Design And Synthesis Of New Organic Semiconductors For Organic Solar Cells

Design and Synthesis of New Organic Semiconductors for Organic Solar Cells

Author : Xiaomei Ding

Publisher :

Page : 0 pages

File Size : 32,40 MB

Release : 2021

Category :

ISBN :

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Book Description

Molecular design and synthesis play critical roles in the development of organic semiconductors for organic photovoltaics (OPVs). This dissertation describes the design, synthesis, and characterization of three classes of organic semiconductors for OPVs: p-type semiconducting polymers, n-type semiconducting polymers, and non-fullerene small molecule acceptors. The relative merits of alternative building blocks and design strategies for organic semiconductors are investigated. Complex factors governing the underlying structure-property-processing-performance relationships are discussed in detail. The fundamentals of organic semiconductors and organic solar cells, state-of-the-art materials and devices, and challenges in the design and synthesis of materials are reviewed in Chapter 1. Chapter 2 discusses the strategy of selenophene substitution as a potential method to improve photovoltaic performance of the regular thiophene-based p-type semiconducting polymers. New selenophene-containing polymers were synthesized based on a widely used polymer, PBDB-T, where the original thiophene units at various side chain and backbone positions were substituted with selenophene. This study revealed the intramolecular and intermolecular interactions related with selenophene substitution, thus provided important guidelines in designing selenophene-containing polymers. Chapter 3 presents a comparative study of the alternating naphthalene diimide-thiophene copolymer, PNDIT-hd, and naphthalene diimide-selenophene copolymer, PNDIS-hd. The effects of selenophene substitution on the intrinsic and photovoltaic blend properties of n-type semiconducting naphthalene diimide-arylene copolymers with simple donor−acceptor architecture were investigated. This study demonstrated multiple advantages of selenophene substitution including enhancing light harvesting, formation of favorable morphology, and reducing charge recombination losses in all-polymer solar cell devices. Towards enhancing the intrinsic stability of small molecule acceptors, novel tridecacyclic ladder structure was designed and realized via Friedlander condensation reactions. The tridecacyclic ladder molecule acceptors (LMAs) described in Chapter 4 combined good solubility with enhanced stabilities and high photovoltaic performance. One of the new LMAs, LTX-4Cl, demonstrated a high PCE of 11.5% with high fill factor of 0.75. This study also unraveled the significant impact of side chains and halogenations on the molecular packing characteristics of the LMAs and the resulted photovoltaic performance. Finally, the results of the above studies are summarized in Chapter 5 and an outlook is given for future development of organic semiconductors and the organic photovoltaic technology.





Comprehensive Guide on Organic and Inorganic Solar Cells

Author : Md. Akhtaruzzaman

Publisher : Academic Press

Page : 420 pages

File Size : 26,46 MB

Release : 2021-11-18

Category : Science

ISBN : 0323858074

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Book Description

Comprehensive Guide on Organic and Inorganic Solar Cells: Fundamental Concepts to Fabrication Methods is a one-stop, authoritative resource on all types of inorganic, organic and hybrid solar cells, including their theoretical background and the practical knowledge required for fabrication. With chapters rigorously dedicated to a particular type of solar cell, each subchapter takes a detailed look at synthesis recipes, deposition techniques, materials properties and their influence on solar cell performance, including advanced characterization methods with materials selection and experimental techniques. By addressing the evolution of solar cell technologies, second generation thin-film photovoltaics, organic solar cells, and finally, the latest hybrid organic-inorganic approaches, this book benefits students and researchers in solar cell technology to understand the similarities, differences, benefits and challenges of each device. Introduces the basic concepts of different photovoltaic cells to audiences from a wide variety of academic backgrounds Consists of working principles of a particular category of solar technology followed by dissection of every component within the architecture Crucial experimental procedures for the fabrication of solar cell devices are introduced, aiding picture practical application of the technology



Elementary Processes in Organic Photovoltaics

Author : Karl Leo

Publisher : Springer

Page : 423 pages

File Size : 19,40 MB

Release : 2016-12-20

Category : Technology & Engineering

ISBN : 3319283383

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Book Description

This volume presents the results of a multi-year research programme funded by the Deutsche Forschungsgemeinschaft (German Research Council), which explains how organic solar cells work. In this new promising photovoltaic technology, carbon-based materials are deposited by low-cost methods onto flexible substrates, thus allowing devices which open completely new applications like transparent coatings for building, solar cells integrated into clothing or packages, and many more. The investigation of organic solar cells is an interdisciplinary topic, covering physics, chemistry and engineering. The different chapters address topics ranging from the synthesis of new organic materials, to the characterization of the elementary processes such as exciton transport and separation, and the principles of highly efficient device design. /div



