- Accurate tuning of rare earth metal-organic frameworks with unprecedented topology for white-light emission
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A series of isostructural rare-earth metal-organic frameworks (RE-MOFs), namely {[RE(L-X)(H2O)]·2DMF}n (UPC-38, RE = Eu, Tb, X = H, F, Cl, NH2, CH3, OCH3; L = [1,1′:3′,1′′-terphenyl]-4,4′′,5′-tricarbo
- Wang, Yutong,Zhang, Kai,Wang, Xiaokang,Xin, Xuelian,Zhang, Xiurong,Fan, Weidong,Xu, Ben,Dai, Fangna,Sun, Daofeng
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supporting information
p. 1374 - 1379
(2020/02/11)
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- Optimizing Multivariate Metal-Organic Frameworks for Efficient C2H2/CO2Separation
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Adsorptive separation of acetylene (C2H2) from carbon dioxide (CO2) promises a practical way to produce high-purity C2H2 required for industrial applications. However, challenges exist in the pore environment engineering of porous materials to recognize two molecules due to their similar molecular sizes and physical properties. Herein, we report a strategy to optimize pore environments of multivariate metal-organic frameworks (MOFs) for efficient C2H2/CO2 separation by tuning metal components, functionalized linkers, and terminal ligands. The optimized material UPC-200(Al)-F-BIM, constructed from Al3+ clusters, fluorine-functionalized organic linkers, and benzimidazole terminal ligands, demonstrated the highest separation efficiency (C2H2/CO2 uptake ratio of 2.6) and highest C2H2 productivity among UPC-200 systems. Experimental and computational studies revealed the contribution of small pore size and polar functional groups on the C2H2/CO2 selectivity and indicated the practical C2H2/CO2 separation of UPC-200(Al)-F-BIM.
- Fan, Weidong,Yuan, Shuai,Wang, Wenjing,Feng, Liang,Liu, Xiuping,Zhang, Xiurong,Wang, Xia,Kang, Zixi,Dai, Fangna,Yuan, Daqiang,Sun, Daofeng,Zhou, Hong-Cai
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supporting information
p. 8728 - 8737
(2020/12/25)
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- Topology Exploration in Highly Connected Rare-Earth Metal-Organic Frameworks via Continuous Hindrance Control
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The structural diversity of highly connected metal-organic frameworks (MOFs) has long been limited due to the scarcity of highly connected metal clusters and the corresponding available topology. Herein, we deliberately chose a series of tritopic linkers
- Wang, Yutong,Feng, Liang,Fan, Weidong,Wang, Kun-Yu,Wang, Xia,Wang, Xiaokang,Zhang, Kai,Zhang, Xiurong,Dai, Fangna,Sun, Daofeng,Zhou, Hong-Cai
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supporting information
p. 6967 - 6975
(2019/05/10)
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- Topology Exploration in Highly Connected Rare-Earth Metal-Organic Frameworks via Continuous Hindrance Control
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The structural diversity of highly connected metal-organic frameworks (MOFs) has long been limited due to the scarcity of highly connected metal clusters and the corresponding available topology. Herein, we deliberately chose a series of tritopic linkers
- Wang, Yutong,Feng, Liang,Fan, Weidong,Wang, Kun-Yu,Wang, Xia,Wang, Xiaokang,Zhang, Kai,Zhang, Xiurong,Dai, Fangna,Sun, Daofeng,Zhou, Hong-Cai
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supporting information
(2019/05/06)
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- Aromatic sulfonyl fluorides covalently kinetically stabilize transthyretin to prevent amyloidogenesis while affording a fluorescent conjugate
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Molecules that bind selectively to a given protein and then undergo a rapid chemoselective reaction to form a covalent conjugate have utility in drug development. Herein a library of 1,3,4-oxadiazoles substituted at the 2 position with an aryl sulfonyl fluoride and at the 5 position with a substituted aryl known to have high affinity for the inner thyroxine binding subsite of transthyretin (TTR) was conceived of by structure-based design principles and was chemically synthesized. When bound in the thyroxine binding site, most of the aryl sulfonyl fluorides react rapidly and chemoselectively with the pK a-perturbed K15 residue, kinetically stabilizing TTR and thus preventing amyloid fibril formation, known to cause polyneuropathy. Conjugation t50s range from 1 to 4 min, ~1400 times faster than the hydrolysis reaction outside the thyroxine binding site. X-ray crystallography confirms the anticipated binding orientation and sheds light on the sulfonyl fluoride activation leading to the sulfonamide linkage to TTR. A few of the aryl sulfonyl fluorides efficiently form conjugates with TTR in plasma. Eleven of the TTR covalent kinetic stabilizers synthesized exhibit fluorescence upon conjugation and therefore could have imaging applications as a consequence of the environment sensitive fluorescence of the chromophore.
- Grimster, Neil P.,Connelly, Stephen,Baranczak, Aleksandra,Dong, Jiajia,Krasnova, Larissa B.,Sharpless, K. Barry,Powers, Evan T.,Wilson, Ian A.,Kelly, Jeffery W.
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supporting information
p. 5656 - 5668
(2013/06/04)
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- Iodothyronine Deiodinase Mimics. Deiodination of o,o'-Diiodophenols by Selenium and Tellurium Reagents
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To better understand, and in the extension mimic, the action of the three selenium-containing iodothyronine deiodinases, o,o'-diiodophenols were reacted under acidic conditions with sodium hydrogen telluride, benzenetellurol, sodium hydrogen selenide, or benzeneselenol and under basic conditions with the corresponding deprotonated reagents. Sodium hydrogen telluride was found to selectively remove one iodine from a variety of 4-substituted o,o'-diiodophenols, including a protected form of thyroxine (T4). Thus, it mimics the D1 variety of the iodothyronine deiodinases. Sodium telluride was a more reactive deiodinating agent toward o,o'-diiodophenols, often causing removal of both halogens. Benzenetellurol and sodium benzenetellurolate sometimes showed useful selectivity for monodeiodination. However, the products were often contaminated by small amounts of organotellurium compounds. Sodium hydrogen selenide, sodium selenide, benzeneselenol, and sodium benzeneselenolate were essentially unreactive toward o,o'-diiodophenols. To gain more insight into thyroxine inner-ring deiodination, substituted 2,6-diiodophenyl methyl ethers were treated with some of the chalcogen reagents. Reactivity and selectivity for monodeiodination varied considerably depending on the substituents attached to the aromatic nucleus. In general, it was possible to find reagents that could bring about the selective mono- or dideiodination of these substrates.
- Vasil'ev, Andrei A.,Engman, Lars
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p. 3911 - 3917
(2007/10/03)
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- Fluorescent chemosensors based on energy migration in conjugated polymers: The molecular wire approach to increased sensitivity
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We demonstrate herein how conjugated polymers (molecular wires) can be used to interconnect (wire in series) receptors to produce fluorescent chemosensory systems with sensitivity enhancements over single receptor analogues. The enhancement mechanism in t
- Zhou, Qin,Swager, Timothy M.
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p. 12593 - 12602
(2007/10/03)
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