Environmental assessment of perovskite cells

Energy consumption and carbon footprint of perovskite solar cells

The carbon footprint and energy consumption of a 8 × 8 cm 2 perovskite solar cell were evaluated based on LCA methodology. ... Perovskite photovoltaics: Life-cycle assessment of energy and environmental impacts. Energy Environ Sci, 8 (2015), pp. 1953-1968, 10.1039/c5ee00615e.

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Environmental impacts as the key objectives for perovskite solar …

Holistic and predictive approach for analyzing the life cycle impacts of perovskite solar cells/modules. Uncertainties in environmental impacts at each stage of …

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Life Cycle Assessment (LCA) of perovskite PV cells projected …

DOI: 10.1016/J.SOLMAT.2016.04.037 Corpus ID: 101133219; Life Cycle Assessment (LCA) of perovskite PV cells projected from lab to fab @article{Celik2016LifeCA, title={Life Cycle Assessment (LCA) of perovskite PV cells projected from lab to fab}, author={Ilke Celik and Zhaoning Song and Alexander J. Cimaroli and Yanfa Yan and Michael J. Heben and …

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Perovskite Photovoltaic Modules: Life Cycle …

The environmental performance of a pre-industrial process of production of a large-area carbon stack perovskite module is analyzed in this work through life cycle assessment (LCA). From the pre …

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Shedding light on the environmental impact of the decomposition …

This new achievement opens new ways and challenges for investigating the effect of perovskite materials of perovskite solar cells on the environmental issue and shedding light on the growing of ...

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Life cycle assessment of perovskite solar cells with alternative …

Life cycle assessment of perovskite solar cells with alternative carbon electrode. Author links open overlay panel Supawinee Chaosukho a, Sorrawit Meeklinhom a, ... the environmental impact assessment results underscore the potential competitiveness of this with other technologies when the lifetime is extended. Given these outcomes, the ...

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Eco‐friendly perovskite solar cells: From materials design to …

Developing eco-friendly PVSCs via the exploration of lead-free perovskite materials, non-toxic solvents, and effective lead-adsorbing materials are the key points to …

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ENGINEERING Copyright © 2020 Life cycle energy use and …

edge two-terminal (2T) monolithic perovskite tandem solar cells, namely, perovskite-silicon and perovskite-perovskite configurations (14, 17). First, we estimate their energy payback time (EPBT) and greenhouse gas (GHG) emission factor. In the environmental life cycle impact assessment (LCIA) of tandem PV electricity, the im-

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Life cycle assessment of perovskite solar cells with alternative …

Section snippets Goal and scope. The goal of this LCA study is to compare and benchmark the environmental impacts of Perovskite solar cells with gold electrodes (PSC-Au) and Perovskite solar cells with carbon electrodes (PSC-CB) by replacing material types and processes.

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Life cycle assessment of recycling strategies for …

Here, through ''cradle-to-grave'' life cycle assessments of a variety of perovskite solar cell architectures, we report that substrates …

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Comparison of life cycle environmental impacts of different perovskite ...

MAPbI 3 and FAPbI 3 perovskite solar cells have larger environmental impacts than MASnI 3−x Br x, CsPbBr 3, and MAPbI 2 Cl cells.. The environmental impacts from generating 1 kWh of electricity are highly dependent on the conversion efficiencies. • Rather than the lead or tin, gold production and solvent usage have been …

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A life cycle assessment of perovskite/silicon tandem …

Here, we carry out a life cycle assessment to assess global warming, human toxicity, freshwater eutrophication and ecotoxicity and abiotic depletion potential impacts and energy payback time …

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Life cycle energy use and environmental implications of high ...

edge two-terminal (2T) monolithic perovskite tandem solar cells, namely, perovskite-silicon and perovskite-perovskite configurations (14, 17). First, we estimate their energy payback time (EPBT) and greenhouse gas (GHG) emission factor. In the environmental life cycle impact assessment (LCIA) of tandem PV electricity, the im-

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Rain on Methylammonium Lead Iodide Based Perovskites: …

The great promise of hybrid organic–inorganic lead halide perovskite (HOIP)-based solar cells is being challenged by its Pb content and its sensitivity to water. Here, the impact of rain on methylammonium lead iodide perovskite films was investigated by exposing such films to water of varying pH values, simulating exposure of the films to rain. The amount …

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Life cycle energy use and environmental implications of high ...

Prolonging the lifetime provides a strong technological lever for reducing the carbon footprint such that the perovskite-silicon tandem can outcompete the current benchmark on energy and environmental performance. Scalable and high-efficiency perovskite tandem solar cells with long lifetime pave the way for sustainable …

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Life cycle energy use and environmental implications …

Here, we directly assess the environmental impacts of two cutting-edge two-terminal (2T) monolithic perovskite tandem solar cells, namely, …

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Environmental Impact per Energy Yield for Bifacial Perovskite …

Ahangharnejhad et al. report the environmental impact of energy from bifacial perovskite photovoltaic devices in single- and multi-junction configurations. The expected annual energy yield values determined via a real-world model are coupled to life cycle assessments of cradle-to-end-of-use to evaluate the impact per energy.

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Closing the loop for perovskite solar modules

Writing in Nature Sustainability, Tian and co-workers 4 implement a full life cycle assessment (LCA) to track the environmental impacts of six state-of-the-art perovskite solar modules (PSMs ...

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A life cycle assessment of perovskite/silicon tandem solar cells

Here, we carry out a life cycle assessment to assess global warming, human toxicity, freshwater eutrophication and ecotoxicity and abiotic depletion potential impacts and energy payback time associated with three perovskite/Si tandem cell structures using silver (Ag), gold (Au) and aluminium (Al) as top electrodes compared …

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Bioinspired "cage traps" for closed-loop lead management of perovskite ...

Potential lead contamination risk and environmental vulnerability risk impose a significant obstacle for the commercialization of perovskite solar cells. Here, the authors create a biomimetic cage ...

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Life cycle cost assessment of material recovery from perovskite solar cells

Perovskite photovoltaic (PV) cells have created a significant interest over the last few years due to their low-cost and high-power conversion efficiencies. While perovskite PVs are still under development, we analyze cost of alternative sustainable end-of-life management for perovskite PV cells; this allows to reuse economically valuable …

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Shedding light on the environmental impact of the decomposition …

This new achievement opens new ways and challenges for investigating the effect of perovskite materials of perovskite solar cells on the environmental issue …

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Life cycle assessment of perovskite solar cells with alternative …

The goal of this LCA study is to compare and benchmark the environmental impacts of Perovskite solar cells with gold electrodes (PSC-Au) and Perovskite solar …

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Life cycle energy use and environmental implications of high ...

We perform holistic life cycle assessments on the energy payback time, carbon footprint, and environmental impact scores for perovskite-silicon and perovskite-perovskite tandems benchmarked ...

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Manage the environmental risks of perovskites

The advanced perovskite solar cell design has a thin layer of a lead-based perovskite compound that harvests solar energy. That perovskite layer lies beneath other layers, including an outer transparent contact usually made of glass. While the solar cell remains intact, the lead is safely stowed with no exposure route and no …

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