Artificial Phototropic Systems for Enhanced Light Harvesting Based on a Liquid Crystal Elastomer
Abstract
Oblique‐incidence‐induced energy‐density loss (OEL) is a universal problem which affects nearly all processes involving electromagnetic waves, especially sunlight harvesting. Technologies (solar concentrating plants, large scale systems, etc.) are developed to address this issue, albeit with limitations such as complex design, large size, and high cost. Inspired by nature, artificial phototropism is developed to accurately follow the light direction without complex motors system and electronical control. However, the existing systems are limited by small tracking operation windows, low robustness, or the requirement of high‐power input. Herein, a system is reported that is versatile, low cost, mechanically strong, and can achieve large‐angle reorientation driven by unconcentrated sunlight. This system is demonstrated to be able to recover the OEL for photovoltaics as well as solar vapor generation (SVG) processes. Compared with the nonphototropic system, it can achieve 447% output in lab and 155% in real‐life applications. The principle behind our artificial phototropic system is universal and can be extended to many optical applications, especially sunlight harvesting.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- May 04, 2021
- Source ID
- 10.1002/aisy.202000234
Entities
People
- Bowen Yao
- Shuwang Wu
- Ximin He
- Yichen Yan
- Yousif Alsaid
- Yucheng Zhang
- Yusen Zhao
Organizations
- Air Force Office of Scientific Research
- Office of Naval Research
- Shanghai Jiao Tong University
- University of California