Scalable Production of Mechanically Robust Antireflection Film for Omnidirectional Enhanced Flexible Thin Film Solar Cells

Overview

Journal Adv Sci (Weinh)

Specialty Biomedical Engineering

Date 2017 Sep 22

PMID 28932667

Citations 2

Authors

Min Wang

Pengsha Ma

Min Yin

Linfeng Lu

Yinyue Lin

Xiaoyuan Chen

Wei Jia

Xinmin Cao

Paichun Chang

Dongdong Li

Affiliations

Soon will be listed here.

Abstract

Antireflection (AR) at the interface between the air and incident window material is paramount to boost the performance of photovoltaic devices. 3D nanostructures have attracted tremendous interest to reduce reflection, while the structure is vulnerable to the harsh outdoor environment. Thus the AR film with improved mechanical property is desirable in an industrial application. Herein, a scalable production of flexible AR films is proposed with microsized structures by roll-to-roll imprinting process, which possesses hydrophobic property and much improved robustness. The AR films can be potentially used for a wide range of photovoltaic devices whether based on rigid or flexible substrates. As a demonstration, the AR films are integrated with commercial Si-based triple-junction thin film solar cells. The AR film works as an effective tool to control the light travel path and utilize the light inward more efficiently by exciting hybrid optical modes, which results in a broadband and omnidirectional enhanced performance.

Citing Articles

A Novel Nanocone Cluster Microstructure with Anti-reflection and Superhydrophobic Properties for Photovoltaic Devices.

Ma J, Ai Y, Kang L, Liu W, Ma Z, Song P Nanoscale Res Lett. 2018; 13(1):332.

PMID: 30353230 PMC: 6199206. DOI: 10.1186/s11671-018-2754-4.

Scalable Production of Mechanically Robust Antireflection Film for Omnidirectional Enhanced Flexible Thin Film Solar Cells.

Wang M, Ma P, Yin M, Lu L, Lin Y, Chen X Adv Sci (Weinh). 2017; 4(9):1700079.

PMID: 28932667 PMC: 5604369. DOI: 10.1002/advs.201700079.

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