Design and Synthesis of Organic P-type Semiconductors

Author : Javier Urieta Mora

Publisher :

Page : pages

File Size : 15,30 MB

Release : 2020

Category :

ISBN :

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Book Description

Perovskite solar cells (PSCs) have become one of the most promising technologies for searching clean alternatives to fossil fuels in order to achieve a sustainable society taking advantage of the unlimited solar energy. In a few years of research, PSCs have reached promising efficiencies up to 25% which are comparable to the commercial silicon-based cells. As a means to improve the efficiencies and the stability of PSCs, the research has been closely connected to the design of highly efficient charge selective layers such as electron (ETMs) and hole-transporting materials (HTMs). Although the charge selective layer could present either inorganic or polymeric structures, organic-based small molecules have been demonstrated as the most promising alternative for the preparation of highly efficient PSCs...



Synthesis and Characterisation of Non-Fullerene Electron Acceptors for Organic Photovoltaics

Author : Sarah Holliday

Publisher : Springer

Page : 119 pages

File Size : 24,97 MB

Release : 2018-03-22

Category : Technology & Engineering

ISBN : 3319770918

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Book Description

This book reports on the design, synthesis and characterization of new small molecule electron acceptors for polymer solar cells. Starting with a detailed introduction to the science behind polymer solar cells, the author then goes on to review the challenges and advances made in developing non-fullerene acceptors so far. In the main body of the book, the author describes the design principles and synthetic strategy for a new family of acceptors, including detailed synthetic procedures and molecular modeling data used to predict physical properties. An indepth characterization of the photovoltaic performance, with transient absorption spectroscopy (TAS), photo-induced charge extraction, and grazing incidence X-ray diffraction (GIXRD) is also included, and the author uses this data to relate material properties and device performance. This book provides a useful overview for researchers beginning a project in this or related areas.



Design, Synthesis and Characterization of New Organic Semi-conductors for Photovoltaics

Author : Chunxiang Chen

Publisher :

Page : 225 pages

File Size : 19,58 MB

Release : 2016

Category :

ISBN :

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Book Description

Organic solar cells appear as a promising technology to meet future energy requirements, owing to their low production costs, their great flexibility and their ability to be integrated into light devices. Currently, they exhibit modest performances in photoconversion, thus new active molecules with optimized structural properties need to be developed. This work comes in that aim: on the basis of theoretical calculations with density functional theory, new organic semiconductors have been designed and synthesized. For this, the more economical and cleaner syntheses techniques have been employed. Thus, the coupling of the benzothiadiazole with thiophene carboxhaldehyde via direct heteroarylation without additive nor ligand is performed with success for the first time. According to green chemistry techniques, five molecules are thus isolated in only two steps. The study of their optical and electronic properties by means of different spectroscopic techniques (UV/vis, fluorescence) and electrochemistry, of their thermal properties, and of their ability to self-organize have revealed their promising abilities for use in organic photovoltaics. A series of small molecules based on dithienosilole (DTS) core have also been designed via DFT computations. The calculations show their considerable low bandgap. Their syntheses have been conducted. It anticipates their promising potential for organic photovoltaic applications. Finally, a purely theoretical work has been completed on molecules derived from boron subphthalocyanines. The calculations predict interesting electronic properties for these new materials that may lead to promising performances in organic photovoltaics, paving the way for innovative materials.





Organic Solar Cells

Author : Masahiro Hiramoto

Publisher : Springer Nature

Page : 271 pages

File Size : 37,31 MB

Release : 2020-12-16

Category : Science

ISBN : 981159113X

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Book Description

This book focuses on the essential scientific ideas and breakthroughs in the last three decades for organic solar cells that have realized practical applications. The motivation for publishing this book is to explain how those essential ideas have arisen and to provide a foundation for future progress by target readers—students, novices in the field, and scientists with expertise. The main topics covered in the book include the fundamental principles and history of organic solar cells, blended junction, nanostructure control, photocurrent generation, photovoltage generation, doping, practical organic solar cells, and possible ideas for the future. The editors enthusiastically anticipate the vigorous development of the field of organic solar cells by young scientists of the next generation.