about
Miniature fiber optic pressure sensor with composite polymer-metal diaphragm for intradiscal pressure measurementsPure angular momentum generator using a ring resonator.Enhanced Photocatalytic Activity of WS2 Film by Laser Drilling to Produce Porous WS2/WO3 HeterostructureOptofluidic refractometer using resonant optical tunneling effect.UV-curable liquid-core fiber lenses with controllable focal length.Microfluidic reactors for visible-light photocatalytic water purification assisted with thermolysis.Optofluidic UV-Vis spectrophotometer for online monitoring of photocatalytic reactions.Rough gold films as broadband absorbers for plasmonic enhancement of TiO2 photocurrent over 400-800 nmTheoretical Analysis of an Optical Accelerometer Based on Resonant Optical Tunneling Effect.Plasmonic photocatalysis.Microfluidic reactors for photocatalytic water purification.Biomimetic microchannels of planar reactors for optimized photocatalytic efficiency of water purification.Optofluidic tunable lenses using laser-induced thermal gradient.Review on optofluidic microreactors for artificial photosynthesis.Microfluidic photoelectrocatalytic reactors for water purification with an integrated visible-light source.Tunable self-imaging effect using hybrid optofluidic waveguides.An integrated microfluidic chip with 40 MHz lead-free transducer for fluid analysis.Dielectrophoresis-actuated in-plane optofluidic lens with tunability of focal length from negative to positive.Microfluidic flow direction control using continuous-wave laserEditorial for the Special Issue on Advances in OptofluidicsElectrochemical Surface Plasmon Resonance Fiber-Optic Sensor: In Situ Detection of Electroactive BiofilmsMicrofluidic chip-based one-step fabrication of an artificial photosystem I for photocatalytic cofactor regenerationExperimental study on microfluidic nanoparticle immobilization using a biomimetic methodHierarchic random nanosphere model for broadband solar energy absorbersControllable parabolic lensed liquid-core optical fiber by using electrostatic forceMicrofluidics for Photochemical Harvesting of Solar EnergySynthesis of reduced graphene oxide/α-Bi2Mo3O12 @ β-Bi2O3 heterojunctions by organic electrolytes assisted UV-excited methodTime-variant 1D photonic crystals using flowing microdropletsA comparative study of preparation methods of nanoporous TiO2 films for microfluidic photocatalysisHigh-frequency ultrasonic transducer based on lead-free BSZT piezoceramicsMiniature surface-mountable Fabry–Perot pressure sensor constructed with a 45° angled fiberAberration-free aspherical in-plane tunable liquid lenses by regulating local curvaturesElectrically controlled polarization rotator using nematic liquid crystalMicrofluidic Reactors for Plasmonic Photocatalysis Using Gold NanoparticlesDielectrophoresis-actuated liquid lenses with dual air/liquid interfaces tuned from biconcave to biconvexContinuous artificial synthesis of glucose precursor using enzyme-immobilized microfluidic reactors
P50
Q30491145-F331829F-9440-4F71-8FDA-9F0846EA0205Q33716564-AD006CF1-9BF3-4701-B88E-C34077453E9DQ33784429-77F83BAF-425F-4099-8450-59C9EA49D54EQ34516402-331D0F59-1059-4F82-9E54-B042B0E077B3Q34617553-DD7D607D-DF93-45B7-98FB-10FEC198377BQ34912962-CE839C33-11A1-4DD7-86B7-1438F9C0D417Q37050068-F15A6506-2AF5-4905-94A3-DFEDB76F13C2Q37243438-74047868-A16F-4985-BD40-0CACB6207534Q37679364-EB700F28-767E-4AF7-8817-94823E9EDF3FQ38086032-425FF065-0505-4567-9A78-21F85DB0462EQ38183644-61AFF8A6-8838-413F-A313-D4444771D335Q38654833-788AFB45-7FA5-440B-8318-732755243498Q40302242-E45F46FB-B696-4887-B5FC-41A5E49BD8E7Q47696650-276D1178-83C1-4A00-9CBE-D98F12343723Q50242071-F52D05B8-E89D-4627-BA33-81BAF595BA18Q51479839-A0144B81-9B7E-4451-8D27-9F2E39BDF6D4Q51550539-5185D81A-9205-43DD-BC5F-1906CD54BFC1Q53833131-D8172B3F-8320-45FD-B915-4AA55DBBD3FFQ57826828-7E2052D0-FF04-44DF-B961-DF10E2581109Q57979774-F3392C84-4507-4A81-9549-20568DE7C130Q57979797-B5A5A6AE-F9FE-43DC-A803-E2721E5F69B5Q57979800-79223505-7ECA-4735-A0DF-2677BE6BE78AQ57979822-B59D6CFA-0301-4EA4-B650-05D45C80ADFEQ57979825-62BE2D61-BBC3-40D3-B8D9-01D169CC5640Q57979853-C8F6DE9E-BAE7-41F2-B817-F3A254FED1D4Q57979864-4AA00282-85F0-4437-A92B-942E418AA88FQ57979869-D48476C9-32F6-4724-8A0B-3B2F95107AB1Q57979901-7DF6D98E-AE61-4750-A4F0-10322E159A79Q57979904-5F5D4958-E3F9-46CE-9924-51EA5C8A8C5BQ57979907-6EEF6A60-63FF-4457-9DD4-90261A9700DFQ57979931-C7FE8E33-3881-4986-9662-B38092105A65Q89561306-EB5B200C-1730-4611-9FA2-47CBC82F7BBEQ91077811-D21DA695-5FC2-4C22-9D57-DD533792A955Q91964890-FEAF08FA-BB85-4DB2-B296-C664574659E3Q93020292-4BFB0508-19B8-4D59-8DE2-8A8625A19446Q93162112-7FE18F6E-C1E9-4BD6-BD7B-433870A8D336
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
研究者
@zh
name
Xuming Zhang
@ast
Xuming Zhang
@en
Xuming Zhang
@es
Xuming Zhang
@nl
type
label
Xuming Zhang
@ast
Xuming Zhang
@en
Xuming Zhang
@es
Xuming Zhang
@nl
altLabel
X.M. Zhang
@en
prefLabel
Xuming Zhang
@ast
Xuming Zhang
@en
Xuming Zhang
@es
Xuming Zhang
@nl
P1053
K-4900-2013
P106
P1153
7410267571
P31
P3829
P496
0000-0002-9326-5547