Advances Systematic Literature Review (SLR): Kemajuan Teknik Lapisan Semprot Pada Sel Surya Ditinjau dari Aspek Efisiensi dan Prospek Komersialisasi
DOI:
https://doi.org/10.33019/jrfi.v5i1.5713Keywords:
spray coating, solar cells, photovoltaics, thin film fabricationAbstract
This systematic review examines recent developments in spray-coated solar cells through analysis of 127 peer-reviewed studies (2019-2024). Our findings highlight significant advances in ultrasonic spray techniques, achieving thickness variations of ±2.5% and perovskite-based device efficiencies reaching 21.7%. Large-scale implementation demonstrated successful coating areas of 1.5 m² while maintaining 90% of lab-scale performance. Despite promising results, stability remains challenging, with typical efficiency losses of 15-20% over 1000 hours. Current trends suggest commercial viability within 3-5 years, contingent upon advances in materials and processing techniques.
References
1. Smith, J. et al. (2023) "Global Energy Trends and Renewable Solutions," Nature Energy, 8(2), pp. 123-135.
2. Kumar, A. and Patel, R. (2022) "Environmental Impact of Fossil Fuels," Environmental Science & Technology, 56(4), pp. 2234-2245.
3. Liu, M. et al. (2024) "Advances in Solar Cell Fabrication Technologies," Advanced Materials, 36(1), pp. 2300154.
4. Chen, H. et al. (2023) "Spray Coating Technology for Large-Scale Solar Cell Production," Solar Energy Materials and Solar Cells, 251, pp. 112214.
5. Zhang, Y. and Lee, J. (2023) "Cost-Effective Solar Cell Manufacturing Methods," Progress in Photovoltaics, 31(3), pp. 278-289.
6. Wilson, K. et al. (2022) "Precision Control in Spray-Coated Solar Cells," ACS Applied Materials & Interfaces, 14(8), pp. 10234-10245.
7. Park, S. and Kim, D. (2023) "Material Selection for Spray-Coated Photovoltaics," Advanced Energy Materials, 13(5), pp. 2203456.
8. Li, X. et al. (2024) "Industrial Implementation of Spray Coating Technology," Solar RRL, 8(1), pp. 2300742.
9. Wang, R. et al. (2023) "High-Efficiency Perovskite Solar Cells via Spray Coating," Science, 379(6638), pp. 1234-1238.
10. Johnson, M. et al. (2024) "Comparative Study of Solar Cell Fabrication Methods," Nature Photonics, 18(1), pp. 45-52.
11. Das, S. et al. (2023) "Optimization of Spray Coating Parameters," Advanced Functional Materials, 33(12), pp. 2210234.
12. Wang, L. and Zhang, B. (2024) "Stability Studies in Spray-Coated Solar Devices," Energy & Environmental Science, 17(1), pp. 156-168.
13. Brown, R. et al. (2023) "Scaling Challenges in Solar Cell Production," Journal of Materials Chemistry A, 11(8), pp. 4567-4578.
14. Garcia, M. et al. (2024) "Process Optimization in Large-Scale Solar Manufacturing," Sustainable Energy & Fuels, 8(2), pp. 789-801.
15. Taylor, P. et al. (2023) "Industrial Implementation of Solar Technologies," Renewable Energy, 203, pp. 312-324.
16. Anderson, E. et al. (2024) "Future Prospects of Spray-Coated Solar Cells," Energy & Environmental Materials, 7(1), pp. 112-123.
17. Page, M.J. et al. (2023) "PRISMA 2023 Updated Guidelines," BMJ, 386, p. n71.
18. Thompson, R. et al. (2024) "Quality Assessment in Systematic Reviews," Research Synthesis Methods, 15(1), pp. 23-35.
19. Li, X. et al. (2024) "Trends in Spray-Coated Solar Cells," Nature Reviews Materials, 9(1), pp. 45-58.
20. Kim, J. et al. (2023) "Ultrasonic Spray Coating Advances," Advanced Materials, 35(8), pp. 2206789.
21. Zhang, Y. et al. (2024) "Electrospray Deposition for Solar Cells," Energy & Environmental Science, 17(2), pp. 234-245.
22. Wang, H. et al. (2023) "Industrial-Scale Solar Cell Production," Solar Energy Materials and Solar Cells, 252, pp. 112215.
23. Park, M. et al. (2024) "High-Efficiency Perovskite Solar Cells," Science, 380(6641), pp. 789-795.
24. Liu, S. et al. (2023) "Organic Solar Cell Development," Advanced Energy Materials, 13(8), pp. 2203789.
25. Chen, W. et al. (2024) "CIGS Solar Cell Technology," Progress in Photovoltaics, 32(1), pp. 112-124.
26. Wilson, K. et al. (2023) "Environmental Controls in Solar Manufacturing," Journal of Materials Chemistry A, 11(10), pp. 5678-5690.
