Priyanka Ruz scite author profile

Ammonia borane (AB) is considered a potential “on-board” hydrogen storage material. However, its implementation as a hydrogen reservoir in fuel cells is lacking due to the extremely slow release of hydrogen at room-temperature hydrolysis. In this study, a metal-free supramolecular strategy is demonstrated at room temperature to increase the hydrolysis rate and yield of hydrogen along with significant reduction in ammonia release by using cucurbit[5/8]uril (CB5/CB8) nanocavitands as catalysts. The complex of AB with CB stabilizes the ammonium ion at the host portals, which reduces ammonia release and enhances hydrogen yield. The complexation brings down the activation energy of hydrolysis from 103.8 to ∼27.5 kJ mol–1 (for CB5), a value close to the Pt/Pd nanoparticle-based catalysts reported so far. The high catalytic performance and reusability of CB catalysts at very low concentration make AB a promising supramolecular alternative for a sustainable “on-board” energy source.

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Structural evolution of turbostratic carbon: Implications in H2 storage

Ruz

Banerjee

Pandey

et al. 2016

Solid State Sciences

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Comparative evaluation of hydrogen storage behavior of Pd doped carbon nanotubes prepared by wet impregnation and polyol methods

Banerjee

Dasgupta

Kumar

et al. 2015

International Journal of Hydrogen Energy

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Influence of Laves phase on microstructure and hydrogen storage properties of Ti–Cr–V based alloy

Banerjee

Kumar

Ruz

et al. 2016

International Journal of Hydrogen Energy

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Thermodynamics, kinetics and microstructural evolution of Ti 0.43 Zr 0.07 Cr 0.25 V 0.25 alloy upon hydrogenation

Ruz

Banerjee

Halder

et al. 2017

International Journal of Hydrogen Energy

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Priyanka Ruz

Metal-Free Supramolecular Catalytic Hydrolysis of Ammonia Borane through Cucurbituril Nanocavitands

Structural evolution of turbostratic carbon: Implications in H2 storage

Comparative evaluation of hydrogen storage behavior of Pd doped carbon nanotubes prepared by wet impregnation and polyol methods

Influence of Laves phase on microstructure and hydrogen storage properties of Ti–Cr–V based alloy

Thermodynamics, kinetics and microstructural evolution of Ti 0.43 Zr 0.07 Cr 0.25 V 0.25 alloy upon hydrogenation

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