Invention Grant
- Patent Title: Methods and devices for high-capacity flexible, printable, and conformal periodate and iodate batteries
-
Application No.: US17123263Application Date: 2020-12-16
-
Publication No.: US11637328B2Publication Date: 2023-04-25
- Inventor: Somenath Mitra , Zhiqian Wang
- Applicant: New Jersey Institute of Technology
- Applicant Address: US NJ Newark
- Assignee: New Jersey Institute of Technology
- Current Assignee: New Jersey Institute of Technology
- Current Assignee Address: US NJ Newark
- Agency: Lerner David LLP
- Main IPC: H01M10/00
- IPC: H01M10/00 ; H01M10/38 ; H01M4/38 ; H01M4/58 ; H01M4/62 ; H01M4/66 ; H01M4/74 ; H01M50/489 ; H01M4/04
Abstract:
Development of a flexible battery based on periodate/iodate-zinc system is disclosed. H3PO4—KCl dual quasi-solid electrolytes separated by an anion-exchange-membrane maintain the desired pH in electrodes and block unwanted ion movements. Poly(acrylic acid) fortifies the electrodes, enhances electrode flexibility, and avoids the free-flow of liquids. The NaMnIO6 shows a specific capacity of 650 mAg−1, approximately 81% of its theoretical capacity even when cells are bent. The overall technology is scalable by printing methods.
Public/Granted literature
- US20210194065A1 Methods And Devices For High-Capacity Flexible, Printable, and Conformal Periodate and Iodate Batteries Public/Granted day:2021-06-24
Information query
