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Prof. Saliba's research focuses on perovskites, a new class of semiconductors that Saliba has played a key role in developing and which is seen as a source of hope for sustainable energy production. They can be painted as "solar paint" on a wall or even on curved, flexible surfaces where they function as highly efficient solar cells. Since neither clean rooms nor high temperatures are required for this, solar cells based on perovskite have the long-term potential to be produced more cheaply than silicon solar cells and also to open up new areas of application, for example in cars, in space travel or in sensors for the Internet.
In addition, perovskites can be applied to conventional silicon, thus combining the strengths of both material classes: Silicon, for example, uses sunlight in the red and infrared range particularly efficiently, while perovskites are particularly good at converting blue light. "If the materials, i.e. perovskites on silicon, are stacked on top of each other, the efficiencies of already commercial silicon cells can be increased considerably. This tandem idea has the potential to herald a solar revolution," Saliba is confident.
In addition, perovskites make it possible to open up the research horizon to general optoelectronic applications. For example, perovskites can also emit light and be used in new types of light-emitting diodes. In the past, Saliba has also published papers on new types of cryogenic perovskite detectors, which are relevant for the early diagnosis of cancer, among other things.
In addition, perovskites can be applied to conventional silicon, thus combining the strengths of both material classes: Silicon, for example, uses sunlight in the red and infrared range particularly efficiently, while perovskites are particularly good at converting blue light. "If the materials, i.e. perovskites on silicon, are stacked on top of each other, the efficiencies of already commercial silicon cells can be increased considerably. This tandem idea has the potential to herald a solar revolution," Saliba is confident.
In addition, perovskites make it possible to open up the research horizon to general optoelectronic applications. For example, perovskites can also emit light and be used in new types of light-emitting diodes. In the past, Saliba has also published papers on new types of cryogenic perovskite detectors, which are relevant for the early diagnosis of cancer, among other things.
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Energy & Environmental Science (2024)
Feng Yang,Rui Zhu,Zuhong Zhang,Zhenhuang Su, Weiwei Zuo,Bingchen He,Mahmoud Hussein Aldamasy,Yu Jia, Guixiang Li,Xingyu Gao,Zhe Li,Michael Saliba,
ADVANCED MATERIALSno. 7 (2024): e2308655-e2308655
Iago Lopez-Fernandez,Donato Valli,Chun-Yun Wang, Subarna Samanta,Takuya Okamoto,Yi-Teng Huang,Kun Sun,Yang Liu,Vladimir S. Chirvony,Avijit Patra,Juliette Zito,Luca De Trizio,
ADVANCED FUNCTIONAL MATERIALSno. 6 (2024)
Proceedings of the International Conference on Hybrid and Organic Photovoltaics (2024)
Weiwei Zuo,Weifei Fu,Ke Wang,Chittarajan Das,Mahdi Malekshahi Byranvand,Kai-Li Wang, Aditya Chaudhary, Jaekeun Lim,Meng Li,Michael Saliba
ENERGY & ENVIRONMENTAL SCIENCEno. 4 (2024)
Science China Chemistrypp.1-2, (2024)
Advanced Functional Materials (2024)
Nikolaos Droseros,Parnian Ferdowsi, Efrain Ochoa Martinez,Michael Saliba,Natalie Banerji,Demetra Tsokkou
The Journal of Physical Chemistry C (2024)
Jose J. Jeronimo-Rendon,Silver-Hamill Turren-Cruz,Jorge Pascual,Diego Di Girolamo,Marion A. Flatken, Hans Koebler, Wolfram Hempel,Meng Li,Aldo Di Carlo,Pablo P. Boix,Ivan Mora-Sero,Antonio Abate,
ADVANCED FUNCTIONAL MATERIALS (2024)
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