Meeting Schedule for NGPT 2014:
06/09 | Presenter | Presentation title | ||
Opening remarks | ||||
8:15 AM | 8:30 AM | Prof. Zhong Lin Wang | ||
Session I: Piezoelectric Nanogenerators | Chair: Hong Liu | |||
8:30 AM | 9:00 AM | Prof. Keon Jae Lee | Self-Powered Flexible Electronic Systems | |
9:00 AM | 9:30 AM | Prof. Henry Sodano | Ferroelectric Nanowire Arrays for Energy Harvesting | |
9:30 AM | 9:45 AM | Prof. Dukhyun Choi | Output Power Efficiency of Piezoelectric Nanogenerator according to External Mechanical Deformations | |
9:45 AM | 10:00 AM | Prof. Jyh Ming Wu | Self-Powered Pendulum and Micro-force Active Sensors Based on ZnS Nanogenerator | |
10:00 AM | 10:20 AM | Coffee Break | ||
Session II: Triboelectric nanogenerators I | Chair: Dukhyun Choi | |||
10:20 AM | 10:50 AM | Prof. Sang-Woo Kim | Flexible Piezoelectric and Triboelectric Nanogenerators for Powering Portable Electronics | |
10:50 AM | 11:20 AM | Prof. Rusen Yang | Study of the enviromental influence on triboelectric effect | |
11:20 AM | 11:35 AM | Prof. Hong Liu | Toward all-weather high performance photocatalysis: integrated photocatalysis device based on solar energy and wind-driven triboelectric nanogenerator | |
11:35 AM | 11:50 AM | Dr. Wei Zeng | Low-cost triboelectric generator based on flexible conducting fabric electrodes | |
11:50 AM | 12:05 PM | Dr. Zong-Hong Lin | Water-Solid Surface Contact Electrification and its Use for Harvesting Liquid Wavy Energy | |
Session III: Piezotronics I | Chair: Jyh Ming Wu | |||
1:30 PM | 2:00 PM | Prof. Oliver Schmidt | Electro-elastic quantum photonic devices | |
2:00 PM | 2:30 PM | Prof. Xudong Wang | Piezotronic Effect in Electrochemical Processes and Soar Energy Conversion | |
2:30 PM | 2:45 PM | Kyung-Sik Shin | Ferroelectric Coupling Effect on Energy Band Structure of Hybrid Heterojunction with Self-Organized P(VDF-TrFE) Nanomatrixes | |
2:45 PM | 3:00 PM | Xiaonan Wen | Piezotronic Effect in Flexible Thin-film Based Devices | |
3:00 PM | 3:20 PM | Coffee break | ||
Session IV: Piezotronic transistor and sensors | Chair: Chi Zhang | |||
3:20 PM | 3:50 PM | Dr. Nae-Eung Lee | Bimodal Sensing Based on Piezo-pyroelectrically Coupled Field-Effect Transistors | |
3:50 PM | 4:20 PM | Dr. Wenzhuo Wu | Three-dimensional taxel-addressable matrix of vertical-nanowire piezotronic transistors for active and adaptive tactile imaging | |
4:20 PM | 4:35 PM | Gongxun Bai | Strain-Induced Tunable Near-Infrared Luminescence from SrTiO3: Ni2+ Thin Film Grown on Piezoelectric PMN-PT | |
4:35 PM | 4:50 PM | Edgar Leon Perez | Unit-cell design of a force sensing device based on vertical piezoelectric nanowires | |
4:50 PM | 5:05 PM | Ruomeng Yu | Piezotronic Effect: A New Concept for Designing High Sensitive Bio/Chemical Sensors | |
5:05 PM | 5:20 PM | Yen-Yu Chen | Piezotronic properties of MgxZn1-xO thin films | |
Reception and Poster Session | ||||
5:30 PM | 7:30 PM | |||
06/10 | Session V: Piezoelectric Materials and Properties | Chair: Jun Zhou | ||
8:00 AM | 8:30 AM | Dr. Max Migliorato | Linear and Non linear Piezoelectricity in Novel Semiconductor Devices | |
8:30 AM | 9:00 AM | Prof. Yue Zhang | ZnO nanodevices for energy conversion and its Service behaviours | |
