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under mild conditions, which demonstrates the high potential of oxidation
with air. These advances have been enhanced by the mechanistic under-
standing of the reactions. However, the mechanisms of most aerobic
oxidation reactions are still unclear and their elucidation is essential for the
rational design of new catalysts, which in turn forms the basis for future
developments in aerobic alcohol and arenol oxidation.
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Acknowledgements
The support from Advanced Catalytic Transformation Program for Carbon
Utilization (ACT-C), JST, Nissan Chemical Industries, Ltd., the International
Institute for Carbon-Neutral Energy Research (WPI-I2CNER) and MEXT,
Japan, is gratefully acknowledged. T.O. is grateful for a JSPS Research
Fellowship for Young Scientists.
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