Lead Halide Perovskite Solar Cells, PDF eBook DRM Free

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The present review focuses on the following topics: Power Conversion Efficiency; Electron Transport, Hole Transport and Interface Layers; Material Preparation; Cesium-Doped Lead-Halide Perovskites; Formamidinium-Doped Lead-Halide Perovskites; Methylammonium Lead-Halide Perovskites; Hysteresis, Stability and Toxicity Problems.

Lead Halide Perovskite Solar Cells
David J. Fisher
Materials Research Foundations Vol. 75
Publication Date 2020, 130 Pages
Print ISBN 978-1-64490-080-2 (release date June, 2020)
ePDF ISBN 978-1-64490-081-9
DOI: 10.21741/9781644900819

Lead halide perovskite materials have a huge potential in solar cell technology. They offer the combined advantages of low-cost preparation and high power-conversion efficiency. The present review focuses on the following topics: Power Conversion Efficiency; Electron Transport, Hole Transport and Interface Layers; Material Preparation; Cesium-Doped Lead-Halide Perovskites; Formamidinium-Doped Lead-Halide Perovskites; Methylammonium Lead-Halide Perovskites; Hysteresis, Stability and Toxicity Problems. The book references 334 original resources and includes their direct web link for in-depth reading.

Keywords
Solar Cells, Lead Halide Perovskite Materials, Cesium-Doped Lead-Halide Perovskites, Formamidinium-Doped Lead-Halide Perovskites, Methylammonium Lead-Halide Perovskites, Electron-Transport Layer, Hole-Transport Layer, Interface Layers, Hysteresis Problem, Stability Problem, Toxicity Problem

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Table of contents
Introduction 1
Electron-Transport Layer 17
Hole-Transport Layer 18
Interface Layers 20
Preparation 22
Cesium-Doped Lead-Halide Perovskites 24
Formamidinium-Doped Lead-Halide Perovskites 36
Methylammonium Lead-Halide Perovskites 43
The Hysteresis Problem 91
The Stability Problem 92
The Toxicity Problem 95
Other Application 97
References 98
Keyword Index 99
About the Author 100

Outbound links:
https://en.wikipedia.org/wiki/Perovskite_solar_cell
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About the Author

Dr Fisher has wide knowledge and experience of the fields of engineering, metallurgy and solid-state physics, beginning with work at Rolls-Royce Aero Engines on turbine-blade research, related to the Concord supersonic passenger-aircraft project, which led to a BSc degree (1971) from the University of Wales. This was followed by theoretical and experimental work on the directional solidification of eutectic alloys having the ultimate aim of developing composite turbine blades. This work led to a doctoral degree (1978) from the Swiss Federal Institute of Technology (Lausanne). He then acted for many years as an editor of various academic journals, in particular Defect and Diffusion Forum. In recent years he has specialised in writing monographs which introduce readers to the most rapidly developing ideas in the fields of engineering, metallurgy and solid-state physics. His latest paper will appear shortly in International Materials Reviews, and he is co-author of the widely-cited student textbook, Fundamentals of Solidification.