9:00 AM | 9:30 AM | Prof. Jinhui Song | Property Characterization and Application of ZnO Nanomaterials | |
9:30 AM | 9:45 AM | Prof. Ho Won Jang | Ferroelectric perovskite oxides for water splitting photoanodes | |
9:45 AM | 10:00 AM | Moustafa Shawkey | Piezoelectric response of MWCNTs/cement composites | |
10:00 AM | 10:20 AM | Coffee break | ||
Session VI: Nanogenerators (general) | Chair: Ho Won Jang | |||
10:20 AM | 10:50 AM | Dr. Gustavo Ardila | Progress on the modeling of piezoelectric nanogenerators | |
10:50 AM | 11:05 AM | Prof. Jun Zhou | Paper-based nanogenerator for paper electronics | |
11:05 AM | 11:20 AM | Dr. Chi Zhang | Theoretical Comparison, Equivalent Transformation and Conjunction Operations of Electromagnetic Induction Generator and Triboelectric Nanogenerator for Harvesting Mechanical Energy | |
11:20 AM | 11:35 AM | Xuhua Peng | Flexible PI-Based Omnidirectional Transmitter Arrays Cube for Wireless Power Transmission System | |
11:35 AM | 11:50 AM | Yusheng Zhou | AFM study of triboelectric effect | |
11:50 AM | 12:05 PM | Ju-Hyuck Lee | Stretchable piezoelectric-pyroelectric hybrid nanogenerator | |
Session VII: Piezo-phototronics | Chair: Wenjie Mai | |||
1:30 PM | 2:00 PM | Prof. Jianhua Hao | Piezo-phototronic and Piezophotonic Effects in Flexible Optical Materials and Systems | |
2:00 PM | 2:30 PM | Prof. Caofeng Pan | Mapping strain/pressure with nanowire light- emitting-diode arrays by piezo-phototronic effect | |
2:30 PM | 2:45 PM | Chen-Yu Tsai | Strain-enhanced Photosensitivity of Heterojunction Diode of n-ZnO Nanorods on p-GaN Thin Film via Piezo-phototronic Effect | |
2:45 PM | 3:00 PM | Chang Bao Han | GaN/Si nanoheterostructure array light-emitting diodes with variable spectrum | |
3:00 PM | 3:20 PM | Coffee break | ||
Session VIII: Novel piezotronic properties | Chair: Junyi Zhai | |||
3:20 PM | 3:50 PM | Dr. Christian Falconi | Toward high performance nanogenerators and piezotronic devices | |
3:50 PM | 4:20 PM | Prof. Chuan-Pu Liu | Examination of doping effect on piezotronic behaviors of GaN from single nanowires to large-area devices | |
4:20 PM | 4:50 PM | Prof. Yan Zhang | Theoretical study of piezotronic heterojunction | |
4:50 PM | 5:05 PM | Matthew Starr | Piezopotential Induced Electrochemical Reactions in Aqueous Media | |
5:05 PM | 5:20 PM | Prof. Youfan Hu | Temperature Dependence of the Piezotronic Effect in ZnO Nanowires | |
5:20 PM | 5:35 PM | Ken Pradel | Piezotronic Effect in Solution-Grown p Type ZnO Nanowires and Films | |
5:35 PM | 5:50 PM | Prof. Weiguo Hu | Piezotronic effect in polar and non-polar GaN | |
06/11 | Session IX: Triboelectric Nanogenerators II | Chair: Zhou Li | ||
8:00 AM | 8:30 AM | Dr. Guang Zhu | Triboelectric nanogenerators for self-powered electronics and large-scale energy generation | |
8:30 AM | 9:00 AM | Prof. Haixia Zhang | Hybrid Triboelectric Generator and its Applications in Portable Electronics | |
9:00 AM | 9:30 AM | Dr. Ya Yang | Triboelectric Nanogenerator for Self-Powered Personal Electronics, Sensor System, and Electrochemical Applications | |
