|
acoustic metamaterials |
8 |
|
metamaterials |
6 |
|
lithography |
5 |
|
optical metamaterials |
5 |
|
polymer |
5 |
|
sound absorption |
5 |
|
3d printing |
4 |
|
additive manufacturing |
4 |
|
electrochemistry |
4 |
|
nanomanufacturing |
4 |
|
quantum metamaterials |
4 |
|
chemical enhancement |
3 |
|
cu2o nanoplates |
3 |
|
electromagnetic enhancement |
3 |
|
fdtd simulation |
3 |
|
kinetics |
3 |
|
metastable states |
3 |
|
molecular switches |
3 |
|
multiphoton |
3 |
|
nanoimprint lithography |
3 |
|
nanolithography |
3 |
|
near field |
3 |
|
negative index |
3 |
|
plasmonics |
3 |
|
plasmons |
3 |
|
projection micro-stereolithography |
3 |
|
self-assembled monolayers |
3 |
|
shape‐controlled synthesis |
3 |
|
surface plasmon |
3 |
|
surfaces |
3 |
|
surface‐enhanced raman scattering |
3 |
|
2d-diffusion-ordered spectroscopy |
2 |
|
3d microfabrication |
2 |
|
4d printing |
2 |
|
acoustic environment |
2 |
|
aircraft |
2 |
|
aluminum |
2 |
|
apertures |
2 |
|
bianisotropy |
2 |
|
bioreactor |
2 |
|
black curve |
2 |
|
chiral |
2 |
|
dielectric materials |
2 |
|
diffusion |
2 |
|
dipole–dipole interaction |
2 |
|
double-network hydrogel |
2 |
|
dynamic mask |
2 |
|
electrical permittivity |
2 |
|
electrochemical nanoimprint |
2 |
|
ellipsometry |
2 |
|
evanescent waves |
2 |
|
explosives |
2 |
|
field enhancement |
2 |
|
fluorescence |
2 |
|
focusing |
2 |
|
frequency |
2 |
|
gain |
2 |
|
halide perovskite |
2 |
|
hybrid top-down and bottom-up process |
2 |
|
image resolution |
2 |
|
imaging |
2 |
|
ion transport |
2 |
|
ionic thermoelectric systems |
2 |
|
left handed |
2 |
|
lenses |
2 |
|
localized surface plasmon resonance |
2 |
|
low-grade heat harvesting |
2 |
|
m13 bacteriophage |
2 |
|
manufacturing |
2 |
|
mechanical metamaterial |
2 |
|
mems |
2 |
|
meta material |
2 |
|
micro stereolithography |
2 |
|
micro-stereolithography |
2 |
|
microgels |
2 |
|
microlattice |
2 |
|
microstereolithography(μsl) |
2 |
|
molecular aggregate |
2 |
|
nanomechanics |
2 |
|
nanophotonics |
2 |
|
nanoscale |
2 |
|
negative permeability |
2 |
|
negative refractive index |
2 |
|
nonradiative decay |
2 |
|
optical device fabrication |
2 |
|
optical filters |
2 |
|
optical imaging |
2 |
|
optical phase change materials |
2 |
|
optical propagation |
2 |
|
optical refraction |
2 |
|
optical surface waves |
2 |
|
optimal absorption |
2 |
|
origami |
2 |
|
permeability |
2 |
|
permittivity |
2 |
|
phononic crystals |
2 |
|
photo polymerization |
2 |
|
photodetectors |
2 |
|
photopolymerization |
2 |
|
plasma frequency |
2 |
|
plasma properties |
2 |
|
plasmonic imaging lithography |
2 |
|
pulsed laser photopolymerization (plp) |
2 |
|
remote sensing |
2 |
|
resists |
2 |
|
reverberation time |
2 |
|
sers |
2 |
|
single-crystalline thin films |
2 |
|
slabs |
2 |
|
smart window |
2 |
|
solar radiation |
2 |
|
spectrum customization |
2 |
|
structural materials |
2 |
|
submillimeter wave filters |
2 |
|
superlens |
2 |
|
surface tension |
2 |
|
surface treatment |
2 |
|
surface waves |
2 |
|
