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The electro-optic and complex dielectric behaviour of an antiferroelectric liquid crystal 4-(1-methylheptyloxycarbonyl)phenyl 4'-(n-butanoyloxyprop-1-oxy)biphenyl-4-carboxylate, having chiral SmCA* and hexatic smectic phases, have been investigated. Complex dielectric permittivities were measured as a function of frequency, d.c. bias field and temperature. Spontaneous polarization was measured by the current reversal technique; tilt angle was measured under a polarizing microscope using a low frequency electric field. The electro-optic properties and dielectric behaviour of the material are compared with results obtained by DSC and polarizing optical microscopy. Dielectric relaxation processes in SmCA* and hexatic smectic phases were determined. The dielectric strength at the SmCA* to hexatic smectic phase transition is discussed in terms of coupling between the long range bond orientational order and smectic C director. It seems from the results of spontaneous polarization and dielectric relaxation spectroscopy that the material might possess an additional phase between the SmCA* and hexatic smectic I* phases. 相似文献
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Synthesis of Polysiloxane Xerogels Using Tetraethoxysilane/(Diethylphosphatoethyl)triethoxysilane System 总被引:1,自引:0,他引:1
O. A. Dudarko I. V. Mel'nik Yu. L. Zub A. A. Chuiko A. Dabrowski 《Colloid Journal》2005,67(6):683-687
The xerogels, containing phosphonic acid groups ≡Si(CH2)2P(O)(OC2H5)2 in the surface layer of their particles, are synthesized by the sol-gel method (ethanol as a solvent and fluoride ion as a catalyst). It is shown that, when 2 : 1, 3 : 1, and 4 : 1 tetraethoxysilane/(diethylphosphatoethyl)triethoxysilane ratios are used, nonporous substances are formed, whereas, at 6 : 1, 8 : 1, and 10 : 1 ratios, the xerogels with highly porous structures are produced (the specific surface area is 505–534 m2/g, the sorption pore volume is 0.34–0.53 cm3/g, and the pore diameter is 3.6–4.6 nm). 相似文献
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Xerogels containing residues of amide derivatives of phosphonic and thiophosphonic acids, ≡Si(CH2)3NHP(S, O)(OC2H5)2 (functional group concentration of 1.3–2.2 mmol/g) have been prepared by a sol-gel method. It has been shown that xerogels having a developed porous structure (with specific surface areas of 240–485 m2/g, pore volumes of 0.20–0.50 cm3/g, and pore diameters of 3.6–6.5 nm) are formed at tetraethoxysilane-to-trifunctional silane ratios of 4: 1 (and above) and 6: 1 (and above) for the derivatives of phosphonic and thiophosphonic acids, respectively. The IR and 13C CP/MAS NMR spectroscopy data have demonstrated that the surface layer of the xerogels contains not only (thio)phosphonic acid residues, but also silanol groups and water molecules participating in hydrogen bonding. The 29Si CP/MAS NMR spectroscopy data have indicated that structural groups are, for the most part, contained in structural units T3 [(≡SiO)3Si(CH2)3NHP(O, S)(OC2H5)2] and T2 [(≡SiO)2Si(OR)[(CH2)3NHP(O, S)(OC2H5)2] (R = H or C2H5). 相似文献
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Dabrowski MJ Schrag ML Wienkers LC Atkins WM 《Journal of the American Chemical Society》2002,124(40):11866-11867
Cytochrome P450 monooxygenases (CYPs) metabolize nearly all drugs and toxins. Recently, it has become clear that CYPs exhibit both homotropic and heterotropic allosteric kinetics for many substrates. However, the mechanism of cooperative kinetics has not been established for any specific human CYP/substrate combination. Suggested mechanisms include binding of multiple substrates within distinct, static, subsites of a single large active site or binding of multiple substrates within a single fluid active site. CYP3A4 hydroxylates pyrene with positive cooperativity. Therefore, experiments were designed to exploit the fluorescence properties of pyrene, which diagnostically distinguish between pyrene.pyrene complexes versus spatially separated pyrene substrates. Pyrene complexes (excimers) yield an emission spectrum clearly distinct from pyrene monomers. In lipid-free aqueous/glycerol solutions of CYP3A4, addition of pyrene affords a concentration-dependent low-spin to high-spin conversion of the CYP3A4 heme prosthetic group, indicating occupancy of the active site by pyrene. Under the same conditions, in the presence of CYP3A4 but not other heme proteins, the excimer/monomer ratio (E/M) of pyrene was decreased in emission spectra, compared to pyrene alone. However, excitation spectra indicate a CYP3A4-dependent increase in the wavelength shift for the excimer excitation spectrum versus the monomer excitation spectrum, as well as changes in the excimer excitation peak shape and vibronic structure. These changes are reversed by the CYP3A4 substrate testosterone. Together, the results demonstrate that pyrene.pyrene ground-state complexes occupy the CYP3A4 active site, and they provide the first spectroscopic evidence for substrate complexes within a single fluid active site. Functional implications include the possibility that turnover rate, regioselectivity, and stereoselectivity of the reaction are determined by the substrate.substrate complex rather than individual substrates. 相似文献