Development of High-Capacity Periodate Battery with Three-Dimensional-Printed Casing Accommodating Replaceable Flexible Electrodes
Document Type
Article
Publication Date
9-12-2018
Abstract
We present the development of a novel battery comprising iron(III) periodate complex cathode and zinc anode. The periodate complex [H7Fe4(IO4)3O8] was prepared by a precipitation reaction between Fe(NO3)3 and NaIO4 and was used in battery development for the first time. The periodate complex along with 14% carbon nanotubes and a polytetrafluoroethylene coating formed a stable flexible electrode, and the battery showed specific capacity as high as 300 mA h g-1. Compared to single-electron processes in conventional cathode reactions, the possibility to significantly enhancing the cathode specific capacity via a multielectron process associated with valence change from I(VII) to I2 is demonstrated. A novel three-dimensional printed reserve battery design comprising replaceable electrodes and acetic acid electrolyte is also presented.
Identifier
85052746999 (Scopus)
Publication Title
ACS Applied Materials and Interfaces
External Full Text Location
https://doi.org/10.1021/acsami.8b05578
e-ISSN
19448252
ISSN
19448244
PubMed ID
30118594
First Page
30257
Last Page
30264
Issue
36
Volume
10
Recommended Citation
Wang, Zhiqian; Meng, Xianyang; Chen, Kun; and Mitra, Somenath, "Development of High-Capacity Periodate Battery with Three-Dimensional-Printed Casing Accommodating Replaceable Flexible Electrodes" (2018). Faculty Publications. 8379.
https://digitalcommons.njit.edu/fac_pubs/8379
