412 |
Terahertz Biochemical MoleculeSpecific Sensors |
Advanced Optical Materials |
Y |
202002 |
|
411 |
Emerging advanced metasurfaces: Alternatives to conventional bulk optical devices |
MICROELECTRONIC ENGINEERING |
Y |
202002 |
|
410 |
Metasurfaces-based imaging and applications: from miniaturized optical components to functional imaging platforms |
Nanoscale Advances |
Y |
202002 |
|
409 |
Multiple Resonance Metamaterial Emitter for Deception of Infrared Emission with Enhanced Energy Dissipation |
ACS APPLIED MATERIALS & INTERFACES |
Y |
202002 |
|
408 |
Recent Advances in Non-Traditional Elastic Wave Manipulation by Macroscopic Artificial Structures |
Applied Sciences-Basel |
Y |
202001 |
|
407 |
Engineering spin and antiferromagnetic resonances to realize an efficient direction-multiplexed visible meta-hologram |
NANOSCALE HORIZONS |
Y |
202001 |
|
406 |
Engineering Spin and Antiferromagnetic Resonances to Realize Efficient Direction-multiplexed Visible Meta-hologram |
Nanoscale Horizons |
Y |
202001 |
|
405 |
Cysteine-encoded chirality evolution in plasmonic rhombic dodecahedral gold nanoparticles |
Nature Communications |
Y |
202001 |
|
404 |
Biomimetic ultra-broadband perfect absorbers optimised with reinforcement learning |
PHYSICAL CHEMISTRY CHEMICAL PHYSICS |
Y |
202001 |
|
403 |
Design of high transmission color filters for solar cells directed by deep Q-learning |
SOLAR ENERGY |
Y |
202001 |
|
402 |
Strongly Localized ohmic Absorption of Terahertz Radiation in Nanoslot Antennas |
NANO LETTERS |
Y |
201912 |
|
401 |
Seismic phononic crystals by elastodynamic Navier equation |
PHYSICAL REVIEW E |
Y |
201912 |
|
400 |
Turning cotton into tough energy textile via metal oxide assisted carbonization |
CARBON |
Y |
201911 |
|
399 |
Twisted non-diffracting beams through all dielectric meta-axicon |
Nanoscale |
Y |
201911 |
|
398 |
High capacitance activated bio-carbons with controlled pore size distribution for sustainable energy storage |
JOURNAL OF POWER SOURCES |
Y |
201910 |
|
397 |
Observation of enhanced optical spin Hall effect in a vertical hyperbolic metamaterial |
ACS Photonics |
Y |
201910 |
|
396 |
Realization of broadband negative refraction in visible range using vertically stacked hyperbolic metamaterials |
SCIENTIFIC REPORTS |
Y |
201910 |
|
395 |
Observation of enhanced optical spin Hall effect in a vertical hyperbolic metamaterial |
ACS Photonics |
Y |
201910 |
|
394 |
High capacitance activated bio-carbons with controlled pore size distribution for sustainable energy storage |
JOURNAL OF POWER SOURCES |
Y |
201910 |
|
393 |
Realization of broadband negative refraction in visible range using vertically stacked hyperbolic metamaterials |
SCIENTIFIC REPORTS |
Y |
201910 |
|