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Indeed, graphenes hold enormous promise as materials for energy technologies.
Wang, H. L. & Dai, H. J. Strongly coupled inorganic-nano-carbon hybrid materials for energy storage.
Liu, J., Xue, Y. H., Zhang, M. & Dai, L. M. Graphene-based materials for energy applications.
Wu, Z.-S. Z.-S.. Graphete/metal oxide composite electrode materials for enerGraphene/metal
Wang, H. & Dai, H. Strongly coupled inorganic-nano-carbon hybrid materials for energy storage.
Zhu, J., Yang, D., Yin, Z., Yan, Q. & Zhang, H. Graphene and graphene-based materials for energy storage applications.
His current research centers on discovery of materials for energy applications, including fuel cell catalysts and ionic conductors.
The findings in this work will advance the design of functional materials for energy storage.
The implementation of innovative materials for energy saving is a main focus in the building sector.
Our findings can be useful in designing MXene-based electrode materials for energy storage applications.
Composition design and morphology control can lead to high performance electrode materials for energy storage devices.
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