國立虎尾科技大學 |

Wearable solar cells = mechanisms, materials, and devices /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Wearable solar cells/ Hao Sun ... [et al.]
其他題名:	mechanisms, materials, and devices /
其他作者:	Sun, Hao.
出版者:	Weinheim, Germany :Wiley-VCH, : 2024.,
面頁冊數:	1 online resource (256 p.) :ill. :
標題:	Solar cells. -
電子資源:	https://onlinelibrary.wiley.com/doi/book/10.1002/9783527838240
ISBN:	9783527838240

Wearable solar cells = mechanisms, materials, and devices /
Wearable solar cellsmechanisms, materials, and devices /[electronic resource] :Hao Sun ... [et al.] - 1st ed. - Weinheim, Germany :Wiley-VCH,2024. - 1 online resource (256 p.) :ill.

Includes bibliographical references and index.

About the Authors -- Preface -- 1 Introduction -- 1.1 Development of Wearable Solar Cells -- 1.2 Characteristics of Fiber-Shaped Solar Cells -- 1.3 Functionalization and Integration -- 1.4 Applications of Wearable Solar Cells -- References -- 2 Working Mechanisms of Solar Cells -- 2.1 Introduction -- 2.2 Working Mechanism and Efficiency Limitation for Solar Cells -- 2.2.1 Detailed Balance Limitation -- 2.2.2 Drift-Diffusion Model -- 2.2.3 Equivalent Circuit Model -- 2.3 Working Mechanism of Dye-Sensitized Solar Cells -- 2.4 Working Mechanism of Polymer Solar Cells -- 2.5 Working Mechanism of Perovskite Solar Cells -- 2.6 Comparison of Solar Cells for Flexible and Wearable Application -- 2.7 Conclusions -- References -- 3 Flexible Film Solar Cells -- 3.1 Overview of Flexible Film Solar Cells -- 3.2 Flexible Transparent Conductive Electrodes -- 3.2.1 Metal Oxides -- 3.2.2 Conductive Polymers -- 3.2.3 Carbon Nanomaterials -- 3.2.3.1 Graphene -- 3.2.3.2 Carbon Nanotube -- 3.3 Fabrication Techniques of Flexible Film Solar Cells -- 3.3.1 Spin Coating -- 3.3.2 Blade Coating -- 3.3.3 Slot-Die Coating -- 3.3.4 Screen Printing -- 3.3.5 Roll-to-Roll System -- 3.4 Flexible Organic Solar Cells -- 3.5 Flexible Dye-Sensitized Solar Cells -- 3.6 Flexible Perovskite Solar Cells -- 3.7 Summary and Perspective -- References -- 4 Flexible Fiber Electrodes -- 4.1 Introduction -- 4.2 Metal Wires -- 4.2.1 Titanium -- 4.2.2 Stainless Steel -- 4.2.3 Other Metals -- 4.3 Polymer Fibers -- 4.4 Carbon-Based Fiber -- 4.4.1 Carbon Fiber -- 4.4.2 Carbon Nanotube Fiber -- 4.4.3 Graphene Fiber -- 4.5 Functional Fibers -- 4.6 Summary and Perspectives -- References -- 5 Fiber-Shaped Dye-Sensitized Solar Cells -- 5.1 Introduction -- 5.2 Twisting Structure -- 5.2.1 Photoanode -- 5.2.2 Counter Electrode -- 5.2.3 Electrolyte -- 5.3 Coaxial Structure -- 5.4 Functionalization and Integration -- 5.4.1 Functional Fiber-Shaped DSSCs -- 5.4.2 Integrated Fiber-Shaped DSSCs -- 5.5 Summary and Prospects -- References -- 6 Fiber Polymer Solar Cells -- 6.1 Overview of Polymer Solar Cells -- 6.2 Overview of Fiber-Shaped Polymer Solar Cells -- 6.2.1 Fiber-Shaped Polymer Solar Cells with Twisting Structure -- 6.2.2 