system engineering |
2 |
|
terahertz |
2 |
|
thermopower |
2 |
|
three-dimensional microfabrication |
2 |
|
thz |
2 |
|
topological acoustics |
2 |
|
tunability |
2 |
|
ultra-molding and imprinting |
2 |
|
2d materials |
1 |
|
3d printing technology |
1 |
|
3d stacked structures |
1 |
|
68.49.jk |
1 |
|
73.20.mf |
1 |
|
73.22.-f |
1 |
|
78.67.bf |
1 |
|
absorber |
1 |
|
absorbers |
1 |
|
absorption |
1 |
|
acoustic |
1 |
|
acoustic metamaterial |
1 |
|
acoustic switches |
1 |
|
acoustic transparency |
1 |
|
acoustics |
1 |
|
additive manufacturing (am) |
1 |
|
adhesive hydrogel |
1 |
|
ag-ge |
1 |
|
aggregation |
1 |
|
analytical optimization |
1 |
|
anisotropic |
1 |
|
anisotropy |
1 |
|
anodic aluminum oxide filter |
1 |
|
antireflecting coating |
1 |
|
architected materials |
1 |
|
atom diffusion |
1 |
|
band gaps |
1 |
|
beam formation |
1 |
|
bio-inspired design |
1 |
|
bio-template |
1 |
|
biocompatibility |
1 |
|
biocompatible structures |
1 |
|
bioelectrochemistry |
1 |
|
bioengineering |
1 |
|
bioinspired |
1 |
|
bioinspired reentrant structures |
1 |
|
biomedical |
1 |
|
biosonar |
1 |
|
biotemplate |
1 |
|
broadband anti-reflection |
1 |
|
brownian motion |
1 |
|
carbon nanomaterials |
1 |
|
catalytic |
1 |
|
cathodoluminescence |
1 |
|
cellular materials |
1 |
|
complimentary media |
1 |
|
continuum generation |
1 |
|
dark modes |
1 |
|
dark-field microscopy |
1 |
|
data-driven modelling |
1 |
|
defect inspection |
1 |
|
deformation |
1 |
|
designed periodicity |
1 |
|
devices |
1 |
|
diffraction limit |
1 |
|
digital light processing |
1 |
|
digital light processing (dlp) |
1 |
|
digital light processing (dlp) technology |
1 |
|
dipole radia tion |
1 |
|
direct ink writing |
1 |
|
directional emission |
1 |
|
directional particle aggregation |
1 |
|
double negative |
1 |
|
dti-4: validate |
1 |
|
dye-sensitized solar cells |
1 |
|
dynamic focal spot control |
1 |
|
e-beam lithography |
1 |
|
effective stiffness |
1 |
|
eigenmodes |
1 |
|
elastic waves |
1 |
|
electrochemically imprinted nanostructure |
1 |
|
electrolyte patterning |
1 |
|
electrolytes |
1 |
|
electromagnetic |
1 |
|
electron beam |
1 |
|
electron beam lithography |
1 |
|
electron transport |
1 |
|
energy absorption |
1 |
|
energy conversion |
1 |
|
energy storage |
1 |
|
engineering |
1 |
|
exponential materials |
1 |
|
extinction |
1 |
|
extinction cross section |
1 |
|
extraordinary optical transmission |
1 |
|
fast thermal response |
1 |
|
finite deformations |
1 |
|
flexibility |
1 |
|
flexible electronics |
1 |
|
flexible hydrogel |
1 |
|
flexible pressure sensor |
1 |
|
fluid-equivalent model |
1 |
|
fomite transmission |
1 |
|
functional materials |
1 |
|
functional surface |
1 |
|
fundamental limits |
1 |
|
generalized eigenmodes |
1 |
|
gigahertz |
1 |
|
graphene |
1 |
|
gyroid meta-structure |
1 |
|
hbn |
1 |
|
helmholtz resonators |
1 |
|
hepatocytes |
1 |
|
high aspect-ratio |
1 |
|
high surface area |
1 |
|
hollow microlattice |
1 |
|
hot carrier |
1 |
|
hydrogel |
1 |
|
hydrogels |
1 |
|
hydrogenation |
