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Next-generation solar cells = principles and materials /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Next-generation solar cells/ Yoon-Bong Hahn, Tahmineh Mahmoudi, Yousheng Wang.
Reminder of title:	principles and materials /
Author:	Hahn, Yoon-Bong.
other author:	Mahmoudi, Tahmineh.
Published:	Singapore :Jenny Stanford Pub, : c2024.,
Description:	1 online resource :ill. (some col.)
[NT 15003449]:	Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Chapter 1: Electromagnetic Radiation -- 1.1: Light and Photon -- 1.2: Photometry -- 1.3: Blackbody Radiation -- 1.4: Planck's Radiation Law -- 1.5: Solar Spectrum -- Chapter 2: Physics and Properties of Semiconductors -- 2.1: Atomic Structure of Semiconductor -- 2.2: Carrier Concentration -- 2.3: Doping -- 2.4: Drift and Mobility -- 2.5: Diffusion -- 2.6: Recombination -- 2.7: p-n Junction -- 2.8: Optical Properties -- 2.8.1: Absorption: Direct-Bandgap and Indirect-Bandgap Transitions.
[NT 15003449]:	2.8.2: Luminescence Emission -- 2.8.3: Quantum Efficiency -- Chapter 3: Working Principles and Limitations of Solar Cells -- 3.1: Basic Structure and Working Principle of Solar Cells -- 3.1.1: Basic Structure of Solar Cells -- 3.1.2: Solar Cell Working Principles -- 3.2: Limitations and Improvements of Energy Conversion in Solar Cells -- 3.2.1: Efficiency Limitation Factors in Solar Cells -- 3.2.1.1: Energy bandgap -- 3.2.1.2: Interface defects -- 3.3: Maximum Efficiency of Solar Cells -- 3.4: Improvement of the Efficiency of Solar Cells -- 3.4.1: Tandem Solar Cells.
[NT 15003449]:	3.4.2: Concentrator Solar Cells -- 3.4.3: Up- and Down-Conversion of Photons -- 3.5: Photovoltaic Generations -- Chapter 4: Generations of Solar Cells -- 4.1: First Generation: Solar Cells Based on Silicon Wafers -- 4.1.1: Basic Material -- 4.1.2: Crystalline Silicon Solar Cell -- 4.1.2.1: Monocrystalline silicon solar cell -- 4.1.2.2: Polycrystalline silicon solar cell -- 4.1.3: Solar Cell Performance -- 4.1.4: Cell Fabrication Technology -- 4.1.4.1: Wafer check -- 4.1.4.2: Texturing -- 4.1.4.3: Diffusion -- 4.1.4.4: Edge isolation -- 4.1.4.5: Anti-reflection coating -- 4.1.4.6: Contact printing.
[NT 15003449]:	4.1.4.7: Testing and sorting -- 4.2: Second Generation: Thin-Film Solar Cells -- 4.2.1: Materials -- 4.2.2: Si-Based Thin-Film Solar Cells -- 4.2.3: Chalcopyrite-Based Solar Cells -- 4.2.4: Cadmium Telluride (CdTe) Solar Cells -- 4.3: Third Generation: Organic, Quantum Dot, Organometallic Solar Cells -- 4.3.1: Organic Solar Cells -- 4.3.2: Quantum Dot Solar Cell -- 4.3.2.1: Quantum dots -- 4.3.2.2: Quantum confinement effect -- 4.3.2.3: QD-sensitized solar cells -- 4.3.3: Organic-Inorganic Hybrid Solar Cells -- 4.3.3.1: Dye-sensitized solar cells -- 4.3.3.2: Perovskite solar cells.
[NT 15003449]:	Chapter 5: Organic Solar Cells -- 5.1: Organic Semiconductors -- 5.2: Basic Operation Principles and Physical Mechanism -- 5.2.1: Absorption and Exciton -- 5.2.2: Diffusion and Dissociation -- 5.3: Organic Solar Cell Configurations -- 5.3.1: Planar Solar Cells -- 5.3.2: Bulk Heterojunction Solar Cells -- 5.3.3: Polymer Solar Cells -- 5.3.4: All-Polymer Solar Cells -- 5.3.5: Ternary Polymer Solar Cells -- 5.3.6: Organic Tandem Solar Cells -- 5.4: Charge Dynamics in Polymer Solar Cells -- 5.4.1: Charge Dynamics Measurements -- 5.4.1.1: Transient absorption spectroscopy.
Subject:	Solar cells. -
Online resource:	https://www.taylorfrancis.com/books/9781003372387
ISBN:	9781003372387

