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Advances in the Photovoltaic Field through Light Manipulation

Buch | Hardcover
110 Seiten
2022 | Unabridged edition
Cambridge Scholars Publishing (Verlag)
978-1-5275-8263-7 (ISBN)
78,55 inkl. MwSt
Developments in instruments and digitalization have today produced a need for uniformity in science, which has largely eliminated the innovative element of scientific research. The sun’s energy can be harnessed for many applications by converting energy from one form to another.
Developments in instruments and digitalization have today produced a need for uniformity in science, which has largely eliminated the innovative element of scientific research.The sun’s energy can be harnessed for many applications by converting energy from one form to another. The most important of these are generating electricity with photovoltaic cells and heating water. Today, only around 1% of global renewable energy comes from solar technologies. It is hard to believe there is such a powerful source of energy as the sun without us being able to use it more efficiently. This book presents and explains the significance and importance of light spectra and intensity manipulation through innovation for enhanced electricity production by solar devices. This book sincerely believes that we can move forward in providing better use of solar energy by understanding additional light effects caused by the realistic existence of light manipulation.

Dr Ivana Validžić is a Research Professor at the Vinča Institute of Nuclear Sciences of the National Institute of the Republic of Serbia. After graduating from the Faculty of Physical Chemistry at the University of Belgrade, she obtained her PhD in 2004 at Utrecht University’s Van Hoff Laboratory, the Netherlands. She is the author of more than 40 peer-reviewed publications and the book Reverzibilni sistemi na nanometarskoj skali (2005). Her research interests include the synthesis of Sb2S3 semiconductor, the design of new solar cells based on non-doped and doped semiconductor Sb2S3, and the development of optics to improve the photovoltaic response of solar cells generally, through light manipulation.

Erscheinungsdatum
Verlagsort Newcastle upon Tyne
Sprache englisch
Maße 148 x 212 mm
Themenwelt Naturwissenschaften Physik / Astronomie Angewandte Physik
Technik Elektrotechnik / Energietechnik
ISBN-10 1-5275-8263-9 / 1527582639
ISBN-13 978-1-5275-8263-7 / 9781527582637
Zustand Neuware
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