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Combined σ- and π-Hole Donor Properties of Perfluorinated Iodo(or bromo)benzenes: Halogen Bonding and π-Hole Interactions in Cocrystals Including Cu4I4 Clusters 全氟碘(或溴)苯的σ-和π-空穴联合施主性质:含Cu4I4簇共晶中的卤素键和π-空穴相互作用
Crystal Growth & Design
Pub Date : 2023-06-21 DOI: 10.1021/acs.cgd.3c00412
Y. N. Toikka, G. Starova, V. Suslonov, R. Gomila, A. Frontera, V. Kukushkin, N. Bokach
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引用次数: 1
Synthesis and Structural and Theoretical Analyses of C≡N···I Halogen-Bonded Liquid Crystalline Complexes of 4-Cyano-4′-alkoxy Biphenyl Systems 4-氰基-4′-烷氧联苯体系C≡N···I卤素键液晶配合物的合成、结构及理论分析
Crystal Growth & Design
Pub Date : 2023-01-30 DOI: 10.1021/acs.cgd.2c01290
K. S. Ingle, Keshab M. Bairagi, Jyoti Swarup Thakur, R. Sathishkumar, Ramanaiah Chennuru, Bikash Baishya, S. Nayak
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引用次数: 2
Surface Modification of Hollow Nanostructured Mnaterials for Energy Storage 用于储能的中空纳米结构材料的表面改性
Crystal Growth & Design
Pub Date : 2022-08-09 DOI: 10.1021/acs.cgd.2c00681
Tianye Huang, Lekai Xu, Guanwei Jia, Jiang Du
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引用次数: 2
Synthesis and Columnar Organization of Partially Fluorinated Dehydrobenz[18]annulenes 部分氟化脱氢[18]环烯的合成及柱状组织
Crystal Growth & Design
Pub Date : 2022-01-12 DOI: 10.26434/chemrxiv-2022-lj6br
S. Karki, L. Karas, Xiqu Wang, J. Wu, O. Miljanić
Two diamond-shaped and partially fluorinated dehydrobenz[18]annulene macrocycles have been synthesized through a one-pot synthesis relying on fourfold Sonogashira coupling. Single crystal structures of the prepared macrocycles show continuous columnar stacks of these molecules that are mediated by the fluoroarene–alkyne, arene–alkyne, fluoroarene–fluoroarene, and alkyne–alkyne [π···π] interactions instead of the expected fluoroarene–arene [π···π] interaction.
利用四次Sonogashira偶联,通过一锅法合成了两个菱形和部分氟化脱氢[18]环烯大环。所制备的大环的单晶结构显示出这些分子的连续柱状堆叠,这些分子由氟芳烃-炔、芳烃-炔、氟芳烃-氟芳烃和炔-炔[π···π]相互作用介导,而不是预期的氟芳烃-芳烃[π···π]相互作用介导。
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引用次数: 0
Highly Purified Glucose Isomerase Crystals Under Microgravity Conditions Grow as Fast as Those on the Ground Do 高度纯化的葡萄糖异构酶晶体在微重力条件下的生长速度和在地面上一样快
Crystal Growth & Design
Pub Date : 2020-02-06 DOI: 10.26434/chemrxiv.11808504.v1
Yoshihisa Suzuki, Ai Ninomiya, S. Fukuyama, T. Shimaoka, Masae Nagai, K. Inaka, S. Yanagiya, T. Sone, Shingo Wachi, Satoshi Kawaguchi, Y. Arai, K. Tsukamoto
Suppression of convection flows (solute transportation) and that of impurity incorporation into crystals seem to be the main reasons why the quality of protein crystals becomes better under microgravity conditions, whereas each precise mechanism has not been completely clarified yet. We tried to clarify the former reason by the in-situ observation of spiral growth hillocks on the {110} faces of highly purified glucose isomerase (GI) crystals under microgravity conditions and on the ground. Lateral growth rates Vlateral of a spiral hillock on the {110} face of a glucose isomerase crystal in situ under microgravity conditions and step velocities Vstep of the same configuration on the ground took similar values as far as the maximum values are compared each other. This similarity indicates there are less influences of the convection flows on the growth rates of protein crystals contrary to conventional expectations.
对流流动(溶质运输)的抑制和杂质掺入晶体的抑制似乎是微重力条件下蛋白质晶体质量变得更好的主要原因,而每一个精确的机制尚未完全阐明。我们试图通过在微重力条件下和地面上观察高纯度葡萄糖异构酶(GI)晶体{110}表面的螺旋生长丘来澄清前者的原因。在微重力条件下原位葡萄糖异构酶晶体{110}表面螺旋丘的横向生长速率与地面上相同构型的阶跃速度在比较最大值时,其值相近。这种相似性表明对流流动对蛋白质晶体生长速率的影响较小,这与传统的预期相反。
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引用次数: 0
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