Co-Catalyst Free Hydrogen Production at Malinda Nugent blog

Co-Catalyst Free Hydrogen Production. Catalytic decomposition of ammonia has been investigated as a method to produce hydrogen for fuel cell applications. The current work investigates various bimetallic catalysts supported on al 2 o 3 −zn−zro 2 to determine a catalyst with minimal co selectivity at high temperature. It achieved a remarkable hydrogen selectivity of up to 80% and an outstanding co selectivity of 0. Notably, its hydrogen production rate reached 44.07 mmol g cat−1 h −1,.

The current work investigates various bimetallic catalysts supported on al 2 o 3 −zn−zro 2 to determine a catalyst with minimal co selectivity at high temperature. It achieved a remarkable hydrogen selectivity of up to 80% and an outstanding co selectivity of 0. Notably, its hydrogen production rate reached 44.07 mmol g cat−1 h −1,. Catalytic decomposition of ammonia has been investigated as a method to produce hydrogen for fuel cell applications.

New catalyst produces green hydrogen from seawater Swinburne

Co-Catalyst Free Hydrogen Production The current work investigates various bimetallic catalysts supported on al 2 o 3 −zn−zro 2 to determine a catalyst with minimal co selectivity at high temperature. Notably, its hydrogen production rate reached 44.07 mmol g cat−1 h −1,. It achieved a remarkable hydrogen selectivity of up to 80% and an outstanding co selectivity of 0. The current work investigates various bimetallic catalysts supported on al 2 o 3 −zn−zro 2 to determine a catalyst with minimal co selectivity at high temperature. Catalytic decomposition of ammonia has been investigated as a method to produce hydrogen for fuel cell applications.