| 1 | J. Chun, J. W. Kim, W. Jung, C.-Y. Kang, S.-W. Kim, Z. L. Wang, and J. M. Baik, "Mesoporous Pores Impregnated with Au nanoparticles as Effective Dielectrics for Enhancing Triboelectric Nanogenerator Performance in Harsh Environments," Energy Environ. Sci., 8 3006-12 (2015). DOI |
| 2 | G. Zhu, J. Chen, T. Zhang, Q. Jing, and Z. L. Wang, "Radial-Arrayed Rotary Electrification for High Performance Triboelectric Generator," Nat. commun., 5 3426-34 (2014). DOI |
| 3 | C. Zhang, T. Zhou, W. Tang, C. Han, L. Zhang, and Z. L. Wang, "Rotating-Disk-Based Direct-Current Triboelectric Nanogenerator," Adv. Energy Mater., 4 [9] 1301798-805 (2014). DOI |
| 4 | F.-R. Fan, L. Lin, G. Zhu, W. Wu, R. Zhang, and Z. L. Wang, "Transparent Triboelectric Nanogenerators and Self-Powered Pressure Sensors Based on Micropatterned Plastic Films," Nano Lett., 12 [6] 3109-14 (2012). DOI |
| 5 | G. Zhu, Z.-H. Lin, Q. Jing, P. Bai, C. Pan, Y. Yang, Y. Zhou, and Z. L. Wang, "Toward Large-Scale Energy Harvesting by a Nanoparticle-Enhanced Triboelectric Nanogenerator," Nano Lett., 13 [2] 847-53 (2013). DOI |
| 6 | Y. Yang, S. Wang, Y. Zhang, and Z. L. Wang, "Sliding-Triboelectric Nanogenerators Based on In-Plane Charge-Separation Mechanism" Nano Lett., 13 [5] 2226-33 (2013). DOI |
| 7 | L. Lin, S. Wang, Y. Xie, Q. Jing, S. Niu, Y. Hu, and Z. L. Wang, "Segmentally Structured Disk Triboelectric Nanogenerator for Harvesting Rotational Mechanical Energy," Nano Lett., 13 [6] 2916-23 (2013). DOI |
| 8 | X.-S. Zhang, M.-D. Han, R.-X. Wang, F.-Y. Zhu, Z.-H. Li, W. Wang, and H.-X. Zhang, "Frequency- Multiplication High-Output Triboelectric Nanogenerator for Sustainably Powering Biomedical Microsystems," Nano Lett., 13 [3] 1168-72 (2013). DOI |
| 9 | X. Li, Z.-H. Lin, G. Cheng, X. Wen, Y. Liu, S. Niu, and Z. L. Wang, "3D Fiber-Based Hybrid Nanoge nerator for Energy Harvesting and as a Self-Powered Pressure Sensor," ACS Nano, 8 [10] 10674-81 (2014). DOI |
| 10 | K. N. Kim, J. Chun, J. W. Kim, K. Y. Lee, J.-U. Park, S-W. Kim, Z. L. Wang, and J. M. Baik, "Highly Stretchable 2D Fabrics for Wearable Triboelectric Nanogenerator under Harsh Environments," ACS Nano, 9 [6] 6394-400 (2015). DOI |
| 11 | T. Zhou, C. Zhang, C. B. Han, F. R. Fan, W. Tang, and Z. L. Wang, "Woven Structured Triboelectric Nanogenerator for Wearable Devices," ACS Appl. Mater. Interfaces, 6 [16] 14695-701 (2014). DOI |
| 12 | J.-H. Lee, K. Y. Lee, M. K. Gupta, T. Y. Kim, D.-Y. Lee, J. Oh, C. Ryu, W. J. Yoo, C.-Y. Kang, S.-J. Yoon, J.-B. Yoo, and S.-W. Kim, "Highly Stretchable Piezoelectric-Pyroelectric Hybrid Nanogenerator," Adv. Mater., 26 [5] 765-69 (2014). DOI |