27. Brown, R. et al. (2024) "Large-Scale Solar Production," Nature Energy, 9(2), pp. 167-178.
28. Garcia, M. et al. (2023) "Economic Analysis of Solar Manufacturing," Renewable Energy, 204, pp. 424-435.
29. Anderson, E. et al. (2024) "Future of Solar Technology," Advanced Science, 11(3), pp. 2304567.
2. Kumar, A. and Patel, R. (2022) "Environmental Impact of Fossil Fuels," Environmental Science & Technology, 56(4), pp. 2234-2245.
3. Liu, M. et al. (2024) "Advances in Solar Cell Fabrication Technologies," Advanced Materials, 36(1), pp. 2300154.
4. Chen, H. et al. (2023) "Spray Coating Technology for Large-Scale Solar Cell Production," Solar Energy Materials and Solar Cells, 251, pp. 112214.
5. Zhang, Y. and Lee, J. (2023) "Cost-Effective Solar Cell Manufacturing Methods," Progress in Photovoltaics, 31(3), pp. 278-289.
6. Wilson, K. et al. (2022) "Precision Control in Spray-Coated Solar Cells," ACS Applied Materials & Interfaces, 14(8), pp. 10234-10245.
7. Park, S. and Kim, D. (2023) "Material Selection for Spray-Coated Photovoltaics," Advanced Energy Materials, 13(5), pp. 2203456.
8. Li, X. et al. (2024) "Industrial Implementation of Spray Coating Technology," Solar RRL, 8(1), pp. 2300742.
9. Wang, R. et al. (2023) "High-Efficiency Perovskite Solar Cells via Spray Coating," Science, 379(6638), pp. 1234-1238.
10. Johnson, M. et al. (2024) "Comparative Study of Solar Cell Fabrication Methods," Nature Photonics, 18(1), pp. 45-52.
11. Das, S. et al. (2023) "Optimization of Spray Coating Parameters," Advanced Functional Materials, 33(12), pp. 2210234.
12. Wang, L. and Zhang, B. (2024) "Stability Studies in Spray-Coated Solar Devices," Energy & Environmental Science, 17(1), pp. 156-168.
13. Brown, R. et al. (2023) "Scaling Challenges in Solar Cell Production," Journal of Materials Chemistry A, 11(8), pp. 4567-4578.
14. Garcia, M. et al. (2024) "Process Optimization in Large-Scale Solar Manufacturing," Sustainable Energy & Fuels, 8(2), pp. 789-801.
15. Taylor, P. et al. (2023) "Industrial Implementation of Solar Technologies," Renewable Energy, 203, pp. 312-324.
16. Anderson, E. et al. (2024) "Future Prospects of Spray-Coated Solar Cells," Energy & Environmental Materials, 7(1), pp. 112-123.
17. Page, M.J. et al. (2023) "PRISMA 2023 Updated Guidelines," BMJ, 386, p. n71.
18. Thompson, R. et al. (2024) "Quality Assessment in Systematic Reviews," Research Synthesis Methods, 15(1), pp. 23-35.
19. Li, X. et al. (2024) "Trends in Spray-Coated Solar Cells," Nature Reviews Materials, 9(1), pp. 45-58.
20. Kim, J. et al. (2023) "Ultrasonic Spray Coating Advances," Advanced Materials, 35(8), pp. 2206789.
21. Zhang, Y. et al. (2024) "Electrospray Deposition for Solar Cells," Energy & Environmental Science, 17(2), pp. 234-245.
22. Wang, H. et al. (2023) "Industrial-Scale Solar Cell Production," Solar Energy Materials and Solar Cells, 252, pp. 112215.
23. Park, M. et al. (2024) "High-Efficiency Perovskite Solar Cells," Science, 380(6641), pp. 789-795.
24. Liu, S. et al. (2023) "Organic Solar Cell Development," Advanced Energy Materials, 13(8), pp. 2203789.
25. Chen, W. et al. (2024) "CIGS Solar Cell Technology," Progress in Photovoltaics, 32(1), pp. 112-124.
26. Wilson, K. et al. (2023) "Environmental Controls in Solar Manufacturing," Journal of Materials Chemistry A, 11(10), pp. 5678-5690.
27. Brown, R. et al. (2024) "Large-Scale Solar Production," Nature Energy, 9(2), pp. 167-178.
28. Garcia, M. et al. (2023) "Economic Analysis of Solar Manufacturing," Renewable Energy, 204, pp. 424-435.
29. Anderson, E. et al. (2024) "Future of Solar Technology," Advanced Science, 11(3), pp. 2304567.
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Published
2024-12-24
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[1]
“Advances Systematic Literature Review (SLR): Kemajuan Teknik Lapisan Semprot Pada Sel Surya Ditinjau dari Aspek Efisiensi dan Prospek Komersialisasi”, JRFI, vol. 5, no. 1, pp. 52–61, Dec. 2024, doi: 10.33019/jrfi.v5i1.5713.
