T
Thomas E. Albrecht-Schmitt
Researcher at Florida State University
Publications - 431
Citations - 12821
Thomas E. Albrecht-Schmitt is an academic researcher from Florida State University. The author has contributed to research in topics: Uranyl & Crystal structure. The author has an hindex of 53, co-authored 430 publications receiving 11339 citations. Previous affiliations of Thomas E. Albrecht-Schmitt include Soochow University (Suzhou) & Auburn University.
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A metal–organic framework material that functions as an enantioselective catalyst for olefin epoxidation
TL;DR: A new microporous metal-organic framework compound featuring chiral (salen)Mn struts is highly effective as an asymmetric catalyst for olefin epoxidation, yielding enantiomeric excesses that rival those of the free molecular analogue.
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Umbellate distortions of the uranyl coordination environment result in a stable and porous polycatenated framework that can effectively remove cesium from aqueous solutions.
Yanlong Wang,Zhiyong Liu,Yuxiang Li,Zhuanling Bai,Wei Liu,Yaxing Wang,Xiaomei Xu,Chengliang Xiao,Daopeng Sheng,Juan Diwu,Jing Su,Zhifang Chai,Thomas E. Albrecht-Schmitt,Shuao Wang +13 more
TL;DR: Being equipped with the highest surface area among all actinide compounds known to date and completely exchangeable [(CH3)2NH2](+) cations in the structure, this material is able to selectively remove cesium from aqueous solutions while retaining the polycatenated framework structure.
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Overcoming the crystallization and designability issues in the ultrastable zirconium phosphonate framework system.
Tao Zheng,Zaixing Yang,Daxiang Gui,Zhiyong Liu,Xiangxiang Wang,Xing Dai,Shengtang Liu,Linjuan Zhang,Yang Gao,Lanhua Chen,Daopeng Sheng,Yanlong Wang,Juan Diwu,Jianqiang Wang,Ruhong Zhou,Ruhong Zhou,Ruhong Zhou,Zhifang Chai,Thomas E. Albrecht-Schmitt,Shuao Wang +19 more
TL;DR: SZ-2 and SZ-3 can effectively remove uranyl ions from aqueous solutions over a wide pH range, and the removal mechanism is elucidated, and single crystals of three zirconium phosphonates that are suitable for structural analysis are obtained.
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Identifying the Recognition Site for Selective Trapping of 99TcO4– in a Hydrolytically Stable and Radiation Resistant Cationic Metal–Organic Framework
Lin Zhu,Daopeng Sheng,Chao Xu,Xing Dai,Mark A. Silver,Jie Li,Peng Li,Yaxing Wang,Yanlong Wang,Lanhua Chen,Chengliang Xiao,Jing Chen,Ruhong Zhou,Chao Zhang,Omar K. Farha,Omar K. Farha,Zhifang Chai,Thomas E. Albrecht-Schmitt,Shuao Wang +18 more
TL;DR: A hydrolytically stable and radiation-resistant cationic metal-organic framework (MOF), SCU-101, exhibiting extremely fast removal kinetics, exceptional distribution coefficient, and high sorption capacity toward TcO4 is reported, capable of effectively separating T cO4- from Hanford low-level waste melter off-gas scrubber simulant stream.
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Efficient and Selective Uptake of TcO4– by a Cationic Metal–Organic Framework Material with Open Ag+ Sites
Daopeng Sheng,Lin Zhu,Chao Xu,Chengliang Xiao,Yanlong Wang,Yaxing Wang,Lanhua Chen,Juan Diwu,Jing Chen,Zhifang Chai,Thomas E. Albrecht-Schmitt,Shuao Wang +11 more
TL;DR: This work represents a practical case of TcO4- removal by a MOF material and demonstrates the promise of using this type of material as a scavenger for treating anionic radioactive contaminants during the nuclear waste partitioning and remediation processes.