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ACCELERATING MATERIALS DISCOVERY
For decades there has been an identified need to develop new materials that facilitate a clean-energy future, yet billions of dollars of private and government-sector investment have failed to tip the needle toward an energy economy in which clean and renewable energy dominates supply.
SOLAR ELECTRICITY
Thin-film organic and perovskite solar cells can convert sunlight to electricity with efficiencies in excess of 20%, but suffer from stability and manufacturing issues.
ENERGY STORAGE AND CO 2 UTILIZATION
The efficient conversion of sunlight into electricity is not the complete answer to the impending energy crisis – we need to be able to store and transport energy and mitigate the negative environmental impact of current energy production methods.
ACCELERATING MATERIALS DISCOVERY
For decades there has been an identified need to develop new materials that facilitate a clean-energy future, yet billions of dollars of private and government-sector investment have failed to tip the needle toward an energy economy in which clean and renewable energy dominates supply.
SOLAR ELECTRICITY
Thin-film organic and perovskite solar cells can convert sunlight to electricity with efficiencies in excess of 20%, but suffer from stability and manufacturing issues.
ENERGY STORAGE AND CO 2 UTILIZATION
The efficient conversion of sunlight into electricity is not the complete answer to the impending energy crisis – we need to be able to store and transport energy and mitigate the negative environmental impact of current energy production methods.
研究兴趣
论文共 26 篇作者统计合作学者相似作者
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arxiv(2022)
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Inorganic Chemistryno. 23 (2018): 14624-14631
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