Curriculum Vitae
Zong-Hong Lin（林宗宏）
Date of Birth: May 26, 1981
Gender: Male
Contact Information
Institute of Biomedical Engineering
National Tsing Hua University
Phone: +886 (3) 5715131 Ext 35502
E-mail: linzh@mx.nthu.edu.tw
Google Scholar Citation:
http://scholar.google.com/citations?hl=en&user=o1eMYD4AAAAJ
Sum of the Times Cited: 2462
h-index: 28
Research Area:
 Design of Smart Nanogenerators with High Outputs
 Development of Self-powered Nanosensors and Nanosystems
 Detection of Biomolecules through Surface-Enhanced Raman Scattering
Spectroscopy
 Fabrication of Porous Metal Nanomaterials for Electrochemical Applications
 Design of Functional Nanomaterials with Strong Antibacterial Activities
Education and Experience:
1999/09~ B.S. in Physical Chemistry
2003/06
Department of Chemistry, National Chung Cheng University, Taiwan
Advisor: Professor Churng-Ren Chris Wang
Thesis: Preparation of Selenium Sulfide Nanoparticles for
Anti-Dandruff Application
2003/09~
2005/06
M.S. in Physical Chemistry
Department of Chemistry and Biochemistry, National Chung Cheng
University, Taiwan
Advisor: Professor Churng-Ren Chris Wang
Thesis: On the Synthesis and Biochemical Properties of Selenium
Nanomaterials
2005/09~
2009/06
Ph.D. in Analytical Chemistry
Department of Chemistry, National Taiwan University, Taiwan
Advisor: Professor Huan-Tsung Chang (張煥宗)
Thesis: Synthesis and Applications of Tellurium Nanowires
2009/10~
2010/09
Second Lieutenant in Army
2010/10~
2012/03
Postdoctoral Researcher
Department of Chemistry, National Taiwan University, Taiwan
Advisor: Professor Huan-Tsung Chang
Topic: Development of Novel Metal Nanomaterials for Biosensor
Applications
2012/04~
2014/07
Postdoctoral Researcher
School of Materials Science & Engineering, Georgia Institute of
Technology, USA
Advisor: Professor Zhong Lin Wang
Topic: Development of Self-powered Nanosensors and Nanosystems
2014/08~
Assistant Professor
Institute of Biomedical Engineering, National Tsing Hua University
Publications:
(1) Lin, Z.-H.; Wang, Chris C.-R. “Evidence on the Size-Dependent Absorption
Spectral Evolution of Selenium Nanoparticles” Mater. Chem. Phys. 2005, 92,
591-594.
(2) Lin, Z.-H.; Lin, F.-C.; Wang, Chris C.-R. “Observation in the Growth of
Selenium Nanoparticles” J. Chin. Chem. Soc. 2005, 51, 239-242.
(3) Chen, Y.-H.; Chang, H.-P.; Lin, Z.-H.; Wang, Chris C.-R. “Size Effect of
Colloidal Selenium Particles on the Inhibition of LPS-Induced Nitric Oxide
Production” J. Chin. Chem. Soc. 2005, 52, 389-393.
(4) Yang, Z.; Lin, Z.-H.; Tang, C.-Y.; Chang, H.-T. “Preparation and
Characterization of Flower-Like Gold Nanomaterials and Iron Oxide/Gold
Composite Nanomaterials” Nanotechnology 2007, 18, 255606 1-7.
(5) Lee, K.-H.; Chiang, C.-K.; Lin, Z.-H.; Chang, H.-T. “Determining Enediol
Compounds in Tea Using Surface-Assisted Laser Desorption/Ionization Mass
Spectrometry With Titanium Dioxide Nanoparticle Matrixes” Rapid Commun.
Mass Spectrom. 2007, 21, 2023-2030.
(6) Lin, Z.-H.; Yang, Z.; Chang, H.-T. “Preparation of Fluorescent Tellurium
Nanowires at Room Temperature” Cryst. Growth Des. 2008, 8, 351-357.
(7) Lin, Z.-H.; Chang, H.-T. “Preparation of Gold-Tellurium Hybrid Nanomaterials
for Surface-Enhanced Raman Spectroscopy” Langmuir 2008, 24, 365-367.