Next-generation solar cells = principles and materials /
Hahn, Yoon-Bong.

Next-generation solar cellsprinciples and materials /[electronic resource] :Yoon-Bong Hahn, Tahmineh Mahmoudi, Yousheng Wang. - 1st ed. - Singapore :Jenny Stanford Pub,c2024. - 1 online resource :ill. (some col.)

Includes bibliographical references and index.

Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Chapter 1: Electromagnetic Radiation -- 1.1: Light and Photon -- 1.2: Photometry -- 1.3: Blackbody Radiation -- 1.4: Planck's Radiation Law -- 1.5: Solar Spectrum -- Chapter 2: Physics and Properties of Semiconductors -- 2.1: Atomic Structure of Semiconductor -- 2.2: Carrier Concentration -- 2.3: Doping -- 2.4: Drift and Mobility -- 2.5: Diffusion -- 2.6: Recombination -- 2.7: p-n Junction -- 2.8: Optical Properties -- 2.8.1: Absorption: Direct-Bandgap and Indirect-Bandgap Transitions.

Building a sustainable energy system is one of the great challenges of our time that has prompted both academia and industry to seek alternative energy and renewable energy solutions. Recently, advanced materials and technologies for next-generation solar cells have been exploited to develop economically viable, high-performance solar cells. This book addresses the principles and materials for the development of next-generation solar cells for a sustainable global society. It reviews the structures, working principles, and limitations of solar cells as well as the methods to improve their power-conversion efficiency. It introduces generations of cells as photovoltaic devices, including third-generation solar cells such as organic solar cells, quantum dot solar cells, and organic-inorganic hybrid solar cells. It focuses on the emerging perovskite solar cells (PSCs) and deals with their cell configuration, transport materials, and fabrication processes in detail.

ISBN: 9781003372387Subjects--Topical Terms:

