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In Situ Grown Bimetallic (Ni, Fe)12P5 Nanoneedles With Favorable Electronic Structures and Superwetting Surfaces for Highly Efficient and Durable Seawater Splitting at Industrial Current Density

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Published in:Carbon Energy
Format: Online Article RSS Article
Published: 2026
Subjects:
— — — — — Energy
Environmental Management
Environmental Sciences
Journal Article
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container_title Carbon Energy
description
discipline_display Environmental Sciences
discipline_facet Environmental Sciences
format Online Article
RSS Article
genre Journal Article
id rss_article:30088
institution FRELIP
journal_source_facet Carbon Energy
publishDate 2026
publishDateSort 2026
record_format rss_article
spellingShingle In Situ Grown Bimetallic (Ni, Fe)12P5 Nanoneedles With Favorable Electronic Structures and Superwetting Surfaces for Highly Efficient and Durable Seawater Splitting at Industrial Current Density
— — — — — Energy
Environmental Management
Environmental Sciences
sub_discipline_display Environmental Management
sub_discipline_facet Environmental Management
subject_display — — — — — Energy
Environmental Management
Environmental Sciences
— — — — — Energy
Environmental Management
Environmental Sciences
subject_facet — — — — — Energy
Environmental Management
Environmental Sciences
title In Situ Grown Bimetallic (Ni, Fe)12P5 Nanoneedles With Favorable Electronic Structures and Superwetting Surfaces for Highly Efficient and Durable Seawater Splitting at Industrial Current Density
title_auth In Situ Grown Bimetallic (Ni, Fe)12P5 Nanoneedles With Favorable Electronic Structures and Superwetting Surfaces for Highly Efficient and Durable Seawater Splitting at Industrial Current Density
title_full In Situ Grown Bimetallic (Ni, Fe)12P5 Nanoneedles With Favorable Electronic Structures and Superwetting Surfaces for Highly Efficient and Durable Seawater Splitting at Industrial Current Density
title_fullStr In Situ Grown Bimetallic (Ni, Fe)12P5 Nanoneedles With Favorable Electronic Structures and Superwetting Surfaces for Highly Efficient and Durable Seawater Splitting at Industrial Current Density
title_full_unstemmed In Situ Grown Bimetallic (Ni, Fe)12P5 Nanoneedles With Favorable Electronic Structures and Superwetting Surfaces for Highly Efficient and Durable Seawater Splitting at Industrial Current Density
title_short In Situ Grown Bimetallic (Ni, Fe)12P5 Nanoneedles With Favorable Electronic Structures and Superwetting Surfaces for Highly Efficient and Durable Seawater Splitting at Industrial Current Density
title_sort in situ grown bimetallic (ni, fe)12p5 nanoneedles with favorable electronic structures and superwetting surfaces for highly efficient and durable seawater splitting at industrial current density
topic — — — — — Energy
Environmental Management
Environmental Sciences
url https://onlinelibrary.wiley.com/doi/10.1002/cey2.70219?af=R

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