%D8%AA%D8%B4%D9%88%D9%86%D8%BA_%D9%84%D9%8A%D9%86_%D9%88%D8%A7%D9%86%D8%BA%D8%AA%D8%B4%D9%88%D9%86%D8%AC_%D9%84%D9%8A%D9%86_%D9%88%D8%A7%D9%86%D8%ACZhong_Lin_WangZhong_Lin_Wang%D5%8E%D5%A1%D5%B6_%D5%89%D5%AA%D5%B8%D6%82%D5%B6%D5%AC%D5%AB%D5%B6%EC%99%95%EC%A4%91%EB%A6%B0Zhong_Lin_Wang%D0%92%D0%B0%D0%BD_%D0%A7%D0%B6%D1%83%D0%BD%D0%BB%D0%B8%D0%BD%D1%8CQ197808%E7%8E%8B%E4%B8%AD%E6%9E%97
about
A universal self-charging system driven by random biomechanical energy for sustainable operation of mobile electronics.Nanoporous-Gold-Based Hybrid Cantilevered Actuator Dealloyed and Driven by A Modified Rotary Triboelectric Nanogenerator.Effective energy storage from a triboelectric nanogeneratorRationally designed graphene-nanotube 3D architectures with a seamless nodal junction for efficient energy conversion and storageEfficient Charging of Li-Ion Batteries with Pulsed Output Current of Triboelectric NanogeneratorsNanogenerator-based dual-functional and self-powered thin patch loudspeaker or microphone for flexible electronics.Self-powered thin-film motion vector sensorDirect probing of contact electrification by using optical second harmonic generation techniqueSphingosine kinase activity is not required for tumor cell viabilityHigh output piezo/triboelectric hybrid generator.Interface-Free Area-Scalable Self-Powered Electroluminescent System Driven by Triboelectric Generator.Flutter Phenomenon in Flow Driven Energy Harvester-A Unified Theoretical Model for "Stiff" and "Flexible" Materials.A general approach to binary and ternary hybrid nanocrystals.Piezoelectric nanogenerators based on zinc oxide nanowire arrays.Piezoelectric and semiconducting coupled power generating process of a single ZnO belt/wire. A technology for harvesting electricity from the environment.PLD-assisted VLS growth of aligned ferrite nanorods, nanowires, and nanobelts-synthesis, and properties.High-quality alloyed CdSxSe1-x whiskers as waveguides with tunable stimulated emission.Single-crystalline branched zinc phosphide nanostructures: synthesis, properties, and optoelectronic devices.Electrostatic potential in a bent piezoelectric nanowire. The fundamental theory of nanogenerator and nanopiezotronics.Piezoelectric potential output from ZnO nanowire functionalized with p-type oligomer.A new catalytically active colloidal platinum nanocatalyst: the multiarmed nanostar single crystal.Multi-quantum-well nanowire heterostructures for wavelength-controlled lasers.Piezoelectric-potential-controlled polarity-reversible Schottky diodes and switches of ZnO wires.Piezoelectric nanogenerator using p-type ZnO nanowire arrays.Morphology-tuned wurtzite-type ZnS nanobelts.Room-temperature, texture-controlled growth of ZnO thin films and their application for growing aligned ZnO nanowire arrays.Low-threshold two-photon pumped ZnO nanowire lasers.Statistical approach to quantifying the elastic deformation of nanomaterials.GaN nanowire arrays for high-output nanogenerators.Friction and shear strength at the nanowire-substrate interfaces.Wafer-scale high-throughput ordered growth of vertically aligned ZnO nanowire arrays.Piezoelectric-nanowire-enabled power source for driving wireless microelectronics.Fabrication of patterned polymer nanowire arrays.Self-powered system with wireless data transmission.Polar charges induced electric hysteresis of ZnO nano/microwire for fast data storage.Recent Progress on Piezoelectric and Triboelectric Energy Harvesters in Biomedical SystemsSynthesis of Ba-doped CeO(2) nanowires and their application as humidity sensors.Ultrathin In2O3 nanowires with diameters below 4 nm: synthesis, reversible wettability switching behavior, and transparent thin-film transistor applications.Anisotropic outputs of a nanogenerator from oblique-aligned ZnO nanowire arrays.Single-crystal CdSe nanosaws.