1 |
|
hydrovoltaic energy |
1 |
|
hyperbolic in-plane anisotropy |
1 |
|
hyperbolic metamaterials |
1 |
|
illumination fields |
1 |
|
impedance matching |
1 |
|
imprint |
1 |
|
infrared imaging |
1 |
|
insulin resistance |
1 |
|
integrated soft actuators and sensors |
1 |
|
interpenetrating network |
1 |
|
inverse design |
1 |
|
invisibility cloaking |
1 |
|
ionic thermoelectric |
1 |
|
issue 139 |
1 |
|
jellyfish |
1 |
|
layer-by-layer assembly |
1 |
|
layered materials |
1 |
|
light harvesting |
1 |
|
light harvesting enhancement |
1 |
|
light scattering |
1 |
|
light-emitting |
1 |
|
linear response |
1 |
|
liquid crystal |
1 |
|
liquid-repellent surfaces |
1 |
|
localized plasmon |
1 |
|
locally resonant waveguiding |
1 |
|
low-grade heat |
1 |
|
luminescence |
1 |
|
machine learning |
1 |
|
magnetic polariton |
1 |
|
magnetoactive materials |
1 |
|
matter-loadable microcavity surfaces |
1 |
|
mechanical-functional integration |
1 |
|
mesoscale |
1 |
|
metal 3d printing |
1 |
|
metal additive manufacturing |
1 |
|
metal-assisted-chemical-etching (macetch) |
1 |
|
metallic nanostructures |
1 |
|
metamaterial |
1 |
|
metasurface |
1 |
|
metasurfaces |
1 |
|
micro-/nano-fabrication |
1 |
|
micro-perforated panel (mpp) |
1 |
|
microarchitectured materials |
1 |
|
microlattice structures |
1 |
|
microreactor |
1 |
|
microstructural architectures |
1 |
|
microstructure |
1 |
|
microstructured surfaces |
1 |
|
mid-infrared |
1 |
|
mid-ir polarizer |
1 |
|
minimal surfaces |
1 |
|
modeling |
1 |
|
molecular dynamics simulations |
1 |
|
molecular electronics |
1 |
|
multi-functional structure |
1 |
|
multi-layer system |
1 |
|
multi-material 3d printing |
1 |
|
multi-material additive manufacturing |
1 |
|
multi-scale multi-physics model/simulation |
1 |
|
multifunctional reentrant surfaces |
1 |
|
multimaterial 3d printing |
1 |
|
multiple-core-shell nanoparticles |
1 |
|
multiple-mode actuations |
1 |
|
multipolar resonance |
1 |
|
multiscale 3d printing |
1 |
|
multiscale structure |
1 |
|
multistep roll-to-roll printing |
1 |
|
mössbauer spectroscopy |
1 |
|
nanoantenna |
1 |
|
nanocomposites |
1 |
|
nanofabrication |
1 |
|
nanofibers |
1 |
|
nanoimprint |
1 |
|
nanoparticles |
1 |
|
nanoporous absorbers |
1 |
|
nanoporous network |
1 |
|
nanoscale deformation |
1 |
|
nanoscale thermal transport |
1 |
|
nanostructure |
1 |
|
nanostructured lüneburg lens |
1 |
|
natural hyperbolic materials |
1 |
|
naturally derived hydrogel |
1 |
|
near-field scanning optical microscope |
1 |
|
near-perfect absorption |
1 |
|
near-zero-index |
1 |
|
negative modulus |
1 |
|
nematic liquid crystal |
1 |
|
non-stochastic foams |
1 |
|
nonfluorinated surfaces |
1 |
|
noninvasive |
1 |
|
nonlinear optics |
1 |
|
nonlocal description |
1 |
|
optical angular momentum |
1 |
|
optical antenna |
1 |
|
optical endoscope |
1 |
|
optical force |
1 |
|
optical manipulation |
1 |
|
optical microscopy |
1 |
|
optical nanoantennas |
1 |
|
optical torque |
1 |
|
optical trapping |
1 |
|
optical trapping phase diagrams |
