper oxidation |
1 |
|
copper plating |
1 |
|
copper void |
1 |
|
critical stress |
1 |
|
critical value |
1 |
|
crystal defects |
1 |
|
crystal growth |
1 |
|
crystal orientation |
1 |
|
crystal structure |
1 |
|
cspbbr3 quantum dots |
1 |
|
cu electrodepositions |
1 |
|
cu films |
1 |
|
cu2o |
1 |
|
current collector |
1 |
|
current density |
1 |
|
cyclic potentiometry |
1 |
|
defect |
1 |
|
defect generation |
1 |
|
design |
1 |
|
desorption |
1 |
|
detection method |
1 |
|
device optimization |
1 |
|
diffusion |
1 |
|
diffusion barrier |
1 |
|
dim lights |
1 |
|
dipole molecules |
1 |
|
direct current plating |
1 |
|
displacement reactions |
1 |
|
double-layered hole transporter |
1 |
|
driving forces |
1 |
|
dssc |
1 |
|
dsscs |
1 |
|
dual electrolyte |
1 |
|
dual layer structure |
1 |
|
dye sensitized solar cells |
1 |
|
dye-sensitized |
1 |
|
dye-sensitized cells |
1 |
|
dye-sensitized solar cell |
1 |
|
efficiency characteristic |
1 |
|
electric capacitance |
1 |
|
electric conductivity |
1 |
|
electric generators |
1 |
|
electric potential |
1 |
|
electric power |
1 |
|
electric power generation |
1 |
|
electric vehicles |
1 |
|
electrical double layer |
1 |
|
electrical power generation |
1 |
|
electro-oxidation |
1 |
|
electrocatalytic activity |
1 |
|
electrocatalytic behavior and sensors |
1 |
|
electrocatalytic reliability |
1 |
|
electrochemical detection of lead ion |
1 |
|
electrochemical fabrication |
1 |
|
electrochemical method to fabricate nanoporous ag flowers |
1 |
|
electrochemical society (ecs) |
1 |
|
electrochemical synthesis |
1 |
|
electrochemistry |
1 |
|
electrocrystallization |
1 |
|
electrodeionization |
1 |
|
electrodes |
1 |
|
electrolysis |
1 |
|
electrolyte |
1 |
|
electrolyte recirculation |
1 |
|
electromigration resistance |
1 |
|
electron carriers |
1 |
|
electron recombination |
1 |
|
electronic applications |
1 |
|
electroplated copper films |
1 |
|
electroplated cu films |
1 |
|
electroplated products |
1 |
|
electroplating - methods |
1 |
|
electrostatic induction |
1 |
|
electrostatic interaction |
1 |
|
energy harvesting |
1 |
|
energy minimization |
1 |
|
energy-efficient buildings |
1 |
|
energy-efficient glazing |
1 |
|
epitaxial growth |
1 |
|
equipment |
1 |
|
face-centered cubic structure |
1 |
|
fill factor |
1 |
|
film growth |
1 |
|
flat panel |
1 |
|
flexible and wearable applications |
1 |
|
flexible carbon fiber |
1 |
|
flexible copper clad laminate |
1 |
|
flexible counter electrode |
1 |
|
flexible devices |
1 |
|
flexible printed circuit boards |
1 |
|
flexible substrate |
1 |
|
fluid balance agent |
1 |
|
fluid dynamics |
1 |
|
flux concentration |
1 |
|
formamidinium |
1 |
|
fracture toughness |
1 |
|
fuel cells |
1 |
|
g-c3n4 |
1 |
|
galvanic corrosion |
1 |
|
grain boundaries |
1 |
|
grain boundary |
1 |
|
grain size |
1 |
|
grain size and shape |
1 |
|
graphene oxide |
1 |
|
graphite |
1 |
|
graphite - chemistry |
1 |
|
grid-type |
1 |
|
growth rate |
1 |
|
halide hybrid perovskites |
1 |
|
harvesting low-grade waste heat |
1 |
|
heat engines |
1 |
|
heat flux |
1 |
|
hierarchical anatase tio2 spheres |
1 |
|
hierarchical structure |
1 |
|
high current densities |
1 |
|
high index |
1 |
|
high sensitivity and selectivity |
1 |
|
high thermal |
1 |
|
high voltage |
1 |
|
high-index facet |
