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Advancing Hydrogen generation and storage

Invention Number: 
2016-036
Controlled capture and release of gases

Hydrogen fuel as an alternative energy source


Our Technology

UNSW researchers have applied high performance material simulations to discover the phenomenon of Charge Modulated Electrocatalysis (CME). With certain graphene and graphene-analogue materials, this technique is being applied for both H2 formation and storage. A “new lever” for electrocatalytic activation is found in controlled modulation of excess electrical charge.

A dramatic enhancement in the efficiency of formation of hydrogen from water has been demonstrated using the CME technique on one the simplest, cheapest and most readily available of electrodes, glassy carbon. 

Discovery of charge-responsive materials and new spin-out applications of the technology is proceeding in real time through the high performance materials simulations carried out in the Integrated Materials Design Centre (IMDC), School of Engineering.

 

 Key Benefits

  • Superior binding/release strength

  • Can be scaled to be economically viable
  • Materials are readily available, conductive, lightweight and safe
  • High performance materials simulations
  • Potentially transformative implications for hydrogen technologies and more broadly

Potential Applications 

  • Hydrogen fuel industry 

  • Energy storage 

Scientific and Technical Data 
Please contact Professor Sean Smith, Founding Director, 
Integrated Materials Design Centre, UNSW 
T:   +612 93855132
M: +61 (0) 478 492150
E:  sean.smith@unsw.edu.au
W:  http://www.imdc.unsw.edu.au

The Opportunity

UNSW is seeking a partner to license this technology or to work with our with our researchers to further develop this technology.