604820
Solar cells.

LC Class. No.: TK2960

Dewey Class. No.: 621.31244

Next-generation solar cells = principles and materials /
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245 1 0 $a Next-generation solar cells $h [electronic resource] : $b principles and materials / $c Yoon-Bong Hahn, Tahmineh Mahmoudi, Yousheng Wang.
250 $a 1st ed.
260 $a Singapore : $b Jenny Stanford Pub, $c c2024.
300 $a 1 online resource : $b ill. (some col.)
504 $a Includes bibliographical references and index.
505 0 $a Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Chapter 1: Electromagnetic Radiation -- 1.1: Light and Photon -- 1.2: Photometry -- 1.3: Blackbody Radiation -- 1.4: Planck's Radiation Law -- 1.5: Solar Spectrum -- Chapter 2: Physics and Properties of Semiconductors -- 2.1: Atomic Structure of Semiconductor -- 2.2: Carrier Concentration -- 2.3: Doping -- 2.4: Drift and Mobility -- 2.5: Diffusion -- 2.6: Recombination -- 2.7: p-n Junction -- 2.8: Optical Properties -- 2.8.1: Absorption: Direct-Bandgap and Indirect-Bandgap Transitions.
505 8 $a 2.8.2: Luminescence Emission -- 2.8.3: Quantum Efficiency -- Chapter 3: Working Principles and Limitations of Solar Cells -- 3.1: Basic Structure and Working Principle of Solar Cells -- 3.1.1: Basic Structure of Solar Cells -- 3.1.2: Solar Cell Working Principles -- 3.2: Limitations and Improvements of Energy Conversion in Solar Cells -- 3.2.1: Efficiency Limitation Factors in Solar Cells -- 3.2.1.1: Energy bandgap -- 3.2.1.2: Interface defects -- 3.3: Maximum Efficiency of Solar Cells -- 3.4: Improvement of the Efficiency of Solar Cells -- 3.4.1: Tandem Solar Cells.
505 8 $a 3.4.2: Concentrator Solar Cells -- 3.4.3: Up- and Down-Conversion of Photons -- 3.5: Photovoltaic Generations -- Chapter 4: Generations of Solar Cells -- 4.1: First Generation: Solar Cells Based on Silicon Wafers -- 4.1.1: Basic Material -- 4.1.2: Crystalline Silicon Solar Cell -- 4.1.2.1: Monocrystalline silicon solar cell -- 4.1.2.2: Polycrystalline silicon solar cell -- 4.1.3: Solar Cell Performance -- 4.1.4: Cell Fabrication Technology -- 4.1.4.1: Wafer check -- 4.1.4.2: Texturing -- 4.1.4.3: Diffusion -- 4.1.4.4: Edge isolation -- 4.1.4.5: Anti-reflection coating -- 4.1.4.6: Contact printing.
505 8 $a 4.1.4.7: Testing and sorting -- 4.2: Second Generation: Thin-Film Solar Cells -- 4.2.1: Materials -- 4.2.2: Si-Based Thin-Film Solar Cells -- 4.2.3: Chalcopyrite-Based Solar Cells -- 4.2.4: Cadmium Telluride (CdTe) Solar Cells -- 4.3: Third Generation: Organic, Quantum Dot, Organometallic Solar Cells -- 4.3.1: Organic Solar Cells -- 4.3.2: Quantum Dot Solar Cell -- 4.3.2.1: Quantum dots -- 4.3.2.2: Quantum confinement effect -- 4.3.2.3: QD-sensitized solar cells -- 4.3.3: Organic-Inorganic Hybrid Solar Cells -- 4.3.3.1: Dye-sensitized solar cells -- 4.3.3.2: Perovskite solar cells.
505 8 $a Chapter 5: Organic Solar Cells -- 5.1: Organic Semiconductors -- 5.2: Basic Operation Principles and Physical Mechanism -- 5.2.1: Absorption and Exciton -- 5.2.2: Diffusion and Dissociation -- 5.3: Organic Solar Cell Configurations -- 5.3.1: Planar Solar Cells -- 5.3.2: Bulk Heterojunction Solar Cells -- 5.3.3: Polymer Solar Cells -- 5.3.4: All-Polymer Solar Cells -- 5.3.5: Ternary Polymer Solar Cells -- 5.3.6: Organic Tandem Solar Cells -- 5.4: Charge Dynamics in Polymer Solar Cells -- 5.4.1: Charge Dynamics Measurements -- 5.4.1.1: Transient absorption spectroscopy.
520 $a Building a sustainable energy system is one of the great challenges of our time that has prompted both academia and industry to seek alternative energy and renewable energy solutions. Recently, advanced materials and technologies for next-generation solar cells have been exploited to develop economically viable, high-performance solar cells. This book addresses the principles and materials for the development of next-generation solar cells for a sustainable global society. It reviews the structures, working principles, and limitations of solar cells as well as the methods to improve their power-conversion efficiency. It introduces generations of cells as photovoltaic devices, including third-generation solar cells such as organic solar cells, quantum dot solar cells, and organic-inorganic hybrid solar cells. It focuses on the emerging perovskite solar cells (PSCs) and deals with their cell configuration, transport materials, and fabrication processes in detail.
588 $a OCLC-licensed vendor bibliographic record.
650 0 $a Solar cells. $3 604820
650 0 $a Solar cells $x Materials. $3 768336
650 0 $a Solar cells $x Design and construction. $3 768335
700 1 $a Mahmoudi, Tahmineh. $3 3792725
700 1 $a Wang, Yousheng. $3 3792726
856 4 0 $u https://www.taylorfrancis.com/books/9781003372387