Efficient Low Cost Organic Inorganic Hybrid Solar Cells Via Materials Interface And Device Structure Design

Efficient, Low-cost Organic-inorganic Hybrid Solar Cells Via Materials, Interface, and Device Structure Design

Author : Leize Zhu

Publisher :

Page : 158 pages

File Size : 42,8 MB

Release : 2015

Category :

ISBN :

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Book Description

The concept of the inter-mixing of donor-acceptor materials in a single layer revolutionized the solar cell technology. The commonly used materials are lack of strong absorption in the near-infrared region. Pyrite FeS2 is a promising material because of its high absorption in the range of 300-1100 nm. In addition, it is abundant, non-toxic and has long term stability as well as the extraordinary electrical properties. Pyrite FeS2 hierarchical microparticles consisting of cubic crystals with defined {100} faceted textures were synthesized using a hydrothermal method with the presence of ethylenediamine and polyvinylpyrrolidone. Short, branched, and chromosome-like pyrite FeS2 rods with a diameter of 10 nm and a length of 20-30 nm as well as quasi-cubic NC agglomerates with a size of 200 nm were obtained by hot injection methods. The growth of anisotropic iron pyrite nanocrystals (NCs) follows the oriented attachment mechanism at the early growth stage of the hot injection synthesis followed by Ostwald ripening mechanism as time progresses. In the fabrication of inverted organic-inorganic hybrid solar cells with pyrite NCs, we realize an effective hole transport layer (HTL) improves the performance of the solar cells and provides additional protection against water and oxygen. The HTL serves as a selective contact by extracting holes while concurrently blocking electrons, thereby reducing dark (leakage) current and enhancing the open circuit voltage (VOC), short circuit current (JSC), and fill factor (FF). The inverted hybrid CdSe -polymer solar cells with the poly (3, 4-ethylenedioxythiophene)-poly (styrenesulfonate) (PEDOT:PSS)/MoO3 dual HTLs showed superior performance over those with a single HTL of PEDOT:PSS or MoO3. The enhancement in electron transport in the active layer, the improvement in hole extraction at active layer/anode interface as well as a prevention of leakage current account for the enhancement in the efficiency of the solar cells with dual HTLs. In order to achieve an efficient charge separation and correlates the film morphology and grain size with the device performance. A two-step solution process with thermal plus solvent vapor-assisted thermal annealing was developed for the fabrication of binary Pb-Sn triiodine perovskite films. This was an effective method to make films with large and smooth grains. Using this new process to control and manipulate film morphology, grain size, and especially the distribution of metal cations in binary metal perovskite layers, opens an avenue to grow perovskite materials with desired properties to enhance device performance.



Comprehensive Guide on Organic and Inorganic Solar Cells

Author : Md. Akhtaruzzaman

Publisher : Academic Press

Page : 420 pages

File Size : 48,20 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



Organic Solar Cells

Author : Wallace C.H. Choy

Publisher : Springer Science & Business Media

Page : 268 pages

File Size : 42,47 MB

Release : 2012-11-19

Category : Technology & Engineering

ISBN : 1447148231

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Book Description

Organic solar cells have emerged as new promising photovoltaic devices due to their potential applications in large area, printable and flexible solar panels. Organic Solar Cells: Materials and Device Physics offers an updated review on the topics covering the synthesis, properties and applications of new materials for various critical roles in devices from electrodes, interface and carrier transport materials, to the active layer composed of donors and acceptors. Addressing the important device physics issues of carrier and exciton dynamics and interface stability and novel light trapping structures, the potential for hybrid organic solar cells to provide high efficiency solar cells is examined and discussed in detail. Specific chapters covers key areas including: Latest research and designs for highly effective polymer donors/acceptors and interface materials Synthesis and application of highly transparent and conductive graphene Exciton and charge dynamics for in-depth understanding of the mechanism underlying organic solar cells. New potentials and emerging functionalities of plasmonic effects in OSCs Interface Degradation Mechanisms in organic photovoltaics improving the entire device lifetime Device architecture and operation mechanism of organic/ inorganic hybrid solar cells for next generation of high performance photovoltaics This reference can be practically and theoretically applied by senior undergraduates, postgraduates, engineers, scientists, researchers, and project managers with some fundamental knowledge in organic and inorganic semiconductor materials or devices.