9:30 AM | 9:45 AM | Prof. Junyi Zhai | Low frequency wideband nano generators for energy harvesting from natural environment | |
9:45 AM | 10:00 AM | Prof. Fengru Fan | Complementary Characteristics and Enhanced Power Output of Electromagnetic Generator and Triboelectric Generator | |
10:00 AM | 10:20 AM | Coffee break | ||
Session X: Nanogenerators and self-powered systems | Chair: Weiguo Hu | |||
10:20 AM | 10:50 AM | Prof. Jeong Min Baik | Ordered Porous Nanostructures based Nanogenerators and Sensors | |
10:50 AM | 11:05 AM | Prof. Wenjie Mai | Development of MnO2-based high-performance flexible supercapacitors for self-power systems | |
11:05 AM | 11:20 AM | Seung Wanchul | Hybrid Energy Nanogenerator Based on Coupling of Triboelectric and Piezoelectric Effects using ZnSnO3 Nanocubes/Polymer | |
11:20 AM | 11:35 AM | Prof. Zhou Li | In vivo self-powered energy devices and systems | |
11:35 AM | 11:50 AM | Balasubramaniam Saravanakumar | Fabrication of PVDF-ZnO hybrid composite nanogenerator for self-powered pH sensor application | |
11:50 AM | 12:05 PM | Chen Song | Multi-physics analysis of piezoelectric nanocomposite nanogenerators | |
06/09 | 5:30 PM | 7:30 PM | Poster session: | |
1 | Dalong | Geng | Mapping of Strain-Piezopotential Relationship along Bent Zinc Oxide Microwires | |
2 | Xiao-Sheng | Zhang | Triboelectric Nanogenerator Based on Self-Assembly of PTFE Nanoparticles | |
3 | Wei | Tang | A power-transformed-and-managed triboelectric nanogenerator and its application in the self-powered wireless sensing node | |
4 | RUOMENG | YU | Enhanced Performances of GaN Nanobelt Based Photodetector by Piezo-Phototronic Effect | |
5 | RUOMENG | YU | GaN Nanobelts Based Strain-Gated Piezotronic Logic Devices and Computation | |
6 | Jun | Chen | Harmonic Resonator Based Triboelectric Nanogenerator as a Sustainable Power Source and a Self-Powered Active Vibration Sensor | |
7 | Wenxi | Guo | Segmentally Structured Disk Triboelectric Nanogenerator for Metal Corrosion Prevention | |
8 | Long | Lin | Disk Triboelectric Nanogenerators for Sustainably Harvesting Rotational Mechanical Energy and Self-powered Mechanical Sensing | |
9 | Long | Lin | Triboelectric active sensor array for self-powered static and dynamic pressure detection and tactile imaging | |
10 | Simiao | Niu | Theory of Triboelectric Nanogenerators | |
11 | Lu | Zhang | Controllable fabrication of oblique polymer nanowire arrays and its application on energy harvesting | |
12 | Yannan | Xie | Rotary Triboelectric Nanogenerator Based on a Hybridized Mechanism for Harvesting Wind Energy | |
13 | Xiaonan | Wen | Applicability of Triboelectric Generator over a Wide Range of Temperature | |
14 | Peng | Bai | Cylindrical Rotating Triboelectric Nanogenerator | |
15 | Sihong | Wang | Self-charging power unit based on the hybridization of nanogenerator and Li-ion battery | |
16 | Jinsung | Chun | Sponge-Structured Triboelectric Nanogenerator for Sustainable Energy Harvesting | |
17 | Fang | Yi | Single-electrode based triboelectric nanogenerator as vibration sensor and for self-powered motion tracking of human walking | |
18 | Seongsu | Kim | Transparent, Flexible Graphene Triboelectric Nanogenerators | |
