首页|期刊导航|Friction|Silicon-based tribovoltaic nanogenerators:Surface chemistry isotope effect on device performance and durability

Silicon-based tribovoltaic nanogenerators:Surface chemistry isotope effect on device performance and durability

Xin Lyu Melanie Macgregor Nadim Darwish Simone Ciampi

Friction2025，Vol.13Issue(2)：P.99-110,12.

Friction2025，Vol.13Issue(2)：P.99-110,12.DOI:10.26599/FRICT.2025.9440939

Silicon-based tribovoltaic nanogenerators:Surface chemistry isotope effect on device performance and durability

Xin Lyu ¹Melanie Macgregor ²Nadim Darwish ¹Simone Ciampi¹

作者信息

1. School of Molecular and Life Sciences,Curtin University,Bentley 6102,Australia
2. Flinders Institute for Nanoscale Science and Technology,Flinders University,Bedford Park 5042,Australia
折叠

摘要

关键词

triboelectric nanogenerators(TENGs)/Schottky diodes/silicon surface chemistry/organic monolayers/isotope effects/flexoelectricity

分类

机械制造

引用本文复制引用

Xin Lyu,Melanie Macgregor,Nadim Darwish,Simone Ciampi..Silicon-based tribovoltaic nanogenerators:Surface chemistry isotope effect on device performance and durability[J].Friction,2025,13(2):P.99-110,12.

基金项目

Simone Ciampi and Melanie Macgregor acknowledge support from the Australian Research Council(Grant Nos.DP220100553,FT190100148,and FT200100301) （Grant Nos.DP220100553,FT190100148,and FT200100301）

the instruments and expertise of Microscopy Australia at the Future Industries Institute,University of South Australia,enabled by NCRIS,university,and state government support. （）

Friction

ISSN：2223-7690

访问量0

下载量0

段落导航