1 |
|
hybrid systems |
1 |
|
hydrogel |
1 |
|
hydrogen evolution reaction |
1 |
|
illumination effects |
1 |
|
impurities |
1 |
|
impurity content |
1 |
|
impurity effect |
1 |
|
in situ passivation |
1 |
|
infrared spectroscopy |
1 |
|
innovative design |
1 |
|
integrated circuits |
1 |
|
integrated electrode |
1 |
|
interconnected |
1 |
|
interconnected nanorods |
1 |
|
interfaces (materials) |
1 |
|
interfacial modification |
1 |
|
interfacial toughness |
1 |
|
intermetallic compound |
1 |
|
internet |
1 |
|
ionic conductive organohydrogel |
1 |
|
ionic conductivity |
1 |
|
ionic liquid electrolyte |
1 |
|
ions |
1 |
|
issue 156 |
1 |
|
ito-pen |
1 |
|
la2o2cn2matrix |
1 |
|
large scale |
1 |
|
large-area |
1 |
|
laser scribing |
1 |
|
laser surface processing |
1 |
|
lead free |
1 |
|
light stability |
1 |
|
lithium ion batteries |
1 |
|
localized corrosion mechanism |
1 |
|
low detection limit |
1 |
|
low-grade heat |
1 |
|
low-intensity illumination |
1 |
|
marangoni convection |
1 |
|
mass spectrometry |
1 |
|
materials |
1 |
|
materials testing |
1 |
|
mechanical polishing |
1 |
|
metal nanofabrication |
1 |
|
metal nanoparticles - chemistry |
1 |
|
metal-air electrochemical cell |
1 |
|
metallic films |
1 |
|
metal–metal bonding |
1 |
|
microfluidic channels |
1 |
|
microfluidic fuel cell |
1 |
|
microstructure |
1 |
|
microstructures |
1 |
|
microwave-exfoliated graphene |
1 |
|
mixed antisolvent engineering |
1 |
|
mixed-ion perovskite |
1 |
|
modelling |
1 |
|
module |
1 |
|
molecular orbitals |
1 |
|
molecular spectroscopy |
1 |
|
n-doped graphene |
1 |
|
nano-structured |
1 |
|
nanocrystalline cu |
1 |
|
nanoparticles |
1 |
|
nanosphere lithography |
1 |
|
nanostructures |
1 |
|
nanostructures - chemistry - ultrastructure |
1 |
|
nanotechnology |
1 |
|
ni |
1 |
|
nickel |
1 |
|
nickel hydroxide |
1 |
|
nickel oxyhydroxide |
1 |
|
niobium doping |
1 |
|
niooh/ni(oh)2 pair |
1 |
|
nitrides |
1 |
|
nitrogen doped |
1 |
|
nitrogen-doped carbon nanotubes |
1 |
|
nitrogen-doped graphene foams |
1 |
|
non-solvent induced phase separation |
1 |
|
nuclear magnetic resonance spectroscopy |
1 |
|
nucleation sites |
1 |
|
oil/water emulsion |
1 |
|
operating temperature |
1 |
|
optical (pet) (opet) |
1 |
|
optical concentrators |
1 |
|
optical correlation |
1 |
|
optimization |
1 |
|
organic anolyte |
1 |
|
organohydrogels |
1 |
|
oxides - chemistry |
1 |
|
oxygen |
1 |
|
particle size |
1 |
|
pd |
1 |
|
pdton |
1 |
|
peak efficiency |
1 |
|
perovskite |
1 |
|
perovskite photocatalyst |
1 |
|
perovskite solar cell |
1 |
|
ph-sensitive thermally regenerative cell |
1 |
|
photoacoustic effect |
1 |
|
photoanode |
1 |
|
photoelectrochemical |
1 |
|
photoelectron spectroscopy |
1 |
|
photosynthesis |
1 |
|
photovoltaic |
1 |
|
photovoltaic cells |
1 |
|
photovoltaic effects |
1 |
|
photovoltaics |
1 |
|
plastic substrate |
1 |
|
plating |
1 |
|
plating current density |
1 |
|
platinum |
1 |
|
platinum - chemistry |
1 |
|
polarization |
1 |
|
polishing |
1 |
|
poly vinyl pyrrolidone |
1 |
|
polyaniline |
1 |
|
polymer scaffold |
1 |
|
porphyrin-sensitized solar cells |
1 |
|
potentiodynamic polarization |
1 |
|
power conversion |
1 |
|
power conversion efficiencies |
1 |
|
power out put |
1 |
|
power quality |
1 |
|
processing window |
1 |
|
