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A molten-salt dispersion of lanthanides at the atomic scale

Persistent synthesis challenges constrain the stabilization of single-atom lanthanide catalysts across many substrates. Using a method based on molten-nitrite chemistry, the atomic dispersion of lanthanide atoms on diverse substrates is achieved and exemplified by Dy₁/Pt for acidic hydrogen evolution.

Haoyuan Wang
Chunxiao Liu
Chuan Xia
Research19 Feb 2026
Nature Materials

P: 1-9
Ultrafine metal nanoparticles isolated on oxide nano-islands as exceptional sintering-resistant catalysts

An isolation strategy is presented to improve the stability of metal nanoparticles by grafting oxide nano-islands between the support and the nanoparticles. This enhances sintering resistance, with the mean size of the nanoparticles maintained at 1.4 nm after 400 h of catalytic dry reforming of methane.

Tao Zhou
Xu Li
Jie Zeng
Research10 Mar 2025
Nature Materials

Volume: 24, P: 891-899
Reaction-induced dynamic evolution of PtIn/SiO₂ catalyst for propane dehydrogenation

Understanding the dynamic evolution of heterogeneous catalysts is crucial yet challenging. This work uncovers the transformation of amorphous PtIn clusters into ultrafine Pt₃In intermetallics, driven by propylene during propane dehydrogenation, highlighting the pivotal role of product-induced changes in revealing the true active sites.

Tao Zhou
Han Yan
Xu Li
ResearchOpen Access03 Jun 2025
Nature Communications

Volume: 16, P: 1-10
Propane wet reforming over PtSn nanoparticles on γ-Al₂O₃ for acetone synthesis

The authors propose a sustainable route for acetone synthesis by directly reacting propane and water with PtSn nanoparticles on γ-Al₂O₃ as the catalyst

Xinlong Ma
Haibin Yin
Jie Zeng
ResearchOpen Access30 Sept 2024
Nature Communications

Volume: 15, P: 1-12
Facet sensitivity of iron carbides in Fischer-Tropsch synthesis

The impact of facets on Fischer-Tropsch synthesis has primarily been explored through theoretical studies or on single-crystal surfaces, lacking experimental data on practical catalysts. Here, the authors provide experimental evidence of the facet sensitivity of iron carbides during syngas conversion by creating {202} and {112} χ-Fe₅C₂ facets.

Wenlong Wu
Jiahua Luo
Jie Zeng
ResearchOpen Access19 Jul 2024
Nature Communications

Volume: 15, P: 1-11
Efficient ethylene electrosynthesis through C–O cleavage promoted by water dissociation

CO electroreduction is a promising carbonate-free approach to produce ethylene, but suffers from limited selectivity and low energy efficiency. By modifying copper with a strong electron acceptor, 7,7,8,8-tetracyanoquinodimethane, the water dissociation step is accelerated, leading to excellent ethylene selectivity and full-cell energy efficiency in CO electroreduction.

Yongxiang Liang
Feng Li
Edward H. Sargent
Research20 Jun 2024
Nature Synthesis

Volume: 3, P: 1104-1112
Selectively anchoring single atoms on specific sites of supports for improved oxygen evolution

While single-atom catalysts offer well-defined structures, the homogeneity of the active sites is determined by localized coordination environments. Here, authors anchor Ir single atoms onto different sites on CoOOH and show how their distinct coordinations activate oxygen-evolving electrocatalysis

Zhirong Zhang
Chen Feng
Jie Zeng
ResearchOpen Access05 May 2022
Nature Communications

Volume: 13, P: 1-10
Selective CO₂ electrolysis to CO using isolated antimony alloyed copper

Engineering Cu to achieve high catalytic selectivity towards carbon monoxide at high current density is challenging. Here, the authors report an Cu-Sb single-atom alloy catalyst that catalyzes CO₂ reduction at a current density of 500 mA cm⁻² with CO FE of ca. 91%.

Jiawei Li
Hongliang Zeng
Chuan Xia
ResearchOpen Access20 Jan 2023
Nature Communications

Volume: 14, P: 1-11

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