Synthesis of Carbon Nanotube Incorporated Metal Oxides for the Fabrication of Printable, Flexible Nickel-Zinc Batteries

Authors

Zhiqian Wang, New Jersey Institute of Technology
Xianyang Meng, New Jersey Institute of Technology
Kun Chen, New Jersey Institute of Technology
Somenath Mitra, New Jersey Institute of Technology

Document Type

Article

Publication Date

2-22-2018

Abstract

The development of printable composite electrodes embedded with multiwalled carbon nanotubes (CNTs) for flexible nickel-zinc batteries is presented. The cathode and the anode comprised of Ni(OH)2-CNT and ZnO-CNT respectively are prepared by coprecipitation of the metal oxides on CNTs. High loading ratio of electroactive materials increases the amount of active materials in electrode, but causes a lower material utilization efficiency due to decrease in overall electrode conductivity. The direct loading of active materials onto CNTs enhances contact where the CNTs serve the pathways for electron transport leading to higher performance than physical mixing of active ingredients. The cells show good performance even under bending conditions and the overall technology is scalable by printing methods.

Identifier

85036508422 (Scopus)

Publication Title

Advanced Materials Interfaces

External Full Text Location

https://doi.org/10.1002/admi.201701036

e-ISSN

21967350

Issue

4

Volume

5

Grant

R01ES023209

Fund Ref

National Institute of Environmental Health Sciences

Recommended Citation

Wang, Zhiqian; Meng, Xianyang; Chen, Kun; and Mitra, Somenath, "Synthesis of Carbon Nanotube Incorporated Metal Oxides for the Fabrication of Printable, Flexible Nickel-Zinc Batteries" (2018). Faculty Publications. 8840.
https://digitalcommons.njit.edu/fac_pubs/8840