![Imaging the dynamics of catalysed surface reactions by in situ scanning electron microscopy - Nat. Catal. - X-MOL Imaging the dynamics of catalysed surface reactions by in situ scanning electron microscopy - Nat. Catal. - X-MOL](https://xpic.x-mol.com/20191217%2F10.1038_s41929-019-0395-3.png)
Imaging the dynamics of catalysed surface reactions by in situ scanning electron microscopy - Nat. Catal. - X-MOL
![Control of metal-support interactions in heterogeneous catalysts to enhance activity and selectivity,Nature Catalysis - X-MOL Control of metal-support interactions in heterogeneous catalysts to enhance activity and selectivity,Nature Catalysis - X-MOL](https://xpic.x-mol.com/20191105%2F10.1038_s41929-019-0364-x.jpg)
Control of metal-support interactions in heterogeneous catalysts to enhance activity and selectivity,Nature Catalysis - X-MOL
![Congratulations toAntonis, Stephen et al for their recent publication in Nature Catalysis | bedfordcatalysis Congratulations toAntonis, Stephen et al for their recent publication in Nature Catalysis | bedfordcatalysis](https://bedfordcatalysis.files.wordpress.com/2019/03/toc-graphic.png)
Congratulations toAntonis, Stephen et al for their recent publication in Nature Catalysis | bedfordcatalysis
![Nature Catalysis on Twitter: "Our July issue is now live. • Covalency competition in spinel oxides rules OER activity • Multiple catalytic activity in a self-replicator • A computational tool to screen Nature Catalysis on Twitter: "Our July issue is now live. • Covalency competition in spinel oxides rules OER activity • Multiple catalytic activity in a self-replicator • A computational tool to screen](https://pbs.twimg.com/media/EdWxqH7XYAMSW_h.jpg)
Nature Catalysis on Twitter: "Our July issue is now live. • Covalency competition in spinel oxides rules OER activity • Multiple catalytic activity in a self-replicator • A computational tool to screen
![Nature Catalysis a Twitter: "June issue out now. Fe–S clusters to reduce CO2 to hydrocarbons (see cover). Also inside: iron-catalysed Suzuki couplings, photocathode design for inexpensive water splitting, reviews on methanol-to-hydrocarbons and Nature Catalysis a Twitter: "June issue out now. Fe–S clusters to reduce CO2 to hydrocarbons (see cover). Also inside: iron-catalysed Suzuki couplings, photocathode design for inexpensive water splitting, reviews on methanol-to-hydrocarbons and](https://pbs.twimg.com/media/DgTaqplWsAA8WFT.jpg)
Nature Catalysis a Twitter: "June issue out now. Fe–S clusters to reduce CO2 to hydrocarbons (see cover). Also inside: iron-catalysed Suzuki couplings, photocathode design for inexpensive water splitting, reviews on methanol-to-hydrocarbons and
![Nature Catalysis on Twitter: "Check out our April issue. Cross-couplings with organosodiums, biological conversion of methane to methanol, engineered Ru sites for effective water oxidation, photoelectrocatalytic C–H amination, challenges in ... Nature Catalysis on Twitter: "Check out our April issue. Cross-couplings with organosodiums, biological conversion of methane to methanol, engineered Ru sites for effective water oxidation, photoelectrocatalytic C–H amination, challenges in ...](https://pbs.twimg.com/media/D38FEDBUYAAOobJ.jpg)
Nature Catalysis on Twitter: "Check out our April issue. Cross-couplings with organosodiums, biological conversion of methane to methanol, engineered Ru sites for effective water oxidation, photoelectrocatalytic C–H amination, challenges in ...
![Nature Catalysis on Twitter: "Issue 3 of Nature Catalysis now live! Tuning polyoxometalates for the oxygen evolution reaction, shifting the bottleneck in ammonia synthesis, lyases for asymmetric C–N bond formation, and more. Nature Catalysis on Twitter: "Issue 3 of Nature Catalysis now live! Tuning polyoxometalates for the oxygen evolution reaction, shifting the bottleneck in ammonia synthesis, lyases for asymmetric C–N bond formation, and more.](https://pbs.twimg.com/media/DXx5J8RWAAUC96u.jpg)
Nature Catalysis on Twitter: "Issue 3 of Nature Catalysis now live! Tuning polyoxometalates for the oxygen evolution reaction, shifting the bottleneck in ammonia synthesis, lyases for asymmetric C–N bond formation, and more.
![Nature Catalysis on Twitter: "Issue 1 of Nature Catalysis is now online! Scalable artificial photosynthesis, calcium hydrogenation catalysts, identification of single-atom electrocatalysts, complete lignocellulose conversion, and more. https://t.co ... Nature Catalysis on Twitter: "Issue 1 of Nature Catalysis is now online! Scalable artificial photosynthesis, calcium hydrogenation catalysts, identification of single-atom electrocatalysts, complete lignocellulose conversion, and more. https://t.co ...](https://pbs.twimg.com/media/DTCKo2UWAAA7Q53.jpg)
Nature Catalysis on Twitter: "Issue 1 of Nature Catalysis is now online! Scalable artificial photosynthesis, calcium hydrogenation catalysts, identification of single-atom electrocatalysts, complete lignocellulose conversion, and more. https://t.co ...
![Transition state and product diffusion control by polymer–nanocrystal hybrid catalysts | Request PDF Transition state and product diffusion control by polymer–nanocrystal hybrid catalysts | Request PDF](https://i1.rgstatic.net/publication/334977409_Transition_state_and_product_diffusion_control_by_polymer-nanocrystal_hybrid_catalysts/links/5f735f8e92851c14bc9fe674/largepreview.png)
Transition state and product diffusion control by polymer–nanocrystal hybrid catalysts | Request PDF
![Structural modulation and direct measurement of subnanometric bimetallic PtSn clusters confined in zeolites,Nature Catalysis - X-MOL Structural modulation and direct measurement of subnanometric bimetallic PtSn clusters confined in zeolites,Nature Catalysis - X-MOL](https://media.springernature.com/lw685/springer-static/image/art%3A10.1038%2Fs41929-020-0472-7/MediaObjects/41929_2020_472_Figa_HTML.png)
Structural modulation and direct measurement of subnanometric bimetallic PtSn clusters confined in zeolites,Nature Catalysis - X-MOL
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