Zhenluo Yuan scite author profile

An intriguing Hamamelis-like structure of K2Ti6O13 with branches of 10–20 nm in length is synthesized by alkali treatment of Ti3C2 MXene. It exhibits strong catalytic activity for hydrogen desorption from MgH2. The initial dehydrogenation temperature (175 °C) of a composite of MgH2 with 5 wt % K2Ti6O13 is 112 °C below that of pristine MgH2. Isothermal dehydrogenation analysis indicates that the composite releases 6.7 wt % hydrogen at 280 °C within 3 min, and with 2.7 wt % hydrogen being released at 200 °C. The activation energy of this material (105.67 kJ mol–1) is 69.67 kJ mol–1 lower than that of pristine MgH2. Its strong hydrogen adsorption/desorption capacity is attributed to the synergies of catalytic effects of KMgH3, TiO, and Ti, which originated from K2Ti6O13. These findings make a contribution to study the H2 storage properties of metal hydrides doped with Ti3C2 MXene derivatives.

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N-doped carbon coated Ti3C2 MXene as a high-efficiency catalyst for improving hydrogen storage kinetics and stability of NaAlH4

Yuan

Zhang

Fan

et al. 2022

Renewable Energy

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Ultrathin K2Ti8O17 nanobelts for improving the hydrogen storage kinetics of MgH2

Zhang

Yuan

et al. 2021

Journal of Alloys and Compounds

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Zhenluo Yuan

Two-dimensional MXene/A-TiO2 composite with unprecedented catalytic activation for sodium alanate

Two-dimensional C@TiO2/Ti3C2 composite with superior catalytic performance for NaAlH4

Hamamelis-like K₂Ti₆O₁₃ Synthesized by Alkali Treatment of Ti₃C₂ MXene: Catalysis for Hydrogen Storage in MgH₂

N-doped carbon coated Ti3C2 MXene as a high-efficiency catalyst for improving hydrogen storage kinetics and stability of NaAlH4

Ultrathin K2Ti8O17 nanobelts for improving the hydrogen storage kinetics of MgH2

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Zhenluo Yuan

Two-dimensional MXene/A-TiO2 composite with unprecedented catalytic activation for sodium alanate

Two-dimensional C@TiO2/Ti3C2 composite with superior catalytic performance for NaAlH4

Hamamelis-like K2Ti6O13 Synthesized by Alkali Treatment of Ti3C2 MXene: Catalysis for Hydrogen Storage in MgH2

N-doped carbon coated Ti3C2 MXene as a high-efficiency catalyst for improving hydrogen storage kinetics and stability of NaAlH4

Ultrathin K2Ti8O17 nanobelts for improving the hydrogen storage kinetics of MgH2

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Product

Resources

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Hamamelis-like K₂Ti₆O₁₃ Synthesized by Alkali Treatment of Ti₃C₂ MXene: Catalysis for Hydrogen Storage in MgH₂