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Sustainable Photovoltaics
Date Issued
01-01-2020
Author(s)
Ginley, David
Ager, Joel
Agrawal, Rakesh
Alam, Muhammad A.
Arora, Brij Mohan
Avasthi, S.
Basak, Durga
Bhargava, Parag
Biswas, Pratim
Bora, Birinchi
Braunecker, Wade A.
Buonassisi, Tonio
Dhage, Sanjay
Dhere, Neelkanth
Garner, Sean
Hu, Xianyi
Indian Institute of Technology, Madras
Kabra, Dinesh
Kavaipatti, Balasubramaniam
Kazmerski, Lawrence
Kottantharayil, Anil
Kumar, Rajesh
Lo, Cynthia
Mani, Monto
Nair, Pradeep R.
Narsamma, Lakshmi
Olson, Dana C.
Pal, Amlan J.
Raghavan, Srinivasan
Ramamurthy, Praveen
Sarada, Bulusu
Sarkar, Shaibal
Sastry, O. S.
Sridhar, Harshid
Tamizmani, Govisami
Urban, Jeffrey
van Hest, Maikel
Vasi, Juzer
Wang, Yanping
Wu, Yue
Abstract
This chapter covers the largest set of projects in SERIIUS that can be viewed overall as having three distinct themes. First is the development of new low-capital thin-film photovoltaic (PV) technologies by high-throughput manufacturing processes with a focus on solution-based roll-to-roll processing. This effort was highly integrated with the development of thin glass substrates and packaging from Corning, and focused on absorbers made from CuInGaSe2, CuZnSnSeS, organic molecules such as fluorinated polymers, perovskite solar cells based on methyl ammonium lead iodide (MAPbI), and silicon. Significant progress, including world-record devices, was achieved in a number of areas, and substantial improvements in lifetime were attained. Second is an assessment of the stability and failure mechanisms of PV in hot/dry and hot/wet climates. This work included assessing PV module stability across the seven climate zones of India and in the United States. The importance of dust and particulates was assessed. New failure mechanisms were identified, in particular to the hot/dry and hot/wet climates, and an international working group was convened. Coupled to developing new PV technology and understanding degradation pathways, an effort was made in multiscale modeling – from atoms to modules – to begin to connect the basic science to the ultimate deployability of the PV devices and modules. Here, the potential importance of bifacial modules was assessed.
Volume
39
Subjects
Bifacial modules
Climatic dependence
Climatic zones
Corning® Willow® Glas...
Degradation rate
Degradation rates
Dye-sensitized solar ...
Earth-abundant thin-f...
Electrodeposition
Encapsulants
Fluorinated materials...
Fullerene
Hot and humid climate...
Inkjet printing
Levelized cost of ele...
Low-toxicity processi...
Mini-modules
Molecular precursors
Multiscale modeling
Nanocrystalline ink
Organic phase-change ...
Organic photovoltaics...
Oxidative stability
Perovskite-based sola...
Photobleaching
Photovoltaics
Power conversion effi...
Quantum efficiency
Roll-to-roll processi...
Selenization
Silicon-based solar c...
Soiling
Tandem cells
Thin-film photovoltai...
Water vapor transmiss...