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Perovskite solar cellsprinciple, mat...

Chen, Peter.

Perovskite solar cellsprinciple, materials and devices /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Perovskite solar cells/ edited by Eric Wei-Guang Diau, Peter Chao-Yu Chen.
其他題名:	principle, materials and devices /
其他作者:	Chen, Peter.
出版者:	Singapore :World Scientific, : c2018.,
版本:	1st ed.
面頁冊數:	1 online resource (245 p.) :ill. :
附註:	Title from PDF title page (viewed September 11, 2017)
提要註:	"Energy and climate change are two of the most critical issues nowadays. And these two topics are also correlated to each other. The fossil fuels are the main energy supplies that have been used in modern history since industrial revolution. The impact of CO2 emission has been a major concern for its effect on global warming and other consequences. In addition, fossil fuels are not unlimited. Due to the increasing demands for energy supplies, alternative renewable, sustainable, environmentally friendly energy resources are desirable. Solar energy is an unlimited, clean, and renewable energy source, which can be considered to replace the energy supply of fossil fuel. The silicon solar cell is one of the dominant photovoltaic technologies currently, which converting sunlight directly into electric power with around 20% efficiency. This technique was been widely used in mainstream solar energy applications for decades, though the relatively energy-demanding production process remained challnges to be resolved. Recently, emerging photovoltaic technologies such as organometal halide hybrid perovskite solar cell has attracted tremendous attention due to their promising power conversion efficiencies (over 22%) and ease of fabrication. Their progress roodmap is unprecedented in photovoltaic history from material development and efficiency advancement perspective. Beyond the rapid progress achieved in the last few years, it is expected that this novel technology would make impact on the future solar cell market providing the long-term stability and Pb content issue are addressed. These challenges rely on the better understanding of materials and device function principles. The scope of this theme book is to provide a collection on the recent investigations from fundamental process, materials development to device optimization for perovskite solar cells."--Publisher's website.
標題:	Electronic books. -
電子資源:	http://www.worldscientific.com/worldscibooks/10.1142/10503#t=toc
ISBN:	9789813222526

Perovskite solar cellsprinciple, materials and devices /
Perovskite solar cellsprinciple, materials and devices /[electronic resource] :edited by Eric Wei-Guang Diau, Peter Chao-Yu Chen. - 1st ed. - Singapore :World Scientific,c2018. - 1 online resource (245 p.) :ill. - Series on chemistry, energy and the environment ;vol. 1. - Series on chemistry, energy and the environment ;v. 1.

Title from PDF title page (viewed September 11, 2017)

Includes bibliographical references and index.

"Energy and climate change are two of the most critical issues nowadays. And these two topics are also correlated to each other. The fossil fuels are the main energy supplies that have been used in modern history since industrial revolution. The impact of CO2 emission has been a major concern for its effect on global warming and other consequences. In addition, fossil fuels are not unlimited. Due to the increasing demands for energy supplies, alternative renewable, sustainable, environmentally friendly energy resources are desirable. Solar energy is an unlimited, clean, and renewable energy source, which can be considered to replace the energy supply of fossil fuel. The silicon solar cell is one of the dominant photovoltaic technologies currently, which converting sunlight directly into electric power with around 20% efficiency. This technique was been widely used in mainstream solar energy applications for decades, though the relatively energy-demanding production process remained challnges to be resolved. Recently, emerging photovoltaic technologies such as organometal halide hybrid perovskite solar cell has attracted tremendous attention due to their promising power conversion efficiencies (over 22%) and ease of fabrication. Their progress roodmap is unprecedented in photovoltaic history from material development and efficiency advancement perspective. Beyond the rapid progress achieved in the last few years, it is expected that this novel technology would make impact on the future solar cell market providing the long-term stability and Pb content issue are addressed. These challenges rely on the better understanding of materials and device function principles. The scope of this theme book is to provide a collection on the recent investigations from fundamental process, materials development to device optimization for perovskite solar cells."--Publisher's website.

Mode of access: World Wide Web.

ISBN: 9789813222526Subjects--Topical Terms:

334297
Electronic books.

LC Class. No.: TK2960 / .P37 2018

Dewey Class. No.: 621.31244

Perovskite solar cellsprinciple, materials and devices /
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082 0 4 $a 621.31244 $2 23
245 0 0 $a Perovskite solar cells $h [electronic resource] : $b principle, materials and devices / $c edited by Eric Wei-Guang Diau, Peter Chao-Yu Chen.
250 $a 1st ed.
260 $a Singapore : $b World Scientific, $c c2018.
300 $a 1 online resource (245 p.) : $b ill.
490 1 $a Series on chemistry, energy and the environment ; $v vol. 1
500 $a Title from PDF title page (viewed September 11, 2017)
504 $a Includes bibliographical references and index.
520 $a "Energy and climate change are two of the most critical issues nowadays. And these two topics are also correlated to each other. The fossil fuels are the main energy supplies that have been used in modern history since industrial revolution. The impact of CO2 emission has been a major concern for its effect on global warming and other consequences. In addition, fossil fuels are not unlimited. Due to the increasing demands for energy supplies, alternative renewable, sustainable, environmentally friendly energy resources are desirable. Solar energy is an unlimited, clean, and renewable energy source, which can be considered to replace the energy supply of fossil fuel. The silicon solar cell is one of the dominant photovoltaic technologies currently, which converting sunlight directly into electric power with around 20% efficiency. This technique was been widely used in mainstream solar energy applications for decades, though the relatively energy-demanding production process remained challnges to be resolved. Recently, emerging photovoltaic technologies such as organometal halide hybrid perovskite solar cell has attracted tremendous attention due to their promising power conversion efficiencies (over 22%) and ease of fabrication. Their progress roodmap is unprecedented in photovoltaic history from material development and efficiency advancement perspective. Beyond the rapid progress achieved in the last few years, it is expected that this novel technology would make impact on the future solar cell market providing the long-term stability and Pb content issue are addressed. These challenges rely on the better understanding of materials and device function principles. The scope of this theme book is to provide a collection on the recent investigations from fundamental process, materials development to device optimization for perovskite solar cells."--Publisher's website.
538 $a Mode of access: World Wide Web.
650 0 $a Electronic books. $3 334297
650 0 $a Perovskite. $3 436002
650 0 $a Photovoltaic cells $x Materials. $3 382362
650 0 $a Solar cells $x Materials. $3 382361
700 1 $a Chen, Peter. $3 436000
700 1 $a Diau, Eric. $3 435999
830 0 $a Series on chemistry, energy and the environment ; $v v. 1 $3 436001
856 4 0 $u http://www.worldscientific.com/worldscibooks/10.1142/10503#t=toc

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