Current developments and challenges in energy-efficient windows for building integration relate to the design and realization of high-performance, durable electrochromic devices and semitransparent photovoltaic cells. Photovoltachromic devices combine the photovoltaic and electrochromic functionalities in a self-powered, stand-alone smart device enabling energy production from sunlight and adaptive daylight modulation without any additional external power supply. Herein, we present for the first time the features of an all-solid-state photovoltachromic device assembled entirely on a single-glass substrate with a simplified structure in which high-performance perovskite solar cells are capable of driving autonomously a fast (c.a. 15 s) and deep coloration of the electrochromic unit (?Tavt = 22%; ?T650 = 30%). Such a multifunctional single-substrate device guarantees high aesthetics and transparency exhibiting increased photovoltaic performances with superior light power conversion efficiency (maximum 12.2%) when compared with the quasi-solid and solid-state photovoltachromics. The integration of an all-solid-state EC unit with semitransparent perovskite solar cells on a single-substrate photovoltachromic module allows for smart energy management by the dynamic control of solar radiation, enabling at the same time the generation of surplus energy by a PV system for additional uses or under cloudy conditions and less sunny hours of the day.

Highly Efficient All-Solid-State WO3-Perovskite Photovoltachromic Cells for Single-Glass Smart Windows

Pugliese Marco;Rizzo Aurora;Colella Silvia;Prontera Carmela Tania;Gigli Giuseppe;Maiorano Vincenzo;Cossari Pierluigi
2020

Abstract

Current developments and challenges in energy-efficient windows for building integration relate to the design and realization of high-performance, durable electrochromic devices and semitransparent photovoltaic cells. Photovoltachromic devices combine the photovoltaic and electrochromic functionalities in a self-powered, stand-alone smart device enabling energy production from sunlight and adaptive daylight modulation without any additional external power supply. Herein, we present for the first time the features of an all-solid-state photovoltachromic device assembled entirely on a single-glass substrate with a simplified structure in which high-performance perovskite solar cells are capable of driving autonomously a fast (c.a. 15 s) and deep coloration of the electrochromic unit (?Tavt = 22%; ?T650 = 30%). Such a multifunctional single-substrate device guarantees high aesthetics and transparency exhibiting increased photovoltaic performances with superior light power conversion efficiency (maximum 12.2%) when compared with the quasi-solid and solid-state photovoltachromics. The integration of an all-solid-state EC unit with semitransparent perovskite solar cells on a single-substrate photovoltachromic module allows for smart energy management by the dynamic control of solar radiation, enabling at the same time the generation of surplus energy by a PV system for additional uses or under cloudy conditions and less sunny hours of the day.
2020
optical contrast
power conversion efficiency
self-powered photovoltachromic
semitransparent perovskite
single-glass smart windows
solid polymer electrolyte
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/378700
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