(8) Lin, Z.-H.; Lin, Y.-W.; Lee, K.-H.; Chang, H.-T. “Selective Growth of Gold
Nanoparticles onto Tellurium Nanowires via a Green Chemical Route” J. Mater.
Chem. 2008, 18, 2569-2572.
(9) Huang, C.-C.; Chiang, C.-K.; Lin, Z.-H.; Lee, K.-H.; Chang, H.-T.
“Bioconjugated Gold Nanodots and Nanoparticles for Protein Assays Based on
Photoluminescence Quenching” Anal. Chem. 2008, 80, 1497-1504.
(10) Liu, C.-W.; Hsieh, Y.-Y.; Huang, C.-C; Lin, Z.-H.; Chang, H.-T. “Detection of
Mercury(II) Based on Hg2+–DNA Complexes Inducing the Aggregation of Gold
Nanoparticles” Chem. Commun. 2008, 2242-2244.
(11) Chen, S.-J.; Huang, Y.-F.; Huang, C.-C.; Lee, K.-H.; Lin, Z.-H.; Chang, H.-T.
“Colorimetric Determination of Urinary Adenosine Using Aptamer-Modified
Gold Nanoparticles” Biosens. Bioelectron. 2008 23, 1749-1753.
(12) Lin, Z.-H.; Lin, M.-H.; Chang, H.-T. “Facile Synthesis of Catalytically Active
Platinum Nanosponges, Nanonetworks, and Nanodendrites” Chem. Eur. J. 2009,
15, 4656-4662.
(13) Huang, C.-C.; Liao, H.-Y.; Shiang, Y.-C.; Lin, Z.-H.; Yang, Z.; Chang, H.-T.
“Synthesis of Wavelength-Tunable Luminescent Gold and Gold/Silver
Nanodots” J. Mater. Chem. 2009, 19, 755-759.
(14) Huang, C.-C.; Chen, C.-T.; Shiang, Y.-C.; Lin, Z.-H.; Chang, H.-T. “Synthesis of
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Fluorescent Carbohydrate-Protected Au Nanodots for Detection of Concanavalin
A and Escherichia coli” Anal. Chem. 2009, 81, 875-882.
Huang, Y.-F.; Lin, Y.-W.; Lin, Z.-H.; Chang, H.-T. “Aptamer-Modified Gold
Nanoparticles for Targeting Breast Cancer Cells through Light Scattering” J.
Nanopart. Res. 2009, 11, 775-783.
Lan, G.-Y.; Yang, Z.; Lin, Y.-W.; Lin, Z.-H.; Liao, H.-Y.; Chang, H.-T. “A
Simple Strategy for Improving the Energy Conversion of Multilayered CdTe
Quantum Dot-Sensitized Solar Cells” J. Mater. Chem. 2009, 19, 2349-2355.
Chiang, N.-C.; Chiang, C.-K.; Lin, Z.-H.; Chiu, T.-C.; Chang, H.-T. “Detection
of Aminothiols through Surface-assisted Laser Desorption/Ionization Mass
Spectrometry Using Mixed Gold Nanoparticles” Rapid Commun. Mass Spectrom.
2009, 23, 3063-3068.
Lan, G.-Y.; Lin, Y.-W.; Lin, Z.-H.; Chang, H.-T. “Synthesis and Characterization
of ZnxHg1–xSeyS1–y Quantum Dots” J. Nanopart. Res. 2010, 12, 1377-1388.
Chiang, C.-K.; Chiang, N.-C.; Lin, Z.-H.; Lan, G.-Y.; Lin, Y.-W.; Chang, H.-T.
“Nanomaterials-Based Surface-Assisted Laser Desorption/Ionization Mass
Spectrometry of Peptides to Proteins” J. Am. Soc. Mass Spectrom. 2010, 21,
1204-1207.
Lin, Z.-H.; Shih, Z.-Y.; Tsai, H.-Y.; Chang, H.-T. “Gold/Platinum Nanosponges
for Electrocatalytic Oxidation of Methanol” Green Chem. 2011, 13, 1029-1035.
Shih, Z.-Y.; Yang, Z.; Lin, Z.-H.; Chang, H.-T. “Direct Methanol Fuel Cells
Using Se/Ru Core/Shell Cathodes Provide High Catalytic Activity and Stability”
Int. J. Hydrogen Energy 2011, 36, 7307-7309.