Organic, Inorganic and Hybrid Solar Cells

Author : Ching-Fuh Lin

Publisher : John Wiley & Sons

Page : 278 pages

File Size : 11,12 MB

Release : 2012-09-04

Category : Technology & Engineering

ISBN : 1118168534

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Book Description

Provides detailed descriptions of organic, inorganic, and hybrid solar cells and the latest developments in the quest to produce low-cost, long-lasting solar cells What will it take to transform solar energy from an important alternative source to a truly competitive and, perhaps, dominant one? Lower cost and longer life. Organic, Inorganic, and Hybrid Solar Cells: Principles and Practice provides in-depth information on the three types of existing solar cells, giving readers a good foundation for evaluating the technologies with the most potential for competing with energy from fossil fuels. Featuring a Foreword written by Nobel Peace Prize co-winner Dr. Woodrow W. Clark, this timely and comprehensive guide: Focuses on the realization of low-cost and long-life solar cells study and applications Reviews the properties of inorganic materials, primarily semiconductors Explores the electrical and optical properties of organic materials Discusses the interfacing of organic and inorganic materials: compatibility of deposition, the adhesion problem, formation of surface states, and band-level realignment Provides a detailed description of organic-inorganic hybrid solar cells, from the basic principles to practical devices Introduces a sandwiched structure for hybrid solar cells, which combines a far lower production cost than inorganic solar cells while stabilizing and extending the life of organic material far beyond that of organic solar cells Organic, Inorganic, and Hybrid Solar Cells: Principles and Practice is a first-rate professional reference for electrical engineers and important supplemental reading for graduate students in related areas of study.



Organic Solar Cells

Author : Wallace C.H. Choy

Publisher : Springer

Page : 266 pages

File Size : 37,24 MB

Release : 2012-11-17

Category : Technology & Engineering

ISBN : 9781447148241

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Book Description

Organic solar cells have emerged as new promising photovoltaic devices due to their potential applications in large area, printable and flexible solar panels. Organic Solar Cells: Materials and Device Physics offers an updated review on the topics covering the synthesis, properties and applications of new materials for various critical roles in devices from electrodes, interface and carrier transport materials, to the active layer composed of donors and acceptors. Addressing the important device physics issues of carrier and exciton dynamics and interface stability and novel light trapping structures, the potential for hybrid organic solar cells to provide high efficiency solar cells is examined and discussed in detail. Specific chapters covers key areas including: Latest research and designs for highly effective polymer donors/acceptors and interface materials Synthesis and application of highly transparent and conductive graphene Exciton and charge dynamics for in-depth understanding of the mechanism underlying organic solar cells. New potentials and emerging functionalities of plasmonic effects in OSCs Interface Degradation Mechanisms in organic photovoltaics improving the entire device lifetime Device architecture and operation mechanism of organic/ inorganic hybrid solar cells for next generation of high performance photovoltaics This reference can be practically and theoretically applied by senior undergraduates, postgraduates, engineers, scientists, researchers, and project managers with some fundamental knowledge in organic and inorganic semiconductor materials or devices.



Printable Solar Cells

Author : Nurdan Demirci Sankir

Publisher : John Wiley & Sons

Page : 490 pages

File Size : 39,31 MB

Release : 2017-04-25

Category : Science

ISBN : 1119283744

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Book Description

Printable Solar Cells The book brings together the recent advances, new and cutting edge materials from solution process and manufacturing techniques that are the key to making photovoltaic devices more efficient and inexpensive. Printable Solar Cells provides an overall view of the new and highly promising materials and thin film deposition techniques for printable solar cell applications. The book is organized in four parts. Organic and inorganic hybrid materials and solar cell manufacturing techniques are covered in Part I. Part II is devoted to organic materials and processing technologies like spray coating. This part also demonstrates the key features of the interface engineering for the printable organic solar cells. The main focus of Part III is the perovskite solar cells, which is a new and promising family of the photovoltaic applications. Finally, inorganic materials and solution based thin film formation methods using these materials for printable solar cell application is discussed in Part IV. Audience The book will be of interest to a multidisciplinary group of fields, in industry and academia, including physics, chemistry, materials science, biochemical engineering, optoelectronic information, photovoltaic and renewable energy engineering, electrical engineering, mechanical and manufacturing engineering.



Organic Solar Cells

Author : Qiquan Qiao

Publisher : CRC Press

Page : 510 pages

File Size : 19,98 MB

Release : 2017-12-19

Category : Science

ISBN : 1351831216

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Book Description

Current energy consumption mainly depends on fossil fuels that are limited and can cause environmental issues such as greenhouse gas emissions and global warming. These factors have stimulated the search for alternate, clean, and renewable energy sources. Solar cells are some of the most promising clean and readily available energy sources. Plus, the successful utilization of solar energy can help reduce the dependence on fossil fuels. Recently, organic solar cells have gained extensive attention as a next-generation photovoltaic technology due to their light weight, mechanical flexibility, and solution-based cost-effective processing. Organic Solar Cells: Materials, Devices, Interfaces, and Modeling provides an in-depth understanding of the current state of the art of organic solar cell technology. Encompassing the full spectrum of organic solar cell materials, modeling and simulation, and device physics and engineering, this comprehensive text: Discusses active layer, interfacial, and transparent electrode materials Explains how to relate synthesis parameters to morphology of the photoactive layer using molecular dynamics simulations Offers insight into coupling morphology and interfaces with charge transport in organic solar cells Explores photoexcited carrier dynamics, defect states, interface engineering, and nanophase separation Covers inorganic–organic hybrids, tandem structure, and graphene-based polymer solar cells Organic Solar Cells: Materials, Devices, Interfaces, and Modeling makes an ideal reference for scientists and engineers as well as researchers and students entering the field from broad disciplines including chemistry, material science and engineering, physics, nanotechnology, nanoscience, and electrical engineering.



