C
Christina T. Lollar
Researcher at Texas A&M University
Publications - 33
Citations - 5770
Christina T. Lollar is an academic researcher from Texas A&M University. The author has contributed to research in topics: Metal-organic framework & Mesoporous material. The author has an hindex of 21, co-authored 33 publications receiving 3758 citations. Previous affiliations of Christina T. Lollar include Southern Methodist University.
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Journal ArticleDOI
Stable Metal-Organic Frameworks: Design, Synthesis, and Applications.
Shuai Yuan,Liang Feng,Kecheng Wang,Jiandong Pang,Matheiu Bosch,Christina T. Lollar,Yujia Sun,Jun-Sheng Qin,Xinyu Yang,Peng Zhang,Qi Wang,Lanfang Zou,Yingmu Zhang,Liangliang Zhang,Yu Fang,Jialuo Li,Hong-Cai Zhou +16 more
TL;DR: This review is expected to guide the design of stable MOFs by providing insights into existing structures, which could lead to the discovery and development of more advanced functional materials.
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Recent advances in gas storage and separation using metal–organic frameworks
TL;DR: In this article, the authors highlight the recent advances in gas storage and separation using metal-organic frameworks (MOFs) and summarize the gas uptakes of some benchmark MOFs, emphasizing on the desired chemical properties of MOFs for different gas storage/separation scenarios.
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Enzyme–MOF (metal–organic framework) composites
Xizhen Lian,Yu Fang,Elizabeth A. Joseph,Qi Wang,Jialuo Li,Sayan Banerjee,Christina T. Lollar,Xuan Wang,Hong-Cai Zhou +8 more
TL;DR: This review summarizes recent developments of MOF-enzyme composites with special emphasis on preparative techniques and the synergistic effects of enzymes and MOFs.
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Stable Metal–Organic Frameworks with Group 4 Metals: Current Status and Trends
TL;DR: The unique properties of MIV-MOFs are discussed, including their high chemical stability and strong tolerance toward defects, and the perspective of new opportunities in synthesis and defect engineering is concluded.
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Switching in Metal–Organic Frameworks
TL;DR: This perspective focuses on the properties and general design of switchable MOFs, a type of smart material that undergo reversible, chemical changes in their structure upon exposure to external stimuli, yielding important technological applicability.