Perovskites and Dye-sensitized solar Cells based printable Photovoltaic Devices
Received: 09-Feb-2021 / Accepted Date: 21-Feb-2021 / Published Date: 27-Feb-2021 DOI: 10.4172/2167-7964.1000e125
Abstract
Among different gadget plans of perovskite sun powered cells (PSCs), carbon back contact anode based mesoscopic perovskite sun based cells (CPSCs) offer tidy up room free creation, plentiful accessibility of incorporated materials, versatility and motivating soundness in various reenacted and characteristic natural conditions 1-5 . I have been building up this promising sun oriented cell innovation and have been engaged with its scaling up as a team with scholastic and modern accomplices. In my discussion, I will introduce and examine the intriguing outcomes identified with this sunlight based cell innovation around: The substitution of manual penetration of perovskite antecedent ink with robotized inkjet invasion strategy, which altogether improved the photovoltaic exhibition reproducibility. First historically speaking exhibition of extraordinary solidness of these CPSC under serious UV light brightening. An advancement revelation with respect to perovskite gems development in the thermo-muggy climate, which was seen in a computerized mugginess chamber and thus contributed for an extreme improvement (> half) in the sun oriented to-electrical change proficiency just as Our procedure ventures towards scaling up this minimal effort sunlight based cell innovation more than 20 x 20 cm2 FTO-Glass substrates size. Our outcomes give a chance to acknowledge minimal effort PV manufacturing plants as decentralized energy creation units in every EU nation, in opposition to exceptionally costly Si-PV partners.
Keywords: Photovoltaic Devices
Biography
Syed Ghufran Hashmi has recently joined University of OuluFinland as Tenure Track Assistant Professor. Before joining Oulu University, he worked in the Department of Applied Physics at Aalto University-Finland for more than a decade in different positions. He moved to Finland in 2007 and completed his Masters in Micro and Nanotechnology from Helsinki University of Technology. After that, he joined New Energy Technologies Research Group at Department of Applied Physics at Aalto University-Finland and completed his doctoral degree in Advanced Energy Systems. His scientific ideas have received nearly 2 ME funding from prestigious funding organizations such as Academy of Finland and Business Finland. He is presently the author of nearly 30 scientific publications, which has received more than 700+ citations.
Recent Publication
1. Ghufran H, Martineau D, Grätzel M (2016) Air processed inkjet infiltrated carbon based printed perovskite solar cells with high stability and reproducibility, Advanced Materials Technologies 1-6.
2. Ghufran H, Grätzel M (2017) High performance carbon-based printed perovskite solar cells with humidity assisted thermal treatment, J Mater Chem A 5: 12060-12067.
3. Mei A, Li X, Liu L, Ku Z, Liu T, et al. (2014) A hole-conductor-free, fully printable mesoscopic perovskite solar cell with high stability, Science 345: 295.
4. Hu Y, Si S, Mei A, Rong Y, Liu H, et al. (2017) Stable Large‐Area (10×10 cm2 ) Printable Mesoscopic Perovskite Module Exceeding 10% Efficiency.
5. Ghufran H, Grätzel M (2017) Long term stability of air processed inkjet infiltrated carbon-based printed perovskite solar cells under intense UV light soaking. J Mater Chem A 5: 4797-4802.
Webinar on Materials Engineering , July 30, 2020, Osaka, Japan
Citation: Hashmi SG (2021) Perovskites and Dye-sensitized solar Cells based printable Photovoltaic Devices. J Entrepren Organiz Manag 10: e125. DOI: 10.4172/2167-7964.1000e125
Copyright: © 2021 Hashmi SG. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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