| 13 | Y. Yang, H. Zhang, J. Chen, Q. Jing, Y. S. Zhou, X. Wen and Z. L. Wang, "Single-Electrode-Based Sliding Triboelectric Nanogenerator for Self-Powered Displacement Vector Sensor System," ACS Nano, 7 [8] 7342-51 (2013). DOI |
| 14 | H. Zhang, Y. Yang, Y. Su, J. Chen, C. Hu, Z. Wu, Y. Liu, C. P. Wong, Y. Bando, and Z. L. Wang, "Triboelectric Nanogenerator as Self-Powered Active Sensors for Detecting Liquid/Gaseous Water/Ethanol," Nano Energy, 2 [5] 693-701 (2013). DOI |
| 15 | G. Zhu, C. Pan, W. Guo, C.-Y. Chen, Y. Zhou, R. Yu, and Z. L. Wang, "Triboelectric-Generator-Driven Pulse Electrodeposition for Micropatterning," Nano Lett., 12 [9] 4960-65 (2012). DOI |
| 16 | Z.-H. Lin, G. Zhu, Y. S. Zhou, Y. Yang, P. Bai, J. Chen, and Z. L. Wang, "Water-Solid Surface Contact Electrification and its Use for Harvesting Liquid-Wave Energy," Angew. Chem. Int. Ed., 52 [48] 5065-69 (2013). DOI |
| 17 | F.-R. Fan, Z.-Q. Tian, and Z. L. Wang, "Flexible Triboelectric Generator," Nano Energy, 1 [2] 328-34 (2012). DOI |
| 18 | Z. L. Wang, "Triboelectric Nanogenerators as New Energy Technology and Self-Powered Sensors-Principles, Problems and Perspectives," Faraday Discuss., 176 447-58 (2014). DOI |
| 19 | P. Bai, G. Zhu, Q. Jing, J. Yang, J. Chen, Y. Su, J. Ma, G. Zhang, and Z. L. Wang., "Membrane-Based Self-Powered Triboelectric Sensors for Pressure Change Detection and Its Uses in Security Surveillance and Healthcare Monitoring," Adv. Funct. Mater., 24 [37] 5807-13 (2014). DOI |
| 20 |
Z.-H. Lin, Y. Xie, Y. Yang, S. Wang, G. Zhu, and Z. L. Wang, "Enhanced Triboelectric Nanogenerators and Triboelectric Nanosensor Using Chemically Modified |
| 21 | S. Wang, Y. Xie, S. Niu, L. Lin, and Z. L. Wang, "Freestanding Triboelectric-Layer-Based Nanogenerators for Harvesting Energy from a Moving Object or Human Motion in Contact and Non-contact Modes," Adv. Mater., 26 [18] 2818-24 (2014). DOI |
| 22 | Z.-H. Lin, G. Zhu, Y. S. Zhou, Y. Yang, P. Bai, J. Chen, and Z. L. Wang, "A Self-Powered Triboelectric Nanosensor for Mercury Ion Detection," Angew. Chem. Ed. Int., 52 [19] 5065-69 (2013). DOI |
| 23 | Y. Xie, S. Wang, S. Niu, L. Lin, Q. Jing, J. Yang, Z. Wu, and Z. L. Wang, "Grating-Structured Freestanding Triboelectric-Layer Nanogenerator for Harvesting Mechanical Energy at 85% Total Conversion Efficiency," Adv. Mater., 26 [38] 6599-607 (2014). DOI |
| 24 | C. K. Jeong, K. M. Baek, S. Niu, T. W. Nam, Y. H. Hur, D. Y. Park, G.-T. Hwang, M. Byun, Z. L. Wang, Y. S. Jung, and K. J. Lee, "Topographically-Designed Triboelectric Nanogenerator via Block Copolymer Self-Assembly," Nano Lett., 14 [12] 7031-38 (2014). DOI |
 |
Korea Institute of Science and Technology Information
Gwahangno, Yuseong-gu, Daejeon, 305-806, Korea TEL : +82-42-869-1752
Copyright (c) 2009 KISTI. All Rights Reserved. For more information mail to
webmaster