Fiber Polymer Solar Cells with a Coaxial Structure -- 6.3 Polymer Solar Cell Textiles -- 6.4 Summary and Perspective -- References -- 7 Fiber Perovskite Solar Cells -- 7.1 Introduction -- 7.2 Perovskite Photoactive Materials and Solar Cells -- 7.3 Deposition of Perovskite Layer on Fiber/Wire Surfaces -- 7.3.1 Perovskite Formation Strategies -- 7.3.2 Dip-Coating Process -- 7.3.3 Cathodic Electrodeposition -- 7.3.4 Thermal Evaporation -- 7.3.5 Electrode-Spinning -- 7.4 Charge Transport Layers for Fiber Perovskite Solar Cells -- 7.5 Electrode Materials for Fiber Perovskite Solar Cells -- 7.6 Stretchable and Wearable Fiber Perovskite Solar Cells -- 7.7 Summary and Perspectives: Challenges for Fiber Perovskite Solar Cells -- References -- 8 Fiber-Shaped Integrated Device -- 8.1 Overview of Integrated Device Based on Solar Cells -- 8.2 Overview of Fiber-Integrated Device Based on Solar Cells -- 8.2.1 Fiber-Shaped Integrated Device Based on Solar Cells and Supercapacitors -- 8.2.2 Fiber-Shaped Integrated Device Based on Solar Cell and Lithium-Ion Battery -- 8.2.3 Fiber Integrated Device Based on Nanogenerator and Solar Cell -- 8.2.4 Fiber-Based Integrated Textiles -- 8.3 Summary and Perspective -- References -- 9 Novel Interfaces in Wearable Solar Cells -- 9.1 Introduction -- 9.2 Interfacial Charge Transfer -- 9.2.1 Charge Transfer Within Fiber Electrode -- 9.2.2 Charge Transport at the Active Material/Fiber Electrode Interface -- 9.3 Charge Separation -- 9.3.1 Charges Separation Between Photoactive/Electron Transport Materials -- 9.3.2 Charge Separation Based on an Intermediate Layer -- 9.4 Interface and Device Performances -- 9.4.1 Interfaces in Different Device Structures -- 9.4.2 Interfacial Stability and the Influence on Solar Cell Performance -- 9.5 Interface of Functional Wearable Solar Cells -- 9.6 Interfaces for Encapsulation -- 9.6.1 Polymer Tubes -- 9.6.2 Gel Electrolytes -- 9.6.3 Polymer Coatings -- 9.7 Summary and Outlook -- References -- 10 Textile Solar Cells -- 10.1 Introduction -- 10.2 Textile Solar Cell Structures -- 10.2.1 Incorporation of Planar Solar Cells on Textile Substrate -- 10.2.2 Strip-Shaped Solar Cells -- 10.2.3 Textile Electrode -- 10.2.4 Textile Solar Cells Based on Fiber-Shaped Solar Cells -- 10.2.5 Interlaced Fiber Electrodes -- 10.3 Weaving Patterns and Incidence Angle for Textile Solar Cells -- 10.4 Mechanics and Breathability of Textile Solar Cells -- 10.5 Encapsulation Structure and Materials for Textile Solar Cells -- 10.6 Application of Textile Solar Cells -- 10.7 Summary and Perspectives -- References -- 11 Summary and Outlook -- 11.1 Introduction -- 11.2 Development of Planar Solar Cells for Wearable Applications -- 11.3 Performance Improvement of Fiber and Textile Solar Cells -- 11.4 Continuous Production of Fiber and Textile Solar Cells -- 11.5 Potential Applications of Fiber and Textile Solar Cells -- References -- Index.

