Chemitox Develops New Measurement Method for Perovskite Solar Cells
Chemitox Co., Ltd. has developed a new output measurement method specifically designed for perovskite solar cells, addressing the challenges of accurately evaluating their performance with conventional techniques. This innovative method, for which a patent application (Patent Application 2026-005206) has already been filed, integrates MPPT and I-V characteristic measurements. It ensures consistency between maximum power output values and significantly reduces measurement time, potentially by up to 50% for some products.
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- 📰 Published: April 14, 2026 at 20:12
- 🔍 Collected: April 14, 2026 at 11:31
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Chemitox Co., Ltd. (Headquarters: 1-14-18 Kamiikedai, Ota-ku, Tokyo; Representative Director: Koichi Nakayama) has developed a new output measurement method tailored to the characteristics of perovskite solar cells.
Perovskite solar cells are known to be difficult to evaluate accurately even when measured under the same conditions as conventional crystalline silicon solar cells. The method developed by the company addresses these challenges and supports more appropriate output evaluation. A patent application for this method has already been filed (Patent Application 2026-005206).
In recent years, perovskite solar cells, which are attracting attention as next-generation solar cells, are rapidly advancing in research and development and practical application. On the other hand, their performance evaluation has unique difficulties, and if conventional measurement methods widely used for crystalline silicon solar cells are applied as they are, correct output measurement may not be possible. That is, crystalline silicon solar cells generally have fast and stable photoresponse, allowing measurement with a pulse solar simulator using short-term light irradiation in the millisecond order. In contrast, perovskite solar cells have slow photoresponse characteristics, and I-V characteristic measurement takes at least several seconds, and in some cases several tens of minutes. Furthermore, since the characteristics gradually change due to light irradiation itself, the light irradiation time must also be considered, and the prolongation of measurement time is an issue.
Large-scale perovskite-compatible steady-state solar simulator owned by our company.
Currently, the following two types of measurement methods are used for performance measurement of perovskite solar cells:
Maximum power output measurement by MPPT (Maximum Power Point Tracking)
I-V characteristic measurement by long-time sweep
The measurement method developed by the company integrates the above measurements, enabling:
Consistency between the maximum output value measured by MPPT and the maximum output value measured by I-V characteristics
Shortening of measurement time by integrating measurements
This realizes highly accurate results for perovskite solar cells in a shorter time. By unifying the sweep of I-V characteristic measurement, a time reduction of about 50% is possible depending on the product.
Example of output measurement of perovskite solar cells by the developed measurement method
Conventional I-V characteristic measurement (the issue is that Pmax values may not match in both directions of sweep)
Pmax value determined by MPPT method (Pmax is uniquely determined, but the I-V characteristic curve graph at that time cannot be obtained)
Overview of the developed measurement method [Patent Application 2026-005206 Figure (Figure 1)]
Chemitox will continue to expand its evaluation technology for next-generation solar cells, leveraging its many years of expertise in the safety and reliability evaluation of solar cells. For details on this measurement method, please contact the inquiry desk below.
[Inquiries regarding this matter]
Contact: Haruhiko Kurimoto, Yamanashi Test Center KAI, Chemitox Co., Ltd.
TEL: 0551-42-5061
E-mail: ha-kurimoto@chemimtox.co.jp
[Overview of the company]
Name: Chemitox Co., Ltd.
Representative: Koichi Nakayama, Representative Director CEO
Location: 1-14-18 Kamiikedai, Ota-ku, Tokyo
Established: September 3, 1975
Capital: 98 million yen
Main businesses:
Safety and reliability evaluation of solar cells
Safety and reliability evaluation of lithium-ion batteries
R&D of all-solid-state batteries
Biodegradability testing and biodegradability certification acquisition support
Implementation of overseas standard tests and standard compliance consulting for railway vehicles, aircraft, building materials, water-related products, food contact materials, etc.