Lin, Z.-H.; Chen, I.-C.; Chang, H.-T. “Detection of Human Serum Albumin
through Surface-Enhanced Raman Scattering Using Gold “Pearl Necklace”
Nanomaterials as Substrates” Chem. Comm. 2011, 47, 7116-7118.
Lin, Z.-H.; Lee, C.-H.; Chang, H.-Y.; Chang, H.-T. “Antibacterial Activities of
Tellurium Nanomaterials” Chem. Asian J. 2012, 7, 930-934 (VIP).
Tsai, H.-Y.; Lin, Z.-H.; Chang, H.-T. “Tellurium-Nanowire-Coated Glassy
Carbon Electrodes for Selective and Sensitive Detection of Dopamine” Biosens.
Bioelectron. 2012, 35, 479-483.
Roy, P.; Lin, Z.-H.; Liang, C.-T.; Chang, H.-T. “Synthesis of Enzyme Mimics of
Iron Telluride Nanorods for the Detection of Glucose” Chem. Commun. 2012, 48,
4079-4081.
Lin, Z.-H.; Shih, Z.-Y.; Roy, P.; Chang, H.-T. “Preparation of Photocatalytic
Au–Ag2Te Nanocatalysts” Chem. Eur. J. 2012, 18, 12330-12336.
Roy, P.; Lin, Z.-H.; Liang, C.-T.; Chang, H.-T. “Iron Telluride Nanorods-Based
System for the Detection of Total Mercury in Blood” J Hazard. Mater. 2012, 243,
286-291.
Lin, Z.-H.; Yang, Y.; Wu, J. M.; Liu, Y.; Zhang, F.; Wang, Z. L. “BaTiO3
Nanotubes Based Flexible and Transparent Nanogenerators” J. Phys. Chem. Lett.
2012, 3, 3599-3604.
Yang, Y.; Lin, Z.-H.; Hou, T.-C.; Zhang, F.; Chen, L.-J.; Wang, Z. L.
“Nanowire-Composite Based Flexible Thermoelectric Nanogenerators and
Self-Powered Temperature Sensors” Nano Res. 2012, 5, 888-895 (Equal
Contributions).
Yang, Y.; Zhang, H.; Zhu, G.; Lee, S.; Lin, Z.-H.; Wang, Z. L. “Flexible Hybrid
Energy Cell for Simultaneously Harvesting Thermal, Mechanical, and Solar
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Energies” ACS Nano 2013, 7, 785-790.
Zhu, G.; Lin, Z.-H.; Jing, Q.; Bai, P.; Pan, C.; Yang, Y.; Zhou, Y. S.; Wang, Z.
L. “Toward Large-Scale Energy Harvesting by Nanoparticle-Enhanced
Triboelectric Nanogenerator” Nano Lett. 2013, 13, 847-853 (Equal
Contributions).
Yang, Y.; Zhang, H.; Liu, Y.; Lin, Z.-H.; Lee, S.; Lin, Z.; Wong, C. P.; Wang, Z.
L. “Silicon Based Hybrid Energy Cell for Self-Powered Electrodegradation and
Personal Electronics” ACS Nano 2013, 7, 2808–2813.
Hou, T.-C.; Yang, Y.; Lin, Z.-H.; Ding, Y.; Park, C.; Pradel, K. C.; Chen, L.-J.
Wang, Z. L. “Nanogenerator Based on Zinc Blende CdTe Micro/Nanowires”
Nano Energy 2013, 2, 387–393.
Lin, Z.-H.; Roy, P.; Shih, Z.-Y.; Chang, H.-T. “Synthesis of Anatase Se/Te-TiO2
Nanorods with Dominant {100} Facets: Photocatalytic and Antibacterial Activity
Induced by Visible Light” ChemPlusChem 2013, 78, 302-309.
Bai, P.; Zhu, G.; Lin, Z.-H.; Jing, Q.; Chen, J.; Zhang, G.; Ma, J.; Wang, Z. L.
“Integrated Multilayered Triboelectric Nanogenerator for Harvesting
Biomechanical Energy from Human Motions” ACS Nano 2013, 7, 3713-3719.
Lin, Z.-H.; Zhu, G.; Zhou, Y. S.; Yang, Y.; Bai, P.; Chen, J.; Wang, Z. L. “A
Self-Powered Triboelectric Nanosensor for Mercury Ion Detection” Angew.
Chem. Int. Ed. 2013, 52, 5065-5069.