Wearable Solar Cells Understand a groundbreaking new energy technology Solar energy is one of the most important paths to a sustainable future. In recent years, extensive research and development has begun to produce wearable solar cells, whose novel planar and fiber format gives them enormous flexibility and a wide range of potential uses. The possibility of a solar energy source that can be fitted to the human body promises to become an extraordinary tool for meeting various kinds of personal energy needs. Wearable Solar Cells: Mechanisms, Materials, and Devices serves as a comprehensive introduction to this cutting-edge technology and its applications. Recent research pointing towards fiber-format solar cells as a bold new frontier is summarized and explored. The result is an essential resource for both experienced researchers and newcomers to the field. Wearable Solar Cells readers will also find: Close coverage of integrated energy harvesting and storage devices Detailed discussion of dye-sensitized solar cells, polymer solar cells, perovskite solar cells, and more An authorial team with decades of combined research experience Wearable Solar Cells is ideal for materials scientists, polymer chemists, electrical engineers, solid-state physicists, and advanced students interested in these and related topics.

ISBN: 9783527838240Subjects--Topical Terms:

596792
Solar cells.

LC Class. No.: TK2960

Dewey Class. No.: 621.31244

Wearable solar cells = mechanisms, materials, and devices /
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245 0 0 $a Wearable solar cells $h [electronic resource] : $b mechanisms, materials, and devices / $c Hao Sun ... [et al.]
250 $a 1st ed.
260 $a Weinheim, Germany : $b Wiley-VCH, $c 2024.
300 $a 1 online resource (256 p.) : $b ill.
504 $a Includes bibliographical references and index.
505 0 $a About the Authors -- Preface -- 1 Introduction -- 1.1 Development of Wearable Solar Cells -- 1.2 Characteristics of Fiber-Shaped Solar Cells -- 1.3 Functionalization and Integration -- 1.4 Applications of Wearable Solar Cells -- References -- 2 Working Mechanisms of Solar Cells -- 2.1 Introduction -- 2.2 Working Mechanism and Efficiency Limitation for Solar Cells -- 2.2.1 Detailed Balance Limitation -- 2.2.2 Drift-Diffusion Model -- 2.2.3 Equivalent Circuit Model -- 2.3 Working Mechanism of Dye-Sensitized Solar Cells -- 2.4 Working Mechanism of Polymer Solar Cells -- 2.5 Working Mechanism of Perovskite Solar Cells -- 2.6 Comparison of Solar Cells for Flexible and Wearable Application -- 2.7 Conclusions -- References -- 3 Flexible Film Solar Cells -- 3.1 Overview of Flexible Film Solar Cells -- 3.2 Flexible Transparent Conductive Electrodes -- 3.2.1 Metal Oxides -- 3.2.2 Conductive Polymers -- 3.2.3 Carbon Nanomaterials -- 3.2.3.1 Graphene -- 3.2.3.2 Carbon Nanotube -- 3.3 Fabrication Techniques of Flexible Film Solar Cells -- 3.3.1 Spin Coating -- 3.3.2 Blade Coating -- 3.3.3 Slot-Die Coating -- 3.3.4 Screen Printing -- 3.3.5 Roll-to-Roll System -- 3.4 Flexible Organic Solar Cells -- 3.5 Flexible Dye-Sensitized Solar Cells -- 3.6 Flexible Perovskite Solar Cells -- 3.7 Summary and Perspective -- References -- 4 Flexible Fiber Electrodes -- 4.1 Introduction -- 4.2 Metal Wires -- 4.2.1 Titanium -- 4.2.2 Stainless Steel -- 4.2.3 Other Metals -- 4.3 Polymer Fibers -- 4.4 Carbon-Based Fiber -- 4.4.1 Carbon Fiber -- 4.4.2 Carbon Nanotube Fiber -- 4.4.3 Graphene Fiber -- 4.5 Functional Fibers -- 4.6 Summary and Perspectives -- References -- 5 Fiber-Shaped Dye-Sensitized Solar Cells -- 5.1 Introduction -- 5.2 Twisting Structure -- 5.2.1 Photoanode -- 5.2.2 Counter Electrode -- 5.2.3 Electrolyte -- 5.3 Coaxial Structure -- 5.4 Functionalization and Integration -- 5.4.1 Functional Fiber-Shaped DSSCs -- 5.4.2 Integrated Fiber-Shaped DSSCs -- 5.5 Summary and Prospects -- References -- 6 Fiber Polymer Solar Cells -- 6.1 Overview of Polymer Solar Cells -- 6.2 Overview of Fiber-Shaped Polymer Solar Cells -- 6.2.1 Fiber-Shaped Polymer Solar Cells with Twisting Structure -- 6.2.2 Fiber Polymer Solar Cells with a Coaxial Structure -- 6.3 Polymer Solar Cell Textiles -- 6.4 Summary and Perspective -- References -- 7 Fiber Perovskite Solar Cells -- 7.1 Introduction -- 7.2 Perovskite Photoactive Materials and