Searched for: subject:"Na%5C+ion%5C+batteries"
(1 - 4 of 4)
document
Xu, Y. (author)
Modern life is moving towards a mobile and sustainable energy economy, in which rechargeable batteries play an essential role as a power supply. The current battery of choice is Li ion battery that is dominating the market but faces great challenges for future use mainly due to the demand for higher capacities and target for cost reduction. Next...
doctoral thesis 2018
document
Xu, Y. (author), Mulder, F.M. (author)
has been considered as a potential anode material for Li ion batteries due to its low cost and high theoretical capacity. However, it suffers from low electronic conductivity and slow kinetics for hydrogen sorption at room temperature that results in poor reversibility, cycling stability and rate capability for Li ion storage....
journal article 2018
document
Peng, B. (author), Xu, Y. (author), Wang, Xiaoqun (author), Shi, Xinghua (author), Mulder, F.M. (author)
Super P carbon black (SPCB) has been widely used as a conducting additive in Li/Na ion batteries to improve the electronic conductivity. However, there has not yet been a comprehensive study on its structure and electrochemical properties for Li/Na ion uptake, though it is important to characterize its contribution in any study of active...
journal article 2017
document
Shen, K. (author)
Nanostructured materials are featured by providing a variety of favourable electrical properties, as the reduced ion and electron transport paths enable significant enhancement on (de)intercalation rates and hence high power. For TiO2 anatase, nano-sizing results in a curved open cell voltage profile with a much shorter plateau region in...
doctoral thesis 2014
Searched for: subject:"Na%5C+ion%5C+batteries"
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