Hybrid Organic-Inorganic Perovskites

Author : Li Wei

Publisher : John Wiley & Sons

Page : 290 pages

File Size : 15,84 MB

Release : 2020-10-19

Category : Science

ISBN : 3527344314

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Book Description

Hybrid organic-inorganic perovskites (HOIPs) have attracted substantial interest due to their chemical variability, structural diversity and favorable physical properties the past decade. This materials class encompasses other important families such as formates, azides, dicyanamides, cyanides and dicyanometallates. The book summarizes the chemical variability and structural diversity of all known hybrid organic-inorganic perovskites subclasses including halides, azides, formates, dicyanamides, cyanides and dicyanometallates. It also presents a comprehensive account of their intriguing physical properties, including photovoltaic, optoelectronic, dielectric, magnetic, ferroelectric, ferroelastic and multiferroic properties. Moreover, the current challenges and future opportunities in this exciting field are also been discussed. This timely book shows the readers a complete landscape of hybrid organic-inorganic pervoskites and associated multifuctionalities.



Organic and Hybrid Solar Cells

Author : Hui Huang

Publisher : Springer

Page : 342 pages

File Size : 34,7 MB

Release : 2014-11-25

Category : Technology & Engineering

ISBN : 3319108557

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Book Description

This book delivers a comprehensive evaluation of organic and hybrid solar cells and identifies their fundamental principles and numerous applications. Great attention is given to the charge transport mechanism, donor and acceptor materials, interfacial materials, alternative electrodes, device engineering and physics, and device stability. The authors provide an industrial perspective on the future of photovoltaic technologies.



Development of Efficient, Stable Organic-inorganic Hybrid Solar Cells

Author : Baby Reeja Jayan

Publisher :

Page : 374 pages

File Size : 16,41 MB

Release : 2012

Category :

ISBN :

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Book Description

Developing a fundamental understanding of photocurrent generation processes at organic-inorganic interfaces is critical for improving hybrid solar cell efficiency and stability. This dissertation explores processes at these interfaces by combining data from photovoltaic device performance tests with characterization experiments conducted directly on the device. The dissertation initially focuses on exploring how morphologically and chemically modifying the organic-inorganic interface, between poly(3-hexylthiophene) (P3HT) as the electron donating light absorbing polymer and titanium dioxide (TiO2) as the electron acceptor, can result in stable and efficient hybrid solar cells. Given the heterogeneity which exists within bulk heterojunction devices, stable interfacial prototypes with well-defined interfaces between bilayers of TiO2 and P3HT were developed, which demonstrate tunable efficiencies ranging from 0.01 to 1.6 %. Stability of these devices was improved by using Cu-based hole collecting electrodes. Efficiency values were tailored by changing TiO2 morphology and by introducing sulfide layers like antimony trisulfide (Sb2S3) at the P3HT-TiO2 interface. The simple bilayer device design developed in this dissertation provides an opportunity to study the precise role played by nanostructured TiO2 surfaces and interfacial modifiers using a host of characterization techniques directly on a working device. Examples introduced in this dissertation include X-ray photoelectron spectroscopy (XPS) depth profiling analysis of metal-P3HT and P3HT-TiO2 interfaces and Raman analysis of bonding between interface modifiers like Sb2S3 and P3HT. The incompatibility of TiO2 with P3HT was significantly reduced by using P3HT derivatives with -COOH moieties at the extremity of a polymer chain. The role of functional groups like -COOH in interfacial charge separation phenomena was studied by comparing the photovoltaic behavior of these devices with those based on pristine P3HT. Finally, for hybrid solar cells discussed in this dissertation to become commercially viable, high temperature processing steps of the inorganic TiO2 layer must be avoided. Accordingly, this dissertation demonstrates the novel use of electromagnetic radiation in the form of microwaves to catalyze growth of anatase TiO2 thin films at temperatures as low as 150 °C, which is significantly lower than that used in conventional techniques. This low temperature process can be adapted to a variety of substrates and can produce patterned films. Accordingly, the ability to fabricate TiO2 thin films by the microwave process at low temperatures is anticipated to have a significant impact in processing devices based on plastics.