Blanton, Alicia; Islam, Taohedul; Roy, Subrata Chandra; Celik, Ahmet; Nie, Jing et al. (2023). Porous Semiconducting K–Sn–Mo–S Aerogel: Synthesis, Local Structure, and Ion-Exchange Properties. Chemistry of Materials 35(24) , 10446-10456. 10.1021/acs.chemmater.3c01675. |
BIOXAS-SPECTROSCOPY, VESPERS |
Peer-Reviewed Article |
Materials |
Blanton, Alicia; Islam, Taohedul; Roy, Subrata Chandra; Celik, Ahmet; Nie, Jing et al. (2023). Porous Semiconducting K–Sn–Mo–S Aerogel: Synthesis, Local Structure, and Ion-Exchange Properties. Chemistry of Materials 35(24) , 10446-10456. 10.1021/acs.chemmater.3c01675. |
BIOXAS-SPECTROSCOPY, VESPERS |
Peer-Reviewed Article |
Materials |
Cheng, Changjun; Feng, Renfei; Haché, Michel J.R.; Zhang, Xiaofu; Zou, Yu et al. (2023). Phase formability and nanomechanical properties in nanostructured multi-principal element alloys: Combinatorial and data-driven studies. Materials Today Nano 24, 100403. 10.1016/j.mtnano.2023.100403. |
VESPERS |
Peer-Reviewed Article |
Materials |
Hong, Hu; Fu, Yihang; Chen, Long; Ding, Hekun; Feng, Renfei et al. (2023). Amino-doping regulates the surface of nickel-based catalysts to promote the formation of the real active states. Solid State Sciences 146, 107343. 10.1016/j.solidstatesciences.2023.107343. |
SXRMB, VESPERS |
Peer-Reviewed Article |
Materials |
Hong, Hu; Fu, Yihang; Chen, Long; Ding, Hekun; Feng, Renfei et al. (2023). Amino-doping regulates the surface of nickel-based catalysts to promote the formation of the real active states. Solid State Sciences 146, 107343. 10.1016/j.solidstatesciences.2023.107343. |
SXRMB, VESPERS |
Peer-Reviewed Article |
Materials |
Islam, Taohedul; Li, Mengya; Blanton, Alicia; Pitton, Kathryn A.; Rao, Keerthan R. et al. (2023). Chalcocarbogels as High-Capacity and Cycle-Stable Electrode Materials for Lithium and Sodium Ion Batteries. ACS Energy Letters , 1-9. 10.1021/acsenergylett.3c02112. |
VESPERS |
Peer-Reviewed Article |
Materials |
Li, Weihan; Li, Minsi; Chien, Po-Hsiu; Wang, Shuo; Yu, Chuang et al. (2023). Lithium-compatible and air-stable vacancy-rich Li
9
N
2
Cl
3
for high–areal capacity, long-cycling all–solid-state lithium metal batteries. Science advances 9(42) . 10.1126/sciadv.adh4626. |
BXDS-WHE, SGM, SXRMB, VESPERS |
Peer-Reviewed Article |
Materials |
Li, Weihan; Li, Minsi; Chien, Po-Hsiu; Wang, Shuo; Yu, Chuang et al. (2023). Lithium-compatible and air-stable vacancy-rich Li
9
N
2
Cl
3
for high–areal capacity, long-cycling all–solid-state lithium metal batteries. Science advances 9(42) . 10.1126/sciadv.adh4626. |
BXDS-WHE, SGM, SXRMB, VESPERS |
Peer-Reviewed Article |
Materials |
Li, Weihan; Li, Minsi; Chien, Po-Hsiu; Wang, Shuo; Yu, Chuang et al. (2023). Lithium-compatible and air-stable vacancy-rich Li
9
N
2
Cl
3
for high–areal capacity, long-cycling all–solid-state lithium metal batteries. Science advances 9(42) . 10.1126/sciadv.adh4626. |
BXDS-WHE, SGM, SXRMB, VESPERS |
Peer-Reviewed Article |
Materials |