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Hahn / Wang / Mahmoudi | Composites-Based Perovskite Solar Cells | Buch | 978-3-527-35293-7 | sack.de

Buch, Englisch, 256 Seiten, Format (B × H): 174 mm x 246 mm, Gewicht: 638 g

Hahn / Wang / Mahmoudi

Composites-Based Perovskite Solar Cells


Buch, Englisch, 256 Seiten, Format (B × H): 174 mm x 246 mm, Gewicht: 638 g

ISBN: 978-3-527-35293-7
Verlag: Wiley-VCH GmbH

An introduction to a key tool in the cultivation of sustainable energy sources

Composite materials combine two or more materials with distinct chemical properties. These composites can improve on design flexibility, specialization of properties, chemical resistance, and other advantages relative to traditional materials. Perovskite solar cells based on composite materials might therefore acquire the capacity to solve a range of critical issues.

Composites-Based Perovskite Solar Cells offers an overview of these cells, their properties, and their applications. Beginning with an introduction to the fundamental principles of perovskite solar cell construction, the book surveys different configurations, stability issues, and much more. The result is a one-stop shop for anyone looking to understand these potentially critical tools in the fight for a sustainable energy grid.

Readers will also find: - Methods for fabricating perovskite-based solar cells
- Detailed discussion of Pb-perovskites and Pb-free perovskites, composites-based materials in tandem solar cells, and many more
- A unique perspective from which to revisit approaches developed in the community of materials scientists

Composites-Based Perovskite Solar Cells is ideal for surface physicists and chemists, solid state physicists and chemists, electrical engineers, and materials scientists of all kinds.
Hahn / Wang / Mahmoudi Composites-Based Perovskite Solar Cells jetzt bestellen!

Autoren/Hrsg.

Hahn, Yoon-Bong
Wang, Yousheng
Mahmoudi, Tahmineh

Fachgebiete

Weitere Infos & Material

1. INTRODUCTION

1.1 Need to develop composites-based perovskite solar cells.

1.2 Fabrication strategy for composites-based perovskite solar cells

References

 

2. HYBRID PEROVSKITES AND SOLAR CELLS

2.1 Perovskite materials

2.2 Perovskite solar cells

2.3 Limitations and improvements of energy conversion in perovskite solar cells

References

 

3. FUNDAMENTALS AND BENEFITS OF COMPOSITE FUNCTIONAL MATERIALS

3.1 Introduction to composite functional materials

3.2 Development of composite-perovskite solar cells

References

 

4. STABILITY AND EFFICIENCY ISSUES OF PEROVSKITE MATERIALS AND DEVICES

4.1 Materials instability

4.2 Devices heterointerface instability

4.3 Solutions for instability problems

References

 

5 COMPOSITE-BASED CHARGE-TRANSPORT AND INTERFACIAL MATERIALS

5.1 Organic based composites

5.2 Inorganic based composites with metal and metal oxides

5.3 Carbon-based composites

References

 

6. COMPOSITE-BASED PB-PEROVSKITE MATERIALS AS ABSORBERS

6.1 Organic additives-based perovskite composites

6.2 Inorganic additives-based perovskite composites

6.3 Low-dimensional (LD)/three-dimensional (3D) heterostructure perovskite composites

6.4 Quantum dot additives-based perovskite composites

6.5 Reduced film strain by composites-based perovskites

References

 

7 COMPOSITES-BASED PB-FREE PEROVSKITE MATERIALS AS ABSORBERS

7.1 Inorganic additives-based perovskite composites

7.2 Organic additives-based perovskite composites

7.3 Carbon additives-based perovskite composites

References

 

8 COMPOSITES-BASED MATERIALS IN TANDEM SOLAR CELLS

8.1 Introduction

8.2 Configuration of perovskite-based tandems

8.3 Perovskite alloy-based composites as absorbers

8.4 Additives-based perovskite composites as absorbers

8.5 Composites-based interconnection layers

8.6 Composites-based charge transport layers

8.7 Composites-based interfacial layers in tandems

References

 

9 PROSPECTS FOR COMMERCIALIZATION OF PEROVSKITE SOLAR CELLS

9.1 Introduction to the current status of perovskite solar cells

9.2 Solutions to stability issues

9.3 Upscaling, commercialization and challenges

9.4 Status of solar modules production

References

 

10 CHARACTERIZATION METHODS FOR COMPOSITE-BASED PEROVSKITE SOLAR CELLS

10.1 Composite-based perovskite films characterization

10.2 Devices Characterization

References

 

11 PERSPECTIVES AND FUTURE WORK OF COMPOSITES-BASED PEROVSKITE SOLAR CELLS

11.1 Perspectives of composites-based PSCs

11.2 Future work for composites-based PSCs

References

Yoon-Bong Hahn is a Regents Professor of Jeonbuk National University (JBNU), Fellow of the Korea Academy of Science and Technology (KAST), Fellow of the American Ceramic Society (ACerS), and Fellow of the International Association of Advanced Materials (IAAM). He joined JBNU in 1991, prior to which he worked for LG Metals Research Center as a principal scientist for 1988-1991 after he received his Ph.D. in Metallurgical Engineering from University of Utah in 1988. His research interest is synthesis of metal, metal oxide, graphene and functional composites, and their applications for solar cells, chemical and biological sensors, and display devices. He holds 20 patents, published over 340 SCI papers, made two technology transfers, authored/edited 7 books, delivered over 150 invited lectures at numerous international symposiums, and received numerous scientific awards.

 

Yousheng Wang received his M.S. and Ph.D. degree in Semiconductor and Chemical Engineering from Jeonbuk National University in February 2016 and 2019, respectively. Since Mar. 2019, he was a postdoctoral fellow at Advanced Nano-Material Processing Laboratory (AMPL), Jeonbuk National University, Korea. Then, he joined Institute of New Energy Technology, College of Information Science and Technology, Jinan University, China as an associate professor. His research interest is development of hybrid perovskite composites and their applications for next-generation single-junction and tandem solar cells.

 

Tahmineh Mahmoudi received her B.S. in Applied Chemistry and M.S. in Nanoscience and Nanotechnology from Khaje Nasir Toosi University of Technology in 2005 and University of Kashan in 2008, respectively. After she received her Ph.D. in Semiconductor and Chemical Engineering from the Jeonbuk National University, Korea in 2015, she joined Advanced Nano-Materials Processing Laboratory (AMPL), Jeonbuk National University (JBNU) as a research scientist. Her research interests focus on perovskite and hybrid solar cells, advanced materials such as carbon-based materials, colloidal inks, nanomaterials, quantum dots and semiconductors.

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