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Halide Perovskite Semiconductors Enables readers to acquire a systematic and in-depth understanding of various fundamental aspects of halide perovskite semiconductors Halide Perovskite Semiconductors: Structures, Characterization, Properties, and Phenomena covers the most fundamental topics with regards to halide perovskites, including but not limited to crystal/defect theory, crystal chemistry, heterogeneity, grain boundaries, single-crystals/thin-films/nanocrystals synthesis, photophysics, solid-state ionics, spin physics, chemical (in)stability, carrier dynamics, hot carriers, surface and interfaces, lower-dimensional structures, and structural/functional characterizations. Included discussions on the fundamentals of halide perovskites aim to expand the basic science fields of physics, chemistry, and materials science. Edited by two highly qualified researchers, Halide Perovskite Semiconductors includes specific information on: Crystal/defect theory of halide perovskites, crystal chemistry of halide perovskites, and processing and microstructures of halide perovskites Single-crystals of halide perovskites, nanocrystals of halide perovskites, low-dimensional perovskite crystals, and nanoscale heterogeneity of halide perovskites Carrier mobilities and dynamics in halide perovskites, light emission of halide perovskites, photophysics and ultrafast spectroscopy of halide perovskites Hot carriers in halide perovskites, correlating photophysics with microstructures in halide perovskites, chemical stability of halide perovskites, and solid-state ionics of halide perovskites Readers can find solutions to technological issues and challenges based on the fundamental knowledge gained from this book. As such, Halide Perovskite Semiconductors is an essential in-depth treatment of the subject, ideal for solid-state chemists, materials scientists, physical chemists, inorganic chemists, physicists, and semiconductor physicists.
This book will provide readers with a good overview of some of most recent advances in the field of technology for perovskite materials. There will be a good mixture of general chapters in both technology and applications in opto-electronics, Xray detection and emerging transistor structures. The book will have an in-depth review of the research topics from world-leading specialists in the field. The authors build connections between the materials’ physical properties to the main applications such as photovoltaics, LED, FETs and X-ray sensors. They also discuss the similarities and main differences when using perovskites for those devices.
This book is a printed edition of the Special Issue "Metal Halide Perovskite Crystals: Growth Techniques, Properties and Emerging Applications" that was published in Crystals
Metal halide perovskites are the hottest materials currently.This unique compendium covers systematically the fundamental aspects of synthesis, properties, and applications of metal halide perovskites that exhibit unique properties and useful functionalities.Written for beginners and practitioners, this useful reference text provides a good balance between fundamental concepts/principles and related recent researches with many highlighted examples.This volume benefits researchers, practitioners, graduate students in materials chemistry/nanochemistry, physical chemistry and semiconductors.
Metal Halide Perovskites for Generation, Manipulation and Detection of Light covers the current state and future prospects of lead halide perovskite photonics and photon sources, both from an academic and industrial point-of-view. Advances in metal halide perovskite photon sources (lasers) based on thin films, microcrystals and nanocrystals are comprehensively reviewed, with leading experts contributing current advances in theory, fundamental concepts, fabrication techniques, experiments and other important research innovations. This book is suitable for graduate students, researchers, scientists and engineers in academia and R&D in industry working in the disciplines of materials science and engineering. Includes comprehensive reviews from academic and industrial perspectives of current trends in the field of metal halide perovskite for photonics Provides an up-to-date look at the most recent and upcoming applications in metal halide perovskite photonics, such as; photodetectors, lighting, lasing, nonlinear photonics and quantum technologies Discusses future prospective trends and envisioned applications of metal halide perovskites, from near-UV to near-IR photonics
Metal halide perovskites have demonstrated tremendous promising electronic and optoelectronic properties that make them appealing in various device applications. Even though surprising improvement has been achieved during the past few years in polycrystalline perovskite-based devices, problems of their intrinsic high defects level, existence of grain boundaries, strong ion migration rates, and poor stabilities can heavily hinder the further development of polycrystalline perovskite electronics and their realistic applications. In contrast, their single-crystal counterpart is well-studied to have much better crystalline qualities, enhanced electrical properties, and excellent material stabilities, making them intriguing for reaching advanced device performance and realistic applications. However, the development of single-crystal perovskite electronic devices is still in its infancy; even the controlling over dimensions, scalabilities, morphologies, and compositions on single-crystal perovskites, are still challenging. Based on those motivations, this research aims to develop a general platform for realizing single-crystal metal halide perovskites electronics from the material growth to the thin-film device fabrication. The solution-based chemical epitaxy method, the lithography and etching approaches, and the transfer printing processes will be combined together to form this fabrication protocol, which is also compatible with the conventional semiconductor processes. In Chapter One, the basic properties of metal halide perovskites and the current problems presented in this field will be introduced and discussed. In Chapter Two, an epitaxial growth method of metal halide perovskite will be introduced. Our work presents the first controllable growth of single-crystal perovskites with different dimensions, morphologies, crystalline orientations, and compositions. In Chapter Three, a general fabrication process for metal halide single-crystal perovskite electronic integrations will be introduced. Our work presents a reliable approach to integrate metal halide single-crystal perovskite into electronics/microelectronics. In Chapter Four, a general strategy for fabricating flexible metal halide single-crystal perovskite electronics will be introduced. Our work presents the first realization of flexible single-crystal perovskite electronics/micro-electronics, which paves the way for realizing high-performance single-crystal metal halide perovskites wearable electronics.