Solar Cells -- 7.3 Deposition of Perovskite Layer on Fiber/Wire Surfaces -- 7.3.1 Perovskite Formation Strategies -- 7.3.2 Dip-Coating Process -- 7.3.3 Cathodic Electrodeposition -- 7.3.4 Thermal Evaporation -- 7.3.5 Electrode-Spinning -- 7.4 Charge Transport Layers for Fiber Perovskite Solar Cells -- 7.5 Electrode Materials for Fiber Perovskite Solar Cells -- 7.6 Stretchable and Wearable Fiber Perovskite Solar Cells -- 7.7 Summary and Perspectives: Challenges for Fiber Perovskite Solar Cells -- References -- 8 Fiber-Shaped Integrated Device -- 8.1 Overview of Integrated Device Based on Solar Cells -- 8.2 Overview of Fiber-Integrated Device Based on Solar Cells -- 8.2.1 Fiber-Shaped Integrated Device Based on Solar Cells and Supercapacitors -- 8.2.2 Fiber-Shaped Integrated Device Based on Solar Cell and Lithium-Ion Battery -- 8.2.3 Fiber Integrated Device Based on Nanogenerator and Solar Cell -- 8.2.4 Fiber-Based Integrated Textiles -- 8.3 Summary and Perspective -- References -- 9 Novel Interfaces in Wearable Solar Cells -- 9.1 Introduction -- 9.2 Interfacial Charge Transfer -- 9.2.1 Charge Transfer Within Fiber Electrode -- 9.2.2 Charge Transport at the Active Material/Fiber Electrode Interface -- 9.3 Charge Separation -- 9.3.1 Charges Separation Between Photoactive/Electron Transport Materials -- 9.3.2 Charge Separation Based on an Intermediate Layer -- 9.4 Interface and Device Performances -- 9.4.1 Interfaces in Different Device Structures -- 9.4.2 Interfacial Stability and the Influence on Solar Cell Performance -- 9.5 Interface of Functional Wearable Solar Cells -- 9.6 Interfaces for Encapsulation -- 9.6.1 Polymer Tubes -- 9.6.2 Gel Electrolytes -- 9.6.3 Polymer Coatings -- 9.7 Summary and Outlook -- References -- 10 Textile Solar Cells -- 10.1 Introduction -- 10.2 Textile Solar Cell Structures -- 10.2.1 Incorporation of Planar Solar Cells on Textile Substrate -- 10.2.2 Strip-Shaped Solar Cells -- 10.2.3 Textile Electrode -- 10.2.4 Textile Solar Cells Based on Fiber-Shaped Solar Cells -- 10.2.5 Interlaced Fiber Electrodes -- 10.3 Weaving Patterns and Incidence Angle for Textile Solar Cells -- 10.4 Mechanics and Breathability of Textile Solar Cells -- 10.5 Encapsulation Structure and Materials for Textile Solar Cells -- 10.6 Application of Textile Solar Cells -- 10.7 Summary and Perspectives -- References -- 11 Summary and Outlook -- 11.1 Introduction -- 11.2 Development of Planar Solar Cells for Wearable Applications -- 11.3 Performance Improvement of Fiber and Textile Solar Cells -- 11.4 Continuous Production of Fiber and Textile Solar Cells -- 11.5 Potential Applications of Fiber and Textile Solar Cells -- References -- Index.
520 $a Wearable Solar Cells Understand a groundbreaking new energy technology Solar energy is one of the most important paths to a sustainable future. In recent years, extensive research and development has begun to produce wearable solar cells, whose novel planar and fiber format gives them enormous flexibility and a wide range of potential uses. The possibility of a solar energy source that can be fitted to the human body promises to become an extraordinary tool for meeting various kinds of personal energy needs. Wearable Solar Cells: Mechanisms, Materials, and Devices serves as a comprehensive introduction to this cutting-edge technology and its applications. Recent research pointing towards fiber-format solar cells as a bold new frontier is summarized and explored. The result is an essential resource for both experienced researchers and newcomers to the field. Wearable Solar Cells readers will also find: Close coverage of integrated energy harvesting and storage devices Detailed discussion of dye-sensitized solar cells, polymer solar cells, perovskite solar cells, and more An authorial team with decades of combined research experience Wearable Solar Cells is ideal for materials scientists, polymer chemists, electrical engineers, solid-state physicists, and advanced students interested in these and related topics.
588 $a Online resource; title from PDF title page (John Wiley, viewed January 19, 2024)
650 0 $a Solar cells. $3 596792
650 0 $a Wearable technology. $3 1097625
700 1 $a Sun, Hao. $3 1499478
856 4 0 $u https://onlinelibrary.wiley.com/doi/book/10.1002/9783527838240