Titlebook: Advanced Materials in Smart Building Skins for Sustainability; From Nano to Macrosc Julian Wang,Donglu Shi,Yehao Song Book 2023 The Editor(

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https://doi.org/10.1007/978-3-658-35795-5llutants into fuel and aliments. Demonstrators are often in testing phases, but critical in signaling a future for sustainable material systems offering adaptive solutions at the intersection of building construction and biotechnology that are elegant in both their efficiency and new aesthetics.

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Book 2023d knowledge of material design and experimental studies, theoretical analyses of building energy-saving mechanisms and solar energy utilization, and new design methodologies and processes taking advanced materials into account at different scales - from nano to the macroscale.  .

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nanoscale materials in building envelopes with enhanced per.Conventional building skins are constructed as static structures upon the typical design conditions in terms of external climate and internal occupant activities. This generates dissociation between the envelope structure and its environme

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Book 2023t activities. This generates dissociation between the envelope structure and its environment. With the emerging advanced materials, such as chromic-based materials, spectrally selective coatings, and transparent photovoltaic, more dynamic and smarter building skins are now achievable and constructib

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Migration und Bildungsaspirationen, and the application of such conversion in building envelopes. Both conventional and emerging application methods and principles are discussed. Potential future directions are then identified regarding the use of photothermal materials in architecture.

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https://doi.org/10.1007/978-3-658-35795-5 into existing residential buildings and structures, independently providing self-sustainable green energy. This chapter explores the most recent developments of nanostructure-based building skins that are smart, intelligent, adaptive, responsive and biologically inspired for energy and environmenta