Chapter 3. Energy Conversion and Storage

B. Schwenzer
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Abstract

In this chapter some of the most innovative and creative approaches reported so far for the use of bioinspired inorganic materials in the area of energy-related applications are highlighted. Bioinspiration, as it pertains to inorganic materials for energy conversion and storage applications, has been grouped into two categories: (1) bioinspired synthesis/approach and (2) bioinspired design/functionality. Focusing on the commercialised and most commonly used methods to either convert or store energy, this chapter is structured into sections on photovoltaics (Section 3.2), thermal energy storage systems and phase change materials (Section 3.3), batteries (Section 3.4) and supercapacitors (Section 3.5). Each section first describes examples of bioinspired syntheses of functional inorganic materials relevant to the specific topic, or the fabrication of devices that contain active inorganic or hybrid materials that were prepared employing a bioinspired synthesis method. Subsequently, each section gives examples for each energy storage or conversion system of novel device designs translated from biology. The overarching aim of this chapter is to showcase the progress as well as the opportunities for how bioinspiration can contribute to, or even help to overcome, existing challenges regarding approaches to energy conversion and storage.
第三章。能量转换与储存
在本章中,重点介绍了迄今为止在能源相关应用领域中使用生物启发无机材料的一些最具创新性和创造性的方法。生物灵感,因为它涉及无机材料的能量转换和存储应用,被分为两类:(1)生物灵感合成/方法和(2)生物灵感设计/功能。本章着重于商业化和最常用的转换或储存能量的方法,分为光伏(第3.2节)、热能储存系统和相变材料(第3.3节)、电池(第3.4节)和超级电容器(第3.5节)。每个部分首先描述与特定主题相关的功能无机材料的生物启发合成的实例,或包含采用生物启发合成方法制备的活性无机或杂化材料的器件的制造。随后,每个部分给出了从生物学翻译而来的新装置设计的每个能量存储或转换系统的示例。本章的总体目标是展示生物灵感如何有助于甚至帮助克服有关能量转换和存储方法的现有挑战的进展和机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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