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Local structural distortions drive magnetic molecular field in compositionally complex spinel oxide

Understanding how local distortions affect the functional properties of high entropy materials remains an open challenge. This work found element-specific distortions beyond nearest neighbors and a flexible cationic sublattice in spinel oxides, linking mean-field magnetism to bond lengths.

Rukma Nevgi
Subha Dey
Srimanta Middey
ResearchOpen Access31 Jul 2025
Nature Communications

Volume: 16, P: 1-11
Beating the Stoner criterion using molecular interfaces

By harnessing the charge transfer that takes place at the interface between a metal and a layer of molecules, the usually non-magnetic materials copper and manganese are made magnetic at room temperature.

Fatma Al Ma’Mari
Timothy Moorsom
Oscar Cespedes
Research05 Aug 2015
Nature

Volume: 524, P: 69-73
Coordination environment tuning of nickel sites by oxyanions to optimize methanol electro-oxidation activity

Coordination environments around metal sites are important in electrocatalysis. Here, Ni metalloid oxidation produces oxyanion doped amorphous Ni-oxyhydroxides where substitution with phosphorus is found to boost methanol electrooxidation activity.

Shanlin Li
Ruguang Ma
Jiacheng Wang
ResearchOpen Access25 May 2022
Nature Communications

Volume: 13, P: 1-11
Molecular engineering of dispersed nickel phthalocyanines on carbon nanotubes for selective CO₂ reduction

Widespread deployment of electrochemical CO₂ reduction requires low-cost catalysts that perform well at high current densities. Zhang et al. show that methoxy-functionalized nickel phthalocyanine molecules on carbon nanotubes can operate as high-performing molecularly dispersed electrocatalysts at current densities of up to −300 mA cm^–2.

Xiao Zhang
Yang Wang
Yongye Liang
Research10 Aug 2020
Nature Energy

Volume: 5, P: 684-692
Atomically dispersed manganese catalysts for oxygen reduction in proton-exchange membrane fuel cells

Platinum group metal- and iron-free catalysts are highly desirable for the oxygen reduction reaction in proton-exchange membrane fuel cells. Now, Wu and co-workers show a carbon catalyst with atomically dispersed single Mn sites as an efficient catalyst with enhanced stability in acidic media.

Jiazhan Li
Mengjie Chen
Gang Wu
Research29 Oct 2018
Nature Catalysis

Volume: 1, P: 935-945
Nickel@Siloxene catalytic nanosheets for high-performance CO₂ methanation

There is a strong push to develop new catalysts and supports to convert low-value CO₂ into high-value CH₄. Here, authors found that the internal or external confinement of Ni on multi-layered siloxene supports determined the reaction pathway, activity, selectivity, and stability in CO₂ methanation.

Xiaoliang Yan
Wei Sun
Geoffrey A. Ozin
ResearchOpen Access13 Jun 2019
Nature Communications

Volume: 10, P: 1-11

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Local structural distortions drive magnetic molecular field in compositionally complex spinel oxide

Beating the Stoner criterion using molecular interfaces

Coordination environment tuning of nickel sites by oxyanions to optimize methanol electro-oxidation activity

Molecular engineering of dispersed nickel phthalocyanines on carbon nanotubes for selective CO2 reduction

Atomically dispersed manganese catalysts for oxygen reduction in proton-exchange membrane fuel cells

Nickel@Siloxene catalytic nanosheets for high-performance CO2 methanation

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Molecular engineering of dispersed nickel phthalocyanines on carbon nanotubes for selective CO₂ reduction

Nickel@Siloxene catalytic nanosheets for high-performance CO₂ methanation