| Ren, Bohua; Zhang, Zhen; Wen, Guobin; Zhang, Xiaowen; Xu, Mi et al. (2022). Dual‐Scale Integration Design of Sn–ZnO Catalyst toward Efficient and Stable CO
2
Electroreduction. Advanced Materials 34(38) , 2204637. 10.1002/adma.202204637. |
BIOXAS, BXDS-WLE, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Ren, Bohua; Zhang, Zhen; Wen, Guobin; Zhang, Xiaowen; Xu, Mi et al. (2022). Dual‐Scale Integration Design of Sn–ZnO Catalyst toward Efficient and Stable CO
2
Electroreduction (Adv. Mater. 38/2022). Advanced Materials 34(38) , 2270268. 10.1002/adma.202270268. |
BIOXAS, BXDS-WLE, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Ren, Bohua; Zhang, Zhen; Wen, Guobin; Zhang, Xiaowen; Xu, Mi et al. (2022). Dual‐Scale Integration Design of Sn–ZnO Catalyst toward Efficient and Stable CO
2
Electroreduction. Advanced Materials 34(38) , 2204637. 10.1002/adma.202204637. |
BIOXAS, BXDS-WLE, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Ren, Bohua; Zhang, Zhen; Wen, Guobin; Zhang, Xiaowen; Xu, Mi et al. (2022). Dual‐Scale Integration Design of Sn–ZnO Catalyst toward Efficient and Stable CO
2
Electroreduction (Adv. Mater. 38/2022). Advanced Materials 34(38) , 2270268. 10.1002/adma.202270268. |
BIOXAS, BXDS-WLE, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Ren, Bohua; Zhang, Zhen; Wen, Guobin; Zhang, Xiaowen; Xu, Mi et al. (2022). Dual‐Scale Integration Design of Sn–ZnO Catalyst toward Efficient and Stable CO
2
Electroreduction. Advanced Materials 34(38) , 2204637. 10.1002/adma.202204637. |
BIOXAS, BXDS-WLE, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
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SM |
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Materials |
| Ren, Xiaolin; Sutarto, Ronny; Wu, Xianxin; Zhang, Jianfeng; Huang, Hai et al. (2025). Resolving the electronic ground state of La3Ni2O7-δ films. Communications Physics 8(1) . 10.1038/s42005-025-01971-z. |
REIXS |
Peer-Reviewed Article |
Materials |
| Ren, Yikai; Stobbs, Jarvis A.; Lee, Dong-Jin; Li, Dongxing; Karunakaran, Chithra et al. (2024). Utilizing Synchrotron-Based X-ray Micro-Computed Tomography to Visualize the Microscopic Structure of Starch Hydrogels In Situ. Biomacromolecules . 10.1021/acs.biomac.3c01438. |
BMIT-BM |
Peer-Reviewed Article |
Agriculture |
| Richardson-Sanchez, Tomas; Chan, Anson C. K.; Sabatino, Brendil; Lin, Helen; Gaynor, Erin C. et al. (2023). Dissecting components of theCampylobacter jejuni fetMP-fetABCDEFgene cluster in iron scavenging. Tribology Letters . 10.1101/2023.07.05.547857. [PDB: 8t4c] |
CMCF-ID |
Peer-Reviewed Article |
Health |
| Richtik, Brooke N.; Manjón-Sanz, Alicia; Dolgos, Michelle (2025). Shifting and tilting towards enhanced piezoelectricity in high-temperature ceramics: an average structure study of (1 − x)BiFe2/8Ti3/8Mg3/8O3–xPbTiO3 through X-ray and neutron diffraction. Acta Crystallographica Section B: Structural Science. Crystal Engineering and Materials 81(3) , 337-349. 10.1107/s2052520625002781. |
BXDS-WHE |
Peer-Reviewed Article |
Materials |
| Rippner, Devin A.; Margenot, Andrew J.; Fakra, Sirine C.; Aguilera, L. Andrea; Li, Chongyang et al. (2021). Microbial response to copper oxide nanoparticles in soils is controlled by land use rather than copper fate. Environmental Science: Nano 8(12) , 3560-3576. 10.1039/d1en00656h. |
HXMA, VESPERS |
Peer-Reviewed Article |
Environment |
| Rippner, Devin A.; Margenot, Andrew J.; Fakra, Sirine C.; Aguilera, L. Andrea; Li, Chongyang et al. (2021). Microbial response to copper oxide nanoparticles in soils is controlled by land use rather than copper fate. Environmental Science: Nano 8(12) , 3560-3576. 10.1039/d1en00656h. |
HXMA, VESPERS |
Peer-Reviewed Article |
Environment |
| Risch, Marcel; Morales, Dulce M.; Villalobos, Javier; Antipin, Denis (2022). What X‐Ray Absorption Spectroscopy Can Tell Us About the Active State of Earth‐Abundant Electrocatalysts for the Oxygen Evolution Reaction. Angewandte Chemie - International Edition . 10.1002/anie.202211949. |
SGM |
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Materials |