Tsai, H.-Y.; Shih, Z.-Y.; Lin, Z.-H.; Chang, H.-T. “Te/Pt Nanonetworks Modified
Carbon Fiber Microelectrodes for Methanol Oxidation” 2013, Nanotechnology,
24, 195402.
Zhou, Y. S.; Liu, Y.; Zhu, G.; Lin, Z.-H.; Pan, C.; Jing, Q.; Wang, Z. L. “In-situ
Quantitative Study of Nanoscale Triboelectrification and Patterning” Nano Lett.
2013, 13, 2771-2776.
Lin, Z.-H.; Xie, Y.; Yang, Y.; Wang, S.; Zhu, G.; Wang, Z. L. “Enhanced
Triboelectric Nanogenerators and Triboelectric Nanosensor using Chemically
Modified TiO2 Nanomaterials” ACS Nano 2013, 7, 4554-4560.
Yang, Y.; Zhang, H.; Lin, Z.-H.; Liu, Y.; Chen, J.; Lin, Z.; Zhou, Y.; Wong, C. P.;
Wang, Z. L. “Hybrid Energy Cell for Self-Powered Water Splitting” Energy
Environ. Sci. 2013, 6, 2429-2434.
Xie, Y.; Wang, S.; Lin, L.; Jing, Q.; Lin, Z.-H.; Niu, S.; Wu, Z.; Wang, Z. L.
“Rotary Triboelectric Nanogenerator Based on a Hybridized Mechanism for
Harvesting Wind Energy” ACS Nano 2013, 7, 7119-7125.
Shih, Z.-Y.; Lin, Z.-H.; Chang, H.-T. “Se/Ru–Au Nanocomposites Provide
Enhanced-Electroactivity in Direct Methanol Fuel Cells” Sci. Adv. Mater. 2013, 5,
1-8.
Cheng, G.; Lin, Z.-H.; Lin, L.; Du, Z; Wang, Z. L. “Pulsed Nanogenerator
with Huge Instantaneous Output Power Density” ACS Nano 2013, 7, 7383-7391
(Equal Contributions).
Yang, Y.; Zhang, H.; Lin, Z.-H.; Zhou, Y. S.; Jing, Q.; Su, Y.; Yang, J.; Chen, J.;
Hu, C.; Wang, Z. L. “Human Skin Based Triboelectric Nanogenerators for
Harvesting Biomechanical Energy and as Self-Powered Active Tactile Sensor
System” ACS Nano 2013, 7, 9213-922.
Lin, Z.-H.; Cheng, G.; Lin, L.; Lee, S.; Wang, Z. L. “Water-Solid Surface
Contact Electrification and its Use for Harvesting Liquid Wavy Energy” Angew.
Chem. Int. Ed. 2013, 125, 12777-12781 (VIP).
(46) Wang, C.-W.; Lin, Z.-H.; Roy, P.; Chang, H.-T. “Detection of Mercury Ions
Using Silver Telluride Nanoparticles as a Substrate and Recognition Element
through Surfaced-Enhanced Raman Scattering” Frontiers in Analytical
Chemistry 2013, 1, 20.
(47) Yang, Y.; Zhu, G.; Zhang, H.; Chen, J.; Zhong, W.; Lin, Z.-H.; Su, Y.; Bai, P.;
Wen, X.; Wang, Z. L. “Triboelectric Nanogenerator for Harvesting Wind Energy
and as Self-Powered Wind Vector Sensor System” ACS Nano 2013, 7,
9461-9468.
(48) Lee, S.; Lee, Y.; Kim, D.; Yang, Y.; Lin, L.; Lin, Z.-H.; Hwang, W.; Wang, Z. L.
“Triboelectric Nanogenerator for Harvesting Pendulum Oscillation Energy”
Nano Energy 2013, 2, 1113-1120.
(49) Wang, S.; Lin, Z.-H.; Niu, S.; Lin, L.; Xie, Y.; Wang, Z. L. “Motion Charged
Battery as Sustainable Flexible-Power-Unit” ACS Nano 2013, 7, 11263-11271.
(50) Lee, S.; Hinchet, R.; Lee, Y.; Yang, Y.; Lin, Z.-H.; Ardila, G.; Montès, L.; Mouis,
M.; Wang, Z. L. “Ultrathin Nanogenerators as Self-Powered/Active Skin Sensors
for Tracking Eye Ball Motion” Adv. Funct. Mater. 2014, 24, 1163-1168.
