Photovoltaic (PV) applied sciences, which convert gentle into electrical energy, are more and more utilized worldwide to generate renewable vitality. Researchers on the Faculty of Engineering of the Hong Kong College of Science and Expertise (HKUST) have developed a molecular therapy that considerably enhances the effectivity and sturdiness of perovskite photo voltaic cells. Their breakthrough will probably speed up the large-scale manufacturing of this clear vitality.
A key to the answer was their profitable identification of vital parameters that decide the efficiency and lifespan of halide perovskites, a next-generation photovoltaic materials which has emerged as one of the crucial promising supplies in PV units for its distinctive crystal construction. The findings have been revealed in Science.
Led by Assistant Professor Lin Yen-Hung of the Division of Digital and Laptop Engineering and the State Key Laboratory of Superior Shows and Optoelectronics Applied sciences, the analysis crew investigated varied methods of passivation, a chemical course of that reduces the variety of defects or mitigates their affect in supplies, thereby enhancing the efficiency and longevity of units comprising these supplies. They targeted on the “amino-silane” molecular household for passivating perovskite photo voltaic cells.
“Passivation in many forms has been very important in improving the efficiency of perovskite solar cells over the last decade. However, passivation routes that lead to the highest efficiencies often do not substantially improve long-term operational stability,” Prof. Lin defined.
For the primary time, the analysis crew confirmed how several types of amines (main, secondary, and tertiary) and their combos can enhance perovskite movies’ surfaces the place many defects type. They achieved this utilizing each “ex-situ” (outdoors the working atmosphere) and “in-situ” (throughout the working atmosphere) strategies to watch molecules’ interactions with perovskites.
From there, they recognized molecules that considerably enhance photoluminescence quantum yield (PLQY), i.e. the amount of photons emitted throughout supplies excitation, indicating fewer defects and higher high quality.
“This approach is crucial for the development of tandem solar cells, which combine multiple layers of photoactive materials with different bandgaps. The design maximizes the use of the solar spectrum by absorbing different parts of sunlight in each layer, leading to higher overall efficiency,” Prof. Lin mentioned.
Of their photo voltaic cell demonstration, the crew fabricated units of medium (0.25 cm2) and enormous (1 cm2) sizes. The experiment achieved low photovoltage loss throughout a broad vary of bandgaps, sustaining a excessive voltage output.
These units reached excessive open-circuit voltages past 90% of the thermodynamic restrict. Benchmarking towards about 1,700 units of knowledge from present literature confirmed that their consequence was among the many finest reported to this point by way of effectivity in vitality conversion.
Much more critically, the examine demonstrated exceptional operational stability for amino-silane passivated cells below the Worldwide Summit on Natural Photo voltaic Cells (ISOS)-L-3 protocol, a standardized testing process for photo voltaic cells.
Roughly 1,500 hours into the cell growing older course of, the utmost energy level (MPP) effectivity and energy conversion effectivity (PCE) remained at excessive ranges. For the best-passivated cells to lower to 95% of their preliminary values, the champion MPP effectivity and the champion PCE had been recorded at 19.4% and 20.1% respectively—among the many highest (when factored for the bandgap) and the longest metrics reported to this point.
Prof. Lin emphasised that their therapy course of not solely boosts the effectivity and sturdiness of perovskite photo voltaic cells, however can also be suitable with industrial-scale manufacturing.
“This treatment is similar to the HMDS (hexamethyldisilazane) priming process widely used in the semiconductor industry,” he mentioned. “Such similarity suggests that our new method can be easily integrated into existing manufacturing processes, making it commercially viable and ready for large-scale application.”
The crew included Digital and Laptop Engineering Ph.D. pupil Cao Xue-Li, Senior Supervisor of the State Key Laboratory of Superior Shows and Optoelectronics Applied sciences Dr. Fion Yeung, together with collaborators from Oxford College and the College of Sheffield.
Extra data:
Yen-Hung Lin et al, Bandgap-universal passivation permits steady perovskite photo voltaic cells with low photovoltage loss, Science (2024). DOI: 10.1126/science.ado2302
Hong Kong College of Science and Expertise
Quotation:
Engineering researchers crack the code to spice up photo voltaic cell effectivity and sturdiness (2024, August 1)
retrieved 1 August 2024
from https://techxplore.com/information/2024-08-code-boost-solar-cell-efficiency.html
This doc is topic to copyright. Other than any truthful dealing for the aim of personal examine or analysis, no
half could also be reproduced with out the written permission. The content material is supplied for data functions solely.