P50
Q27317047-E5E18D45-B187-4047-BD38-47460BEB79EDQ27323150-DABB2D63-8B69-488A-8760-77F1CE575AC8Q27324139-3AA7314E-0FB1-4BC5-9D81-4E1B357C1B01Q27342846-D9EBEE9B-29FC-4AC3-BDCD-9BADE0EA3AF7Q28597845-240C3439-F9E5-4351-835C-EE30148C4191Q30354914-45B00F92-D188-4693-8DA6-C54FAFDD19ABQ30403012-00560C4D-A80E-43EB-A389-64565C0E7EF0Q30403464-52B34BB0-ED7B-4F76-839E-7B77A4136F6AQ30452205-9A0CCBBA-DF00-4EA7-955F-C9CA7F26A50FQ30630256-39E3E181-ABF0-43D6-8D2A-2443DD46C740Q30663693-62AFF83A-76F8-43C6-945E-8FFE721CCA11Q30822558-04957AC8-80F3-497C-8590-DD576800BB66Q33239610-B579F351-0E18-4311-8887-297FBF9EFFCBQ33239893-5CC6925D-B44C-45C4-9EE4-46EA1ABBA18DQ33253231-E9167FAB-1B93-4EF8-A081-7540FB149985Q33261516-682E98F1-A392-47D3-9D41-CDD9CFCEFC1EQ33263007-4D685CC1-C6C2-46FA-878A-69222D06B3C5Q33273581-04E91CA2-6463-4499-9CFA-C91A0DD3A043Q33291441-B978A387-5891-49EB-BB10-6B5FECD23D8CQ33310736-40A188D8-D4ED-4119-A868-5B2A50E6124DQ33324149-706F8B2E-938F-4461-9AF5-FF4AB3AEFE8CQ33361146-8BCB6171-D7FF-4B1B-8C3A-43EDB31F0FC6Q33372547-F10301BB-6D5F-43BE-8472-449646BF84A2Q33408249-47761AA5-3B88-4F76-A159-1D85A3975F57Q33434289-7070909D-E31A-44E2-A2C9-866D08FAA338Q33439488-54C9130E-D489-4FD0-9364-598BBE78380FQ33443766-78D2B2E4-58C1-4574-A8D5-B27FCC34F671Q33474717-29049FF4-CF8E-4391-8F6B-CFE606945498Q33539379-579DB985-E813-42E9-B5AD-72C00DCAEC38Q33645493-1948CBFC-F973-4465-B668-21B4290AB36DQ33648387-26C99985-0D9A-4225-8144-F984017A0195Q33730160-412F3F05-8877-4C78-AA44-C876A173BB91Q33782685-7B7CC626-5F95-4EBE-94D6-2DD082730D31Q33908979-056EF059-5C2A-4D2A-88D5-486C75516D60Q33910308-670A1C82-DA79-4F9E-BE8A-D801E17673D6Q33914543-CCCFD73D-0137-4727-92BE-B23358865144Q33951557-F205E244-9D35-4D45-8BC0-9B59916C05E3Q33958614-700384C5-4D3B-46BE-B724-5E872C14DEBBQ33966407-0C8C224D-E2B1-468E-9A5F-DAE4624BF15EQ33975238-5F3F1D18-A282-421B-9BB2-414F3E5670A9
P50
description
Amerikaans natuurkundige
@nl
Physiker im Bereich der Nanotechnologie
@de
físicu estauxunidense
@ast
hulumtues
@sq
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Zhong Lin Wang
@ast
Zhong Lin Wang
@ca
Zhong Lin Wang
@cy
Zhong Lin Wang
@de
Zhong Lin Wang
@en
Zhong Lin Wang
@es
Zhong Lin Wang
@fr
Zhong Lin Wang
@nl
Zhong Lin Wang
@pt
Zhong Lin Wang
@pt-br
type
label
Zhong Lin Wang
@ast
Zhong Lin Wang
@ca
Zhong Lin Wang
@cy
Zhong Lin Wang
@de
Zhong Lin Wang
@en
Zhong Lin Wang
@es
Zhong Lin Wang
@fr
Zhong Lin Wang
@nl
Zhong Lin Wang
@pt
Zhong Lin Wang
@pt-br
prefLabel
Zhong Lin Wang
@ast
Zhong Lin Wang
@ca
Zhong Lin Wang
@cy
Zhong Lin Wang
@de
Zhong Lin Wang
@en
Zhong Lin Wang
@es
Zhong Lin Wang
@fr
Zhong Lin Wang
@nl
Zhong Lin Wang
@pt
Zhong Lin Wang
@pt-br
P1006
P227
P244
P268
P269
P1006
P101
P1053
E-2176-2011