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Interface‐Engineered Li–Ni–O/Ni Heterostructures With Tunable Vacancies on Biochar Enable Biomass‐to‐Hydrogen Conversion

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Published in:Carbon Energy
Format: Online Article RSS Article
Published: 2026
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container_title Carbon Energy
description
discipline_display Energy
discipline_facet Energy
format Online Article
RSS Article
genre Journal Article
id rss_article:96361
institution FRELIP
journal_source_facet Carbon Energy
last_indexed 2026-06-27T03:36:24.373Z
publishDate 2026
publishDateSort 2026
record_format rss_article
spellingShingle Interface‐Engineered Li–Ni–O/Ni Heterostructures With Tunable Vacancies on Biochar Enable Biomass‐to‐Hydrogen Conversion
Energy
General
Energy
sub_discipline_display General
sub_discipline_facet General
subject_display Energy
General
Energy
subject_facet Energy
General
Energy
title Interface‐Engineered Li–Ni–O/Ni Heterostructures With Tunable Vacancies on Biochar Enable Biomass‐to‐Hydrogen Conversion
title_alt Heteroestructuras Li–Ni–O/Ni con vacantes sintonizables en biocarbón permiten la conversión de biomasa a hidrógeno
Hétérostructures Li–Ni–O/Ni à interface ingénierée avec lacunes accordables sur biochar permettent la conversion biomasse-hydrogène
Heteroestruturas Li–Ni–O/Ni com Vacâncias Ajustáveis em Biocarvão Possibilitam Conversão de Biomassa em Hidrogênio
title_auth Interface‐Engineered Li–Ni–O/Ni Heterostructures With Tunable Vacancies on Biochar Enable Biomass‐to‐Hydrogen Conversion
title_es_txt Heteroestructuras Li–Ni–O/Ni con vacantes sintonizables en biocarbón permiten la conversión de biomasa a hidrógeno
title_fr_txt Hétérostructures Li–Ni–O/Ni à interface ingénierée avec lacunes accordables sur biochar permettent la conversion biomasse-hydrogène
title_full Interface‐Engineered Li–Ni–O/Ni Heterostructures With Tunable Vacancies on Biochar Enable Biomass‐to‐Hydrogen Conversion
title_fullStr Interface‐Engineered Li–Ni–O/Ni Heterostructures With Tunable Vacancies on Biochar Enable Biomass‐to‐Hydrogen Conversion
title_full_unstemmed Interface‐Engineered Li–Ni–O/Ni Heterostructures With Tunable Vacancies on Biochar Enable Biomass‐to‐Hydrogen Conversion
title_pt_txt Heteroestruturas Li–Ni–O/Ni com Vacâncias Ajustáveis em Biocarvão Possibilitam Conversão de Biomassa em Hidrogênio
title_short Interface‐Engineered Li–Ni–O/Ni Heterostructures With Tunable Vacancies on Biochar Enable Biomass‐to‐Hydrogen Conversion
title_sort interface‐engineered li–ni–o/ni heterostructures with tunable vacancies on biochar enable biomass‐to‐hydrogen conversion
topic Energy
General
Energy
url https://onlinelibrary.wiley.com/doi/10.1002/cey2.70266?af=R