(51) Lin, Z.-H.; Cheng, G.; Yang, Y.; Zhou, Y. S.; Lee, S.; Wang, Z. L. “Triboelectric
Nanogenerator as an Active UV Photodetector” Adv. Funct. Mater. 2014, 24,
2810-2816.
(52) Cheng, G.; Lin, Z.-H.; Du, Z; Wang, Z. L. “Increase Output Energy and
Operation Frequency of a Triboelectric Nanogenerator by Two Grounded
Electrodes Approach” (Equal Contributions) Adv. Funct. Mater. 2014, 24,
2892-2898.
(53) Zhou, Y. S.; Wang, S.; Yang, Y.; Zhu, G.; Niu, S.; Lin, Z.-H.; Liu, Y.; Wang, Z. L.
“Manipulating Nanoscale Contact Electrification by an Applied Electric Field”
Nano Lett. 2014, 14, 1567-1572.
(54) Cheng, G.; Lin, Z.-H.; Du, Z; Wang, Z. L. “Simultaneously Harvesting
Electrostatic and Mechanical Energies from Flowing Water by a Hybridized
Triboelectric Nanogenerator” (Equal Contributions) ACS Nano 2014, 8,
1932-1939.
(55) Lin, Z.-H.; Cheng, G.; Lee, S.; Wang, Z. L. “Harvesting Water Drop Energy by a
Sequential Contact Electrification and Electrostatic Induction Process” Adv.
Mater. 2014, 26, 4690-4698.
(56) Lin, Z.-H.; Cheng, G.; Wu, W.; Pradel, K. C.; Wang, Z. L. “Dual-Mode
Triboelectric Nanogenerator for Harvesting Water Energy and as a Self-Powered
Ethanol Nanosensor” ACS Nano 2014, 8, 6440-6448.
(57) Wang, C.-H.; Liao, W.-S.; Lin, Z.-H.; Ku, N.-J.; Li, Y.-C.; Chen, Y.-C.; Wang, Z.
L.; Liu, C.-P. “Optimization of the Output Efficiency of GaN Nanowire
Piezoelectric Nanogenerators by Tuning the Free Carrier Concentration” Adv.
Energy Mater. 2014, 26, 4690-4698.
(58) Kim, D. Y.; Lee, S.; Lin, Z.-H.; Choi, K. H.; Doo, S. G.; Chang, H.; Leem, J.-Y.;
Wang, Z. L.; Kim, S.-O. “High Temperature Processed ZnO Nanorods Using
Flexible and Transparent Mica Substrates for Dye-Sensitized Solar Cells and
Piezoelectric Nanogenerators” Nano Energy, 2014, 9, 101-111.
(59) Li, X.; Lin, Z.-H.; Cheng, G.; Wen, X.; Liu, Y.; Niu, S.; Wang, Z. L. (Equal
Contributions) “3D Fiber-Based Hybrid Nanogenerator for Energy Harvesting
and as a Self-Powered Pressure Sensor” ACS Nano, 2014, 8, 10674-10681.
(60) Zheng, L.; Lin, Z.-H.; Cheng, G.; Wu, W.; Wen, X.; Lee, S.; Wang, Z. L.
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(Equal Contributions) “Silicon-Based Hybrid Cell for Harvesting Solar
Energy and Raindrop Electrostatic Energy” Nano Energy, 2014, 9, 291-300.
Li, Y.; Cheng, G.; Lin, Z.-H.; Yang, J.; Lin, L.; Wang, Z. L. (Equal
Contributions)
“Single-Electrode-Based
Rotationary
Triboelectric
Nanogenerator and its Applications as Self-Powered Contact Area and Eccentric
Angle Sensorsr” Nano Energy, 2015, 11, 323-332.
Yang, P.; Lin, Z.-H.; Pradel, K. C.; Lin, L.; Li, X.; Wen, X.; He, J.-H.; Wang,
Z. L. (Equal Contributions) “Paper-Based Origami Triboelectric
Nanogenerators and Self-Powered Pressure Sensors” ACS Nano, 2015, 9,
901-907.
Cheng, G.; Zheng, L.; Lin, Z.-H.; Yang, J.; Du, Z; Wang, Z. L.