proper model to study the growth mechanism |
1 |
|
pulse current (pc) |
1 |
|
pulse frequency |
1 |
|
quantum dot |
1 |
|
quantum-dot tio2 |
1 |
|
raman spectroscopy |
1 |
|
rapid solidification |
1 |
|
rate constants |
1 |
|
rayleigh-bénard-marangoni convection |
1 |
|
recrystallization |
1 |
|
removal rate |
1 |
|
reverse currents |
1 |
|
saliva biomarkers and wireless smartphone tracking |
1 |
|
scalable blade-coating technology |
1 |
|
scanning electrochemical microscopy |
1 |
|
scanning electron microscopy |
1 |
|
sculptured thin film |
1 |
|
secondary ion mass spectrometers |
1 |
|
secondary ion mass spectrometry |
1 |
|
selective and real-time analysis |
1 |
|
selective plating |
1 |
|
self-annealing |
1 |
|
self-attaching |
1 |
|
self-corrosion |
1 |
|
sensors |
1 |
|
sequential deposition |
1 |
|
shape-controlled |
1 |
|
shape-controlled nanocrystals |
1 |
|
shariker-hills |
1 |
|
silicon |
1 |
|
silver nanoflower |
1 |
|
simulation |
1 |
|
single cobalt atoms |
1 |
|
skutterudite materials |
1 |
|
skutterudites |
1 |
|
smart windows |
1 |
|
sno |
1 |
|
soft bioelectronics |
1 |
|
solar absorbers |
1 |
|
solar applications |
1 |
|
solar cell |
1 |
|
solar equipment |
1 |
|
solar fuels |
1 |
|
solar heating |
1 |
|
solar modulation |
1 |
|
solar power generation |
1 |
|
solar thermal |
1 |
|
solar thermal electricity |
1 |
|
solar thermal power generation |
1 |
|
solid oxide fuel cell |
1 |
|
solvent replacement |
1 |
|
specific capacitance |
1 |
|
stability |
1 |
|
steel analysis |
1 |
|
strength-ductility trade-off |
1 |
|
stress difference |
1 |
|
substrates |
1 |
|
sulfur |
1 |
|
sulfur contents |
1 |
|
superfilling |
1 |
|
superhydrophilic |
1 |
|
superhydrophobic |
1 |
|
suppression of leidenforst phenomenon |
1 |
|
surface functional group |
1 |
|
surface modification |
1 |
|
surface passivation |
1 |
|
surface plasmon resonance |
1 |
|
surface properties |
1 |
|
surface redox reaction |
1 |
|
surface wettability |
1 |
|
suspension |
1 |
|
suspensions - chemistry |
1 |
|
tantalum compounds |
1 |
|
temperature |
1 |
|
temperature differences |
1 |
|
temperature effect |
1 |
|
template synthesis |
1 |
|
texture |
1 |
|
thermal |
1 |
|
thermal aging |
1 |
|
thermal annealing |
1 |
|
thermal concentration |
1 |
|
thermal conductivity |
1 |
|
thermal heat |
1 |
|
thermo-pseudocapacitive effect |
1 |
|
thermocells |
1 |
|
thermochromism |
1 |
|
thermoelectric |
1 |
|
thermoelectric devices |
1 |
|
thermoelectric energy conversion |
1 |
|
thermoelectric equipment |
1 |
|
thermoelectric generators |
1 |
|
thermoelectric material |
1 |
|
thermoelectricity |
1 |
|
thermoelectrics |
1 |
|
thermoelectrochemical cell |
1 |
|
thermogalvanic cell |
1 |
|
tin |
1 |
|
tin perovskite |
1 |
|
tin sulfide |
1 |
|
titanium dioxide nanoparticles |
1 |
|
transition metal diselenide |
1 |
|
transparency |
1 |
|
transparent wood |
1 |
|
triboelectric nanogenerator |
1 |
|
tunable surface wettability |
1 |
|
ulsi |
1 |
|
ultrahigh strength |
1 |
|
vanadium dioxide |
1 |
|
vanadium nitride nanodots |
1 |
|
void defect reduction |
1 |
|
water vapor treatment |
1 |
|
water-soluble |
1 |
|
wave forms |
1 |
|
wearable electrochemical sensors |
1 |
|
wettable |
1 |
|
x ray diffraction |
1 |
|
x ray photoelectron spectroscopy |
1 |
|
x ray photoelectron spectroscopy (xps) |
1 |
