材料科学
氧化物
蒸发
电
纳米技术
原子单位
发电
化学工程
冶金
功率(物理)
电气工程
物理
量子力学
热力学
工程类
作者
Chao Liu,Caichao Ye,Yunyan Wu,Yifan Liu,Zhihang Liu,Zhaotian Chen,Renzhi Ma,Nobuyuki Sakai,Liang Xue,Jingwen Sun,Wenyao Zhang,Wenqing Zhang,Xin Wang,Takayoshi Sasaki,Pan Xiong,Junwu Zhu
出处
期刊:Nano Energy
[Elsevier]
日期:2023-03-14
卷期号:110: 108348-108348
被引量:19
标识
DOI:10.1016/j.nanoen.2023.108348
摘要
Water evaporation-induced electricity generation, as an emerging energy harvesting technology, has recently attracted extensive attention owing to its ability to harvest electricity directly from the natural water evaporation process. However, the crucial issue that has restricted its practical applications is the low power density and conversion efficiency presented thus far, which generally originated from the weak water-solid interaction between evaporation-induced water flow and nanostructured materials. Exploration of a regulatory approach that can enhance water-solid interaction at an atomic level is highly demanded. Herein, we propose the Ti vacancy engineering at the atomic scale in two-dimensional (2D) unilamellar titanium oxide (Ti1−δO2) nanosheets for efficient water evaporation-induced electricity generation. 2D Ti0.87O2 and Ti0.91O2 nanosheets with precisely controlled concentrations of Ti atomic vacancies are rationally designed. The water flow passes through the 2D gallery of nanosheets while the Ti atomic vacancies can effectively enhance the water-solid interaction between Ti1−δO2 nanosheets and water flow during the water evaporation process for electricity generation. As a result, a stable open-circuit voltage of ∼1.32 V for the hydrovoltaic device made of Ti0.87O2 nanosheets can be maintained for more than 250 h, outperforming those for the commercial TiO2 and Ti0.91O2 nanosheets. This work indicates a promising way to utilize defective 2D materials for hydrovoltaic technology.
科研通智能强力驱动
Strongly Powered by AbleSci AI