“Multilayered-Electrode-Based Triboelectric Nanogenerators with Managed
Output Voltage and Multifold Enhanced Charge Transport” Adv. Energy Mater.
2015, 5, 1401452.
Lin, Z.-H.; Cheng, G.; Li, X.; Yang, P.; Wen, X; Wang, Z. L. “A Multi-Layered
Interdigitative-Electrodes-Based Triboelectric Nanogenerator for Harvesting
Hydropower” Nano Energy 2015, 15, 256-265.
B. Saravanakumar, K. Thiyagarajan, N. R. Alluri, S. SoYoon, K. Taehyun, Z.-H.
Lin, S.-J. Kim “Fabrication of an Eco-Friendly Composite Nanogenerator for
Self-Powered Photosensor Applications” Carbon 2015, 84, 56-65.
X. Li, M. H. Yeh, Z.-H. Lin, H Guo, PK Yang, J Wang, S Wang, R Yu, T
Zhang, Z. L. Wang (Equal Contributions) “Self-Powered Triboelectric
Nanosensor for Microfluidics and Cavity-Confined Solution Chemistry” ACS
Nano 2015, ASAP (DOI: 10.1021/acsnano.5b04486).
Patent:
專利名稱
國別
一种摩擦电纳米传感器
CN
一种基于摩擦纳米发电
机的分子传感器
硫化硒纳米粒子添加剂
的制作方法及其应用
脉冲发电机和发电机组
静电脉冲发电机
和直流脉冲发电机
CN
CN
CN
CN
專利號碼
CN104076084
A
發明人
林宗宏, 王中林
專利權人
国家纳米
科学中心
CN103364460
王中林, 林宗宏,
国家纳米
A
朱光
科学中心
CN1788734 B
吴业煌, 林宗宏,
王崇人
国立中正大学
CN 103368458
王中林, 朱光,
国家纳米
A
林宗宏
科学中心
CN103368452
王中林, 白鹏,
国家纳米
A
朱光, 林宗宏
科学中心
專利核
准日
期
2014/10/1
2013/10/23
2010/5/5
2013/10/23
2013/10/23
一种基于滑动摩擦的脉
冲发电机和发电方法
一种振动开关式摩擦发
电机和摩擦发电方法
自驱动光电传感器
及其制备方法
一种风力摩擦纳米发电
机
一种脉冲摩擦发电机
和摩擦发电方法
CN
CN
CN
CN
CN
CN103780133
程纲, 林宗宏,
国家纳米
A
王中林
科学中心
CN103780137
程纲, 林宗宏,
国家纳米
A
王中林
科学中心
CN103780134
林宗宏, 程纲,
国家纳米
A
王中林
科学中心
CN103780128
王中林, 朱光,
国家纳米
A
林宗宏
科学中心
CN103780132
王中林, 程纲,
国家纳米
A
林宗宏
科学中心
Powering Portable
US
US20140084748
A1
Electronics
Impulse generator
and generator set
Wind friction
nanogenerator
WO
WO
Sihong Wang,
Georgia Tech
Long Lin, Guang
Research
Zhu, Zong-Hong
Corporation
WO2014082561
A1
WO2014169724
A1
Guang Zhu,
For Nanoscience
Zong-Hong Lin
And Technology
Guang Zhu,
Zong-Hong Lin
WO
Gang
A1
Cheng, Zhong Lin
Wang
procédé de détection
WO
WO2014154017 Zong-Hong Lin,
A1
Générateur d'impulsions à
frottement par glissement
et procédé de génération
d'énergie
2014/5/7
2014/3/27
WO
WO2015010419
A1
2014/6/5
Zhong Lin Wang, National Center
WO2015035788
génération, capteur et
triboélectrique
2014/5/7
Zhong Lin Wang, National Center
Zong-Hong Lin,
triboélectrique à base de
Nanocapteur
2014/5/7
Lin
Générateur
liquide, procédé de
2014/5/7
Zhong Lin Wang,
Triboelectric
Nanogenerator for
2014/5/7
Zhong Lin Wang
Gang Cheng,
Zong-Hong Lin,
For Nanoscience 2014/10/23
And Technology
National Center
For Nanoscience 2015/3/19
And Technology
National Center
For Nanoscience 2014/10/2
And Technology
National Center
For Nanoscience 2015/1/29
Zhong Lin Wang And Technology