Amorphous titanium-oxide supercapacitors

The electric capacitance of an amorphous TiO surface increases proportionally to the negative sixth power of the convex diameter d. This occurs because of the van der Waals attraction on the amorphous surface of up to 7 mF/cm , accompanied by extreme enhanced electron trapping resulting from both th...

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Bibliographic Details
Published in:Scientific reports 2016-10, Vol.6 (1), p.35870-35870, Article 35870
Main Authors: Fukuhara, Mikio, Kuroda, Tomoyuki, Hasegawa, Fumihiko
Format: Article
Language:English
Subjects:
Annealing
Capacitance
Power
Temperature
Titanium
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Summary:The electric capacitance of an amorphous TiO surface increases proportionally to the negative sixth power of the convex diameter d. This occurs because of the van der Waals attraction on the amorphous surface of up to 7 mF/cm , accompanied by extreme enhanced electron trapping resulting from both the quantum-size effect and an offset effect from positive charges at oxygen-vacancy sites. Here we show that a supercapacitor, constructed with a distributed constant-equipment circuit of large resistance and small capacitance on the amorphous TiO surface, illuminated a red LED for 37 ms after it was charged with 1 mA at 10 V. The fabricated device showed no dielectric breakdown up to 1,100 V. Based on this approach, further advances in the development of amorphous titanium-dioxide supercapacitors might be attained by integrating oxide ribbons with a micro-electro mechanical system.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep35870