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Over the previous decade, research on ferroelectrics has developed rapidly in terms of fundamental studies and emerging applications. Due to their structural and functional flexibility and complexity, the fundamental science and applications of ferroelectrics are continuously evolving. It is thus important to provide updated summaries of new discoveries and fundamental progress to understand this unique physical phenomenon and material family.
This reference text covers topics of both fundamental and experimental interest and will emphasize the most significant advances over the past decade. The fundamental aspects describe studies based on first-principles calculations, multiscale simulation including machine learning, and ferroelectric models adapted from ferromagnetic counterparts. The experimental aspects describe advanced ferroelectric ceramics made from band-gap-engineered compositions pioneered in emerging multi-sensing and energy harvesting applications, topological defects in ferroelectrics for nanoelectronics, and the emergence of ferroelectricity in halide perovskites that are intensively researched for photovoltaics.
The book links fundamental science to experiments and applications, which is urgently needed by ferroelectrics researchers who must gain knowledge in both aspects. Readers will uncover the latest verified research results and conclusions reached by well-known, pioneering and leading scientists in each of the topics. Young and early-career researchers will be inspired by this book to create new ideas that will develop the field in future.
This reference text covers topics of both fundamental and experimental interest and will emphasize the most significant advances over the past decade. The fundamental aspects describe studies based on first-principles calculations, multiscale simulation including machine learning, and ferroelectric models adapted from ferromagnetic counterparts. The experimental aspects describe advanced ferroelectric ceramics made from band-gap-engineered compositions pioneered in emerging multi-sensing and energy harvesting applications, topological defects in ferroelectrics for nanoelectronics, and the emergence of ferroelectricity in halide perovskites that are intensively researched for photovoltaics.
The book links fundamental science to experiments and applications, which is urgently needed by ferroelectrics researchers who must gain knowledge in both aspects. Readers will uncover the latest verified research results and conclusions reached by well-known, pioneering and leading scientists in each of the topics. Young and early-career researchers will be inspired by this book to create new ideas that will develop the field in future.
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