Confinement effect of mesopores: In situ synthesis of cationic tungsten-vacancies for a highly ordered mesoporous tungsten phosphide electrocatalyst

F Li, C Wang, X Han, X Feng, Y Qu, J Liu… - … applied materials & …, 2020 - ACS Publications
Engineering defects in crystalline electrocatalysts is an effective approach to tailor the
electronic structure and number of active sites, which are essential for the intrinsic activity of …
被引用次数:38 相关文章

Confinement Effect of Mesopores: In Situ Synthesis of Cationic Tungsten-Vacancies for a Highly Ordered Mesoporous Tungsten Phosphide Electrocatalyst

F Li, C Wang, X Han, X Feng, Y Qu… - … applied materials & …, 2020 - pubmed.ncbi.nlm.nih.gov
Engineering defects in crystalline electrocatalysts is an effective approach to tailor the
electronic structure and number of active sites, which are essential for the intrinsic activity of …

Confinement Effect of Mesopores: In Situ Synthesis of Cationic Tungsten-Vacancies for a Highly Ordered Mesoporous Tungsten Phosphide Electrocatalyst.

F Li, C Wang, X Han, X Feng, Y Qu, J Liu… - … Applied Materials & …, 2020 - europepmc.org
Engineering defects in crystalline electrocatalysts is an effective approach to tailor the
electronic structure and number of active sites, which are essential for the intrinsic activity of …
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[PDF][PDF] Confinement Effect of Mesopores: In Situ Synthesis of Cationic Tungsten-Vacancies for a Highly Ordered Mesoporous Tungsten Phosphide Electrocatalyst

F Li, C Wang, X Han, X Feng, Y Qu, J Liu, W Chen… - 2020 - sites.ji.sjtu.edu.cn
Engineering defects in crystalline electrocatalysts is an effective approach to tailor the
electronic structure and number of active sites, which are essential for the intrinsic activity of …

[引用][C] Confinement Effect of Mesopores: In Situ Synthesis of Cationic Tungsten-Vacancies for a Highly Ordered Mesoporous Tungsten Phosphide Electrocatalyst

F Li, C Wang, X Han, X Feng, Y Qu, J Liu, W Chen… - 2020