Chapter 1. Bioinspired Synthesis: History, Fundamentals and Outlook

R. Boston
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Abstract

The ability of nature to control the formation of materials across multiple length scales, often simultaneously and under near-ambient conditions, is one that would be of great benefit across many areas of materials synthesis. The techniques used enable unrivalled optimisation of the materials produced, aiding the survival of the organisms that employ them. Harnessing these ideas and methods in the laboratory, or even at the industrial scale, offers new approaches to the control and synthesis of functional materials, often producing energy- and resource-efficient processes that are becoming increasingly important as global demand for functional materials increases. This introductory chapter examines how nature and biology have been used to inspire and control formation and function in inorganic materials. It considers a range of materials, including glasses, metals, and ceramics, and studies how nature has been used to control or inform their formation and explores the benefits and effects of these. The limitations and factors that must be considered for these types of synthesis are discussed, and the ideas further extended into organic and non-biological sources, whilst retaining the concepts found in many bioinspired techniques.
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第1章。生物合成:历史,基础和前景
自然控制材料在多个长度尺度上的形成的能力,通常是在接近环境的条件下同时进行的,这将在材料合成的许多领域带来巨大的好处。所使用的技术能够对所生产的材料进行无与伦比的优化,帮助使用它们的生物体生存。在实验室,甚至在工业规模上利用这些想法和方法,为控制和合成功能材料提供了新的途径,通常产生能源和资源高效的过程,随着全球对功能材料需求的增加,这些过程变得越来越重要。本导论章考察了自然和生物学是如何被用来激发和控制无机材料的形成和功能的。它考虑了一系列材料,包括玻璃、金属和陶瓷,并研究了大自然如何被用来控制或告知它们的形成,并探索了这些材料的好处和影响。讨论了这些类型的合成必须考虑的限制和因素,并将这些想法进一步扩展到有机和非生物来源,同时保留了许多生物启发技术中发现的概念。
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Chapter 1. Bioinspired Synthesis: History, Fundamentals and Outlook Chapter 3. Energy Conversion and Storage Chapter 4. Biomimetics of Structural Colours: Materials, Methods and Applications Chapter 2. Bioinspired Surfaces Chapter 5. Bioinspired Approaches to Bone
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