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Grant Award View - GA281836
Bioinspired Nanoionic Materials for Watt-scale Nano-Hydroelectric...
GA ID:
GA281836
Agency:
Australian Research Council
Approval Date:
19-Jan-2023
Publish Date:
1-Feb-2023
Category:
Humanities, Arts and Social Sciences (HASS) Research
Grant Term:
19-Feb-2023 to 18-Feb-2026
Original: 19-Jan-2023 to 31-Dec-2025
Value (AUD):
$516,000.00
(GST inclusive where applicable)
Variations:
- GA281836-V1 - Variation to Grant (19-Apr-2023 )
One-off/Ad hoc:
No
Aggregate Grant Award:
No
PBS Program Name:
ARC 22/23 Discovery
Grant Program:
Discovery Projects
Grant Activity:
Bioinspired Nanoionic Materials for Watt-scale Nano-Hydroelectric Generator
Purpose:
Inspired by electric eels, this project aims to develop next generation flexible and eco-friendly power sources that can directly generate electricity from water droplets for self-powered, light-weight wearable electronics. The goal will be achieved by designing a new class of nanoionic materials for nano-hydroelectric generators, through optimizing the ion diffusion channel, interfacial architecture, electrode configuration, and power management systems. The expected outcomes will be new nanoionic materials for a wide range of end uses in portable power supply with much higher capacity compared with conventional thin film batteries, significant advances in wearable electronics, and advancing knowledge in energy conversion sector.
GO ID:
GO Title:
Discovery Projects for funding commencing in 2023
Internal Reference ID:
DP23 Round 1
Selection Process:
Targeted or Restricted Competitive
Confidentiality - Contract:
No
Confidentiality - Outputs:
No
Grant Recipient Details
Recipient Name:
The University of New South Wales
Recipient ABN:
57 195 873 179
Grant Recipient Location
Suburb:
KENSINGTON
Town/City:
KENSINGTON
Postcode:
2033
State/Territory:
NSW
Country:
AUSTRALIA
Grant Delivery Location
State/Territory:
NSW
Postcode:
2033
Country:
AUSTRALIA