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Literature DB >> 25883068

Impact of a conductive oxide core in tungsten sulfide-based nanostructures on the hydrogen evolution reaction.

Bora Seo¹, Hu Young Jeong, Sung You Hong, Alla Zak, Sang Hoon Joo.

Abstract

Tungsten oxide/tungsten sulfide (W18O49@WS2) core-shell nanorods prepared via a controlled sulfidization reaction of W18O49 nanowhiskers showed hydrogen evolution reaction (HER) activity superior to WS2 nanotubes, indicating the critical role of a highly conductive oxide core in enhancing HER activity.

Entities: Chemical

Year: 2015 PMID： 25883068 DOI： 10.1039/c5cc02472b

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

2 in total

Review 1. Recent advances in unveiling active sites in molybdenum sulfide-based electrocatalysts for the hydrogen evolution reaction.

Authors: Bora Seo; Sang Hoon Joo
Journal: Nano Converg Date: 2017-07-25

2. Open-ended W₁₈O₄₉-filled tungsten dichalcogenide nanotubes grown on a W substrate to efficiently catalyze hydrogen evolution.

Authors: Yubao Li; Wei Zhang; Tianqi Wang; Yating Cao; Kai Zhang; Cuncai Lv
Journal: Nanoscale Adv Date: 2021-10-19

2 in total

Impact of a conductive oxide core in tungsten sulfide-based nanostructures on the hydrogen evolution reaction.

Review 1. Recent advances in unveiling active sites in molybdenum sulfide-based electrocatalysts for the hydrogen evolution reaction.

2. Open-ended W18O49-filled tungsten dichalcogenide nanotubes grown on a W substrate to efficiently catalyze hydrogen evolution.

2. Open-ended W₁₈O₄₉-filled tungsten dichalcogenide nanotubes grown on a W substrate to efficiently catalyze hydrogen evolution.