Layered Nanomaterials for Solution-Processed Optoelectronics
Editat de Manjeet Singh, Ashish Kumar Singh, Balaram Panien Limba Engleză Hardback – 12 mar 2025
Layered Nanomaterials for Solution-Processed Optoelectronics provides exhaustive state-of-the-art knowledge centered on the various 2D nanomaterials and it different types of application in optoelectronic device fabrication. The first few chapters focus on the processing and application of the 2D MXene into devices for energy conversion and storage. Then there is discussion on 2D perovskite-based nanomaterials for fabrication of photovoltaic devices and flexible light emitting diodes. The readers will get insight into large area fabrication methods of the flexible devices using advanced nanomaterials with layered structures such as graphene, conjugated COFs, 2D-hBN (hexagonal boron nitride), silicene, two-dimensional polymer, transition metal dichalcogenides, and black phosphorous. Each chapter discusses the strategies and challenges for applications of layered nanomaterials in optoelectronics.
This book is intended for graduate students, researchers and engineers working in the area of advanced nanomaterials, energy conversion, energy storage, sensors and different types of optoelectronic devices.
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Specificații
ISBN-13: 9781032834689
ISBN-10: 1032834684
Pagini: 504
Ilustrații: 222
Dimensiuni: 156 x 234 mm
Ediția:1
Editura: CRC Press
Colecția CRC Press
ISBN-10: 1032834684
Pagini: 504
Ilustrații: 222
Dimensiuni: 156 x 234 mm
Ediția:1
Editura: CRC Press
Colecția CRC Press
Public țintă
Postgraduate, Professional Reference, and Undergraduate AdvancedCuprins
Chapter 1- Processing and application of MXene in energy storage devices
Chapter 2- Exploring MXene for Energy Conversion Devices
Chapter 3- Applications of graphene and graphene oxide in the deposition of transparent electrodes for the fabrication of photovoltaic devices
Chapter 4- MXene as co-catalyst in photo-electrochemical devices for H2 production
Chapter 5- Preparation strategies and energy storage applications of 2D conjugated COFs (Conjugated covalent organic framework)
Chapter 6- Preparation and optical applications of 2D-hBN (Hexagonal Boron Nitride)
Chapter 7- Preparation of Silicene and Silicene Derivatives for Optoelectronic Devices Applications
Chapter 8- Engineering on 2D/3D perovskite blending for highly efficient optoelectronic devices
Chapter 9- Preparation and Applications of Two-Dimensional Polymer
Chapter 10- Black Phosphorus Solution Phase Preparation and Applications in Energy Conversion
Chapter 11- Advancements in Layered Double Hydroxide (LDH) Nanosheets: Preparation Techniques and Optoelectronic Applications
Chapter 12- Solution phase synthesis of transition metal dichalcogenides and their potential applications
Chapter 13- 2D-Materials for Carbon Dioxide Reduction
Chapter 14- Preparation of 2D-halide perovskite for optoelectronic applications
Chapter 2- Exploring MXene for Energy Conversion Devices
Chapter 3- Applications of graphene and graphene oxide in the deposition of transparent electrodes for the fabrication of photovoltaic devices
Chapter 4- MXene as co-catalyst in photo-electrochemical devices for H2 production
Chapter 5- Preparation strategies and energy storage applications of 2D conjugated COFs (Conjugated covalent organic framework)
Chapter 6- Preparation and optical applications of 2D-hBN (Hexagonal Boron Nitride)
Chapter 7- Preparation of Silicene and Silicene Derivatives for Optoelectronic Devices Applications
Chapter 8- Engineering on 2D/3D perovskite blending for highly efficient optoelectronic devices
Chapter 9- Preparation and Applications of Two-Dimensional Polymer
Chapter 10- Black Phosphorus Solution Phase Preparation and Applications in Energy Conversion
Chapter 11- Advancements in Layered Double Hydroxide (LDH) Nanosheets: Preparation Techniques and Optoelectronic Applications
Chapter 12- Solution phase synthesis of transition metal dichalcogenides and their potential applications
Chapter 13- 2D-Materials for Carbon Dioxide Reduction
Chapter 14- Preparation of 2D-halide perovskite for optoelectronic applications
Notă biografică
Dr. Manjeet Singh completed his Ph.D. in Chemistry from IIT-BHU, India in the area of nanoparticles synthesis and characterization. He has worked in the area of optoelectronic devices for the last 12 years. He has also worked on the fabrication of solution-processed perovskite, CIGS and CZTS and solar cells at Osaka University, Japan and Incheon National University, South Korea. His research group is also working on the silver nanowire-based flexible optoelectronic devices.
Dr. Ashish Kumar Singh has a Ph.D. from IIT-BHU, India and post doc from University of South Africa, Johannesburg, South Africa. He is an Assistant Professor, Department of Chemistry, Hansraj College, University of Delhi, India, and is currently working in the area of preparation and application of advanced materials for corrosion inhibitors.
Dr. Balram Pani is a Professor at Bhaskaracharya College of Applied Sciences, University of Delhi, India. He obtained his Ph.D. from Jawaharlal Nehru University. Dr. Pani has 20 years of research and teaching experience in the field of chemistry and Environmental Science.
Dr. Ashish Kumar Singh has a Ph.D. from IIT-BHU, India and post doc from University of South Africa, Johannesburg, South Africa. He is an Assistant Professor, Department of Chemistry, Hansraj College, University of Delhi, India, and is currently working in the area of preparation and application of advanced materials for corrosion inhibitors.
Dr. Balram Pani is a Professor at Bhaskaracharya College of Applied Sciences, University of Delhi, India. He obtained his Ph.D. from Jawaharlal Nehru University. Dr. Pani has 20 years of research and teaching experience in the field of chemistry and Environmental Science.
Descriere
This book will provide different strategies and deliberate engineering concepts for the processing and application of advanced nanomaterials with layered structures for optoelectronic devices to enable device production at industrial scale.