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261.
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Takashi Noda Yuya Doi Yutaka Ohta Shin-ichi Takata Atsushi Takano Yushu Matsushita 《Journal of polymer science. Part A, Polymer chemistry》2020,58(15):2098-2107
A four-branched cage-shaped poly(ethylene oxide) (4C-PEO) was prepared by a coupling reaction at very dilute condition between two kinds of end-functional four-armed star-shaped PEOs having amino and N-hydroxysuccinimide groups on their four ends, followed by purification using α-cyclodextrin (α-CD). The raw coupling reaction product shows multiple peaks including various high molecular weight multimeric products in size-exclusion chromatography measurements, while the product after α-CD purification shows a single peak eluted slightly earlier than the precursor star PEOs. Moreover, the final product obtained has about twice higher molecular weight than the star precursors. These results suggest that the targeted 4C-PEO polymer was successfully isolated through the α-CD purification. Small-angle neutron scattering (SANS) measurements of the final product in dilute solution were conducted, and its chain conformation was evaluated from the scattering profile in comparison with linear and star polymers. It has been found that the cage-shaped sample exhibits a distinct peak at lower q-region in the Kratky plot, which is in strong contrast with the linear counterpart. This result must be originated from the characteristic cage-shaped architecture, that is, having branched and closed-loop configurations, and hence having higher segmental density than simple linear and star molecules. In fact, the present experimental result is consistent with the recent Monte Carlo simulation reported by Uehara and Deguchi. 相似文献
263.
Cover Picture: Total Synthesis and Complete Stereostructure of a Marine Macrolide Glycoside, (−)‐Lyngbyaloside B (Chem. Eur. J. 20/2016)
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264.
Ion‐Pairing Assemblies Based on Pentacyano‐Substituted Cyclopentadienide as a π‐Electronic Anion
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Dr. Yuya Bando Dr. Yohei Haketa Dr. Tsuneaki Sakurai Dr. Wakana Matsuda Prof. Shu Seki Prof. Hikaru Takaya Prof. Hiromitsu Maeda 《Chemistry (Weinheim an der Bergstrasse, Germany)》2016,22(23):7843-7850
Pentacyanocyclopentadienide (PCCp?), a stable π‐electronic anion, provided various ion‐pairing assemblies in combination with various cations. PCCp?‐based assemblies exist as single crystals and mesophases owing to interionic interactions with π‐electronic and aliphatic cations with a variety of geometries, substituents, and electronic structures. Single‐crystal X‐ray analysis revealed that PCCp? formed cation‐dependent arrangements with contributions from charge‐by‐charge and charge‐segregated assembly modes for ion pairs with π‐electronic and aliphatic cations, respectively. Furthermore, some aliphatic cations gave dimension‐controlled organized structures with PCCp?, as observed in the mesophases, for which synchrotron XRD analysis suggested the formation of charge‐segregated modes. Noncontact evaluation of conductivity for (C12H25)3MeN+ ? PCCp? films revealed potential hole‐transporting properties, yielding a local‐scale hole mobility of 0.4 cm2 V?1 s?1 at semiconductor–insulator interfaces. 相似文献
265.
Tetsuya Ezawa Yuya Kawashima Takuya Noguchi Seunghee Jung Nobuyuki Imai 《Tetrahedron: Asymmetry》2017,28(12):1690-1699
Primary amidations of carboxylic acids 1 or 3 with NH4Cl in the presence of ClCO2Et and Et3N were developed to afford the corresponding primary amides in 22% to quantitative yields. Additionally, we have applied the amidation to the preparation of various amides containing hydroxamic acids and achieved the synthesis of (1S,2R)-tranylcypromine as an antidepressant medicine via Lossen rearrangement. 相似文献
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Bruce M. Law Sean P. McBride Jiang Yong Wang Haeng Sub Wi Govind Paneru Santigo Betelu Baku Ushijima Youichi Takata Bret Flanders Fernando Bresme Hiroki Matsubara Takanori Takiue Makoto Aratono 《Progress in Surface Science》2017,92(1):1-39
In this review we examine the influence of the line tension τ on droplets and particles at surfaces. The line tension influences the nucleation behavior and contact angle of liquid droplets at both liquid and solid surfaces and alters the attachment energetics of solid particles to liquid surfaces. Many factors, occurring over a wide range of length scales, contribute to the line tension. On atomic scales, atomic rearrangements and reorientations of submolecular components give rise to an atomic line tension contribution τatom (~1 nN), which depends on the similarity/dissimilarity of the droplet/particle surface composition compared with the surface upon which it resides. At nanometer length scales, an integration over the van der Waals interfacial potential gives rise to a mesoscale contribution |τvdW| ~ 1–100 pN while, at millimeter length scales, the gravitational potential provides a gravitational contribution τgrav ~ +1–10 μN. τgrav is always positive, whereas, τvdW can have either sign. Near wetting, for very small contact angle droplets, a negative line tension may give rise to a contact line instability. We examine these and other issues in this review. 相似文献
270.
Dr. Kenta Arai Toshiki Takei Dr. Masaki Okumura Dr. Satoshi Watanabe Dr. Yuta Amagai Dr. Yuya Asahina Prof. Dr. Luis Moroder Prof. Dr. Hironobu Hojo Prof. Dr. Kenji Inaba Prof. Dr. Michio Iwaoka 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2017,129(20):5614-5618
Synthetic insulin analogues with a long lifetime are current drug targets for the therapy of diabetic patients. The replacement of the interchain disulfide with a diselenide bridge, which is more resistant to reduction and internal bond rotation, can enhance the lifetime of insulin in the presence of the insulin-degrading enzyme (IDE) without impairing the hormonal function. The [C7UA,C7UB] variant of bovine pancreatic insulin (BPIns) was successfully prepared by using two selenocysteine peptides (i.e., the C7U analogues of A- and B-chains, respectively). In a buffer solution at pH 10 they spontaneously assembled under thermodynamic control to the correct insulin fold. The selenoinsulin (Se-Ins) exhibited a bioactivity comparable to that of BPIns. Interestingly, degradation of Se-Ins with IDE was significantly decelerated (τ1/2≈8 h vs. ≈1 h for BPIns). The lifetime enhancement could be due to both the intrinsic stability of the diselenide bond and local conformational changes induced by the substitution. 相似文献