High‐Power Density Piezoelectric Energy Harvesting Using Radially Strained Ultrathin Trigonal Tellurium Nanowire Assembly — Tae Il Lee (2013) | RDL Network
High‐Power Density Piezoelectric Energy Harvesting Using Radially Strained Ultrathin Trigonal Tellurium Nanowire Assembly
Article 2013 en
Authors
TL
Tae Il Lee
SL
Sangmin Lee
EL
Eungkyu Lee
Abstract
1 min read
A high-yield solution-processed ultrathin (<10 nm) trigonal tellurium (t-Te) nanowire (NW) is introduced as a new class of piezoelectric nanomaterial with a six-fold higher piezoelectric constant compared to conventional ZnO NWs for a high-volume power-density nanogenerator (NG). While determining the energy-harvesting principle in a NG consisting of t-Te NW, it is theoretically and experimentally found that t-Te NW is piezoelectrically activated only by creating strain in its radial direction, along which it has an asymmetric crystal structure. Based upon this mechanism, a NG with a monolayer consisting of well-aligned t-Te NWs and a power density of 9 mW/cm(3) is fabricated.
Jung Inn Sohn, Seung Nam, Byong Gwon Song, Sanghyo Lee, Seong Min Kim, JiYeon Ku, Hyun Jin Kim, Young Jun Park, Byoung Lyong Choi, Zhong Lin Wang, Jong Min Kim, Kinam Kim
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