1 |
|
optical waveguide |
1 |
|
optomechanics |
1 |
|
oxygen |
1 |
|
oxygen reduction reaction |
1 |
|
palladium film |
1 |
|
panchromatic dye-sensitized solar cells |
1 |
|
particle sorting |
1 |
|
patterned wafer |
1 |
|
perforation |
1 |
|
perfusion |
1 |
|
phonons |
1 |
|
photopolymer formulation |
1 |
|
photosynthesis |
1 |
|
plasmonic nanostructures |
1 |
|
plasmonic structures |
1 |
|
pneumatic artificial muscles |
1 |
|
polydopamine |
1 |
|
polymer photochemistry |
1 |
|
porous materials |
1 |
|
porpoise's physical model |
1 |
|
power generation |
1 |
|
printing resolution |
1 |
|
process capabilities |
1 |
|
process–structure–property–performance relations |
1 |
|
projection microstereolithography |
1 |
|
proximity effect |
1 |
|
pt-symmetry synthetic acoustics |
1 |
|
pulsed laser deposition |
1 |
|
raman scatting |
1 |
|
real data |
1 |
|
regular wrinkling |
1 |
|
replication method |
1 |
|
resonances |
1 |
|
respiratory droplets |
1 |
|
s4 |
1 |
|
self-healing |
1 |
|
self-organization |
1 |
|
self-remodeling |
1 |
|
self-strengthening |
1 |
|
shape deformation |
1 |
|
shear stress |
1 |
|
sheet resistance |
1 |
|
sidewall roughness |
1 |
|
silicon nanowire |
1 |
|
silver |
1 |
|
slow light |
1 |
|
soft composites |
1 |
|
soft holographic meta-structure |
1 |
|
soft materials |
1 |
|
soft matters |
1 |
|
soft robotics |
1 |
|
soft robots |
1 |
|
solar absorbers |
1 |
|
solar spectrum |
1 |
|
solid oxide fuel cells |
1 |
|
solid state ionics |
1 |
|
solid-state electrochemical imprint |
1 |
|
solid-state electrochemical stamping |
1 |
|
solid-state ionics |
1 |
|
solid-state superionic stamping |
1 |
|
sonar reconstruction |
1 |
|
spatial dispersion |
1 |
|
spectroscopy |
1 |
|
stereolithography |
1 |
|
strain engineering |
1 |
|
stress mitigation |
1 |
|
structured light |
1 |
|
subwavelength apertures |
1 |
|
subwavelength structures metamaterials |
1 |
|
superior liquid repellency |
1 |
|
superresolution |
1 |
|
surface acoustic waves |
1 |
|
surface deformation metrology |
1 |
|
surface enhanced raman spectroscopy |
1 |
|
surface plasmons |
1 |
|
surface roughness |
1 |
|
surface-enhanced raman spectroscopy |
1 |
|
thermal camouflage |
1 |
|
thermal conductivity |
1 |
|
thermal expansion |
1 |
|
thermal interface conductance |
1 |
|
thermal properties |
1 |
|
thin film |
1 |
|
thin film electrodes |
1 |
|
three-dimensional (3d) printing |
1 |
|
three-dimensional network |
1 |
|
time domain |
1 |
|
transport |
1 |
|
transport, modeling |
1 |
|
tunable acoustics |
1 |
|
tunable localized surface plasmon |
1 |
|
ultrabroadband |
1 |
|
ultrafast angular spectrum imaging |
1 |
|
ultralight ceramic microlattices |
1 |
|
ultrasonics |
1 |
|
ultrathin films |
1 |
|
underwater acoustic metamaterials |
1 |
|
underwater metamaterials |
1 |
|
underwater target detection |
1 |
|
valley polaritons |
1 |
|
van der waals crystals |
1 |
|
vascular |
1 |
|
virus particles |
1 |
|
viscothermal fluid |
1 |
|
visualizing hydrogenation |
1 |
|
wetting-induced |
1 |
|
wrinkling |
1 |
