Abstract
This study demonstrates an innovative and environmentally friendly laser-based approach for the efficient recovery of glass and silicon solar cells, allowing the recycling of photovoltaic modules. The methodology involves the use of a high-power pulsed laser beam focusing at various interfaces within the modules. Specifically, the delivery of ultra-short pulse laser energy at the interfaces of glass and polymeric encapsulants, as well as at the encapsulants and silicon solar cells, facilitates the debonding of polymers from both glass and silicon cell surfaces. The debonding occurs through photothermal, ablation, chemical modification, and localized heat generation. The research successfully demonstrates the recovery of glass from commercial mini solar modules of size 11.5 x 6.8 cm 2 and a silicon wafer of size 3.0x1.6 cm 2 . Ongoing efforts aim to extend the effectiveness of this laser-based methodology to comprehensively recycle larger-size components. This innovative approach holds promise for addressing environmental concerns associated with the disposal of solar modules, contributing to sustainable practices in the renewable energy sector.
Original language | American English |
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Pages | 948-950 |
Number of pages | 3 |
DOIs | |
State | Published - 2024 |
Event | 2024 IEEE 52nd Photovoltaic Specialist Conference (PVSC) - Seattle, Washington Duration: 9 Jun 2024 → 14 Jun 2024 |
Conference
Conference | 2024 IEEE 52nd Photovoltaic Specialist Conference (PVSC) |
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City | Seattle, Washington |
Period | 9/06/24 → 14/06/24 |
NREL Publication Number
- NREL/CP-5K00-92696
Keywords
- glass
- photovoltaic cells
- plastics
- polymers
- recycling
- renewable energy sources
- silicon
- solar panels
- surface emitting lasers
- surface treatment