Laboratory-Scale Reuse of Glass/ITO Substrates for Single Junction Perovskite Solar Cells

Laboratory-Scale Reuse of Glass/ITO Substrates for Single Junction Perovskite Solar Cells

The rapid expansion of perovskite solar cell research has led to the daily production of hundreds, if not thousands, of laboratory-scale solar cells worldwide, resulting in significant consumption of indium tin oxide (ITO)-coated glass substrates. Given the scarcity of indium and its price fluctuati...

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Bibliographic Details
Main Author: Suzana Kralj (17703562) (author)
Other Authors: Ivaylo Lazarov (22653383) (author), Rachel Woods-Robinson (1557007) (author), Monica Morales-Masis (2863328) (author)
Published: 2025
Subjects:
Biotechnology
Evolutionary Biology
Ecology
Developmental Biology
Inorganic Chemistry
Science Policy
Infectious Diseases
standard cleaning procedure
solar cells fabricated
promoting resource efficiency
price fluctuations due
optimized batch sizes
life cycle assessment
environmentally friendly method
avoids toxic solvents
solar cell research
dominant environmental hotspots
developing sustainable recycling
three reuse cycles
indium tin oxide
pairing substrate reuse
ito substrates maintain
use substrate
research laboratories
recycling process
environmental footprint
scale reuse
reuse strategies
ito reuse
ito substrates
fresh substrates
utilizing acetone
total cradle
study highlights
solvent use
solvent recovery
significant consumption
scale environment
reduce cradle
rapid expansion
practical strategy
material circularity
literature processes
geopolitical factors
daily production
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Summary:The rapid expansion of perovskite solar cell research has led to the daily production of hundreds, if not thousands, of laboratory-scale solar cells worldwide, resulting in significant consumption of indium tin oxide (ITO)-coated glass substrates. Given the scarcity of indium and its price fluctuations due to geopolitical factors, developing sustainable recycling and reuse strategies for glass/ITO substrates is crucial. In this work, we present a simple and environmentally friendly method for reusing glass/ITO substrates in a lab-scale environment, utilizing acetone and a standard cleaning procedure that avoids toxic solvents. Life cycle assessment (LCA) reveals that solvent use and waste are the dominant environmental hotspots from the recycling process, with total cradle-to-grave greenhouse gas emissions slightly lower than fresh glass/ITO (by ∼10–30%). Pairing substrate reuse with solvent recovery can further reduce cradle-to-grave greenhouse gas emissions compared to a single-use substrate (by >50% for optimized batch sizes) and to other literature processes. Importantly, solar cells fabricated on reused glass/ITO substrates maintain the same efficiencies (∼18%) as those on fresh substrates, even after three reuse cycles. This study highlights the potential of ITO reuse in research laboratories as a practical strategy to lower the environmental footprint of solar cell research while promoting resource efficiency and material circularity.

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