Recycling material certification acquisition support
Testing and evaluation of power devices
Various property evaluations such as flammability, heat resistance, and mechanical properties of polymer materials
Environmental analysis of harmful chemical substances, failure analysis and reliability testing of printed circuit boards
Consulting for overseas certifications such as UL certification
Interpretation and translation services
Homepage: https://www.chemitox.co.jp/
Perovskite solar cells are known to be difficult to evaluate accurately even when measured under the same conditions as conventional crystalline silicon solar cells. The method developed by the company addresses these challenges and supports more appropriate output evaluation. A patent application for this method has already been filed (Patent Application 2026-005206).
In recent years, perovskite solar cells, which are attracting attention as next-generation solar cells, are rapidly advancing in research and development and practical application. On the other hand, their performance evaluation has unique difficulties, and if conventional measurement methods widely used for crystalline silicon solar cells are applied as they are, correct output measurement may not be possible. That is, crystalline silicon solar cells generally have fast and stable photoresponse, allowing measurement with a pulse solar simulator using short-term light irradiation in the millisecond order. In contrast, perovskite solar cells have slow photoresponse characteristics, and I-V characteristic measurement takes at least several seconds, and in some cases several tens of minutes. Furthermore, since the characteristics gradually change due to light irradiation itself, the light irradiation time must also be considered, and the prolongation of measurement time is an issue.
Large-scale perovskite-compatible steady-state solar simulator owned by our company.
Currently, the following two types of measurement methods are used for performance measurement of perovskite solar cells:
Maximum power output measurement by MPPT (Maximum Power Point Tracking)
I-V characteristic measurement by long-time sweep
The measurement method developed by the company integrates the above measurements, enabling:
Consistency between the maximum output value measured by MPPT and the maximum output value measured by I-V characteristics
Shortening of measurement time by integrating measurements
This realizes highly accurate results for perovskite solar cells in a shorter time. By unifying the sweep of I-V characteristic measurement, a time reduction of about 50% is possible depending on the product.
Example of output measurement of perovskite solar cells by the developed measurement method
Conventional I-V characteristic measurement (the issue is that Pmax values may not match in both directions of sweep)
Pmax value determined by MPPT method (Pmax is uniquely determined, but the I-V characteristic curve graph at that time cannot be obtained)
Overview of the developed measurement method [Patent Application 2026-005206 Figure (Figure 1)]
Chemitox will continue to expand its evaluation technology for next-generation solar cells, leveraging its many years of expertise in the safety and reliability evaluation of solar cells. For details on this measurement method, please contact the inquiry desk below.
[Inquiries regarding this matter]
Contact: Haruhiko Kurimoto, Yamanashi Test Center KAI, Chemitox Co., Ltd.
TEL: 0551-42-5061
E-mail: ha-kurimoto@chemimtox.co.jp
[Overview of the company]
Name: Chemitox Co., Ltd.
Representative: Koichi Nakayama, Representative Director CEO
Location: 1-14-18 Kamiikedai, Ota-ku, Tokyo
Established: September 3, 1975
Capital: 98 million yen
Main businesses:
Safety and reliability evaluation of solar cells
Safety and reliability evaluation of lithium-ion batteries
R&D of all-solid-state batteries
Biodegradability testing and biodegradability certification acquisition support
Implementation of overseas standard tests and standard compliance consulting for railway vehicles, aircraft, building materials, water-related products, food contact materials, etc.
Recycling material certification acquisition support
Testing and evaluation of power devices
Various property evaluations such as flammability, heat resistance, and mechanical properties of polymer materials
Environmental analysis of harmful chemical substances, failure analysis and reliability testing of printed circuit boards
Consulting for overseas certifications such as UL certification
Interpretation and translation services
Homepage: https://www.chemitox.co.jp/
FAQ
What are the main advantages of the new measurement method developed by Chemitox?
The main advantages are the consistency between maximum power output values obtained by MPPT and I-V characteristic measurements, and the reduction in measurement time (up to 50% for some products).
Which type of solar cells does this new measurement method support?
It is a measurement method specifically designed for perovskite solar cells.