19 | Gang | Cheng | The Pulsed Triboelectric Nanogenerator with enhanced output performance | |
20 | Yusheng | Zhou | Nanometer resolution self-powered motion sensor based on micro-grated triboelectrification | |
21 | Joydeep | Pal | Non linear Piezoelectricity in Nanostructures and Devices | |
22 | Wen | Liu | A Cubic Triboelectric Generator Box as a Self-Powered Orientation Sensor | |
23 | Wenjing | Jie | Controllable Strain Effects on Layered 2D-materials via Piezoelectric Actuator of Single-crystal PMN-PT | |
24 | Ken | Pradel | ZnO p-n Homojunctions for Enhanced Energy Harvesting | |
25 | Chi | Zhang | Rotating Disk Based Direct-Current Triboelectric Nanogenerator | |
26 | Xinxin | Wang | Piezoelectric-Enhanced Oriented Cobalt Coordinated Peptide Monolayer and its Electrochemical Properties | |
27 | Zheng | Qiang | Harvesting in vivo Biomechanical energy via nanogenerators | |
28 | Lin | Dong | Performance Modulation of CdSe Nanowire Photodetectors by Piezo-phototronic Effects | |
29 | Youngmin | Kim | Natural Hybridization of Piezoelectric Nanogenerator and Organic Photovoltaic | |
30 | Jinho | Yoo | Output Power Dependency of Piezoelectric Nanogenerator according to External Mechanical Deformations | |
31 | Hong-Joon | Yoon | Effective energy conversion by micro-patterning the surface of poly (vinylidene fluoride trifluoroethylene) | |
32 | Tae Yun | Kim | Neutralization effect of acceptor dopants on the enhanced piezoelectric potential of ZnO nanowires | |
33 | Jeong Hwan | Lee | High-Power Generation from Stress-Induced Dipole Alignment of ZnSnO3 Nanocubes/Polymer Hybrid Piezoelectric Nanogenerator | |
34 | Li | Zheng | Silicon-Based Hybrid Cells for Harvesting both Solar and Water Drop Electrostatic Energy | |
35 | Jin | Yang | Triboelectrification-Based Organic Film Nanogenerator for Acoustic Energy Harvesting and Self-Powered Active Acoustic Sensing | |
36 | Chao-hung | Wang | Output Performance Engineering of GaN Nanowire Arrays Piezoelectric Nanogenerators via Controlling the Carrier Screening Effect | |
37 | Matthew | Starr | Interface Engineering by Piezoelectric Potential in ZnO-based Photoelectrochemical Anode | |
38 | Chang Bao | Han | Harvesting energy from automobile brake in contact and non-contact mode by conjunction of triboelectrication and electrostatic-induction processes | |
39 | Zong-Hong | Lin | A Self-Powered Active Photodetector Base on Triboelectric Nanogenerator Configuration | |
40 | Venkateswarlu | Gaddam | Piezoelectric ZnO Nanogenerator as an active Acoustic sensor | |
41 | Cui | Nuanyang | Magnetic Force Driven Nanogenerators as a Noncontact Energy Harvester and Sensor | |
42 | Li | Cheng | Non-contact nanogenerator for in vivo application | |
43 | Sihong | Wang | Triboelectric-Effect-Enabled Mechanical Energy Harvesting: Basic Modes and Structural Designs | |
44 | Ying | Wu | Size Dependence of Whispering Gallery Modes in n-ZnO/p-GaN nanowire LED array | |
45 | Qingshen | Jing | Case-encapsulated Triboelectric Nanogenerator for Harvesting Energy from Reciprocating Sliding Motion | |
46 | Zhaona | Wang | Optical Fiber-ZnO/CdS Core-Shell Ultraviolet/Visible Photodetector Optimized by Piezo-Phototronic Effect |