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Acceptor preparation

The sialyltransferase transfers H-sialic acid from CMP-N- H-acetylneuraminic acid to endogenous IgG acceptor and to exogenous acceptor prepared by treating rabbit IgG with neuraminidasa Both the transferase and the endogenous product are bound to the microsome fraction. [Pg.79]

Most of the novel acceptors prepared have kept the dicyanomethylene or cyanoimino terminal groups in the molecule, with only the quinoid skeleton modified. A very successful, more radical, variation leading to good conducting CT complexes was carried out with the thieno[3,2-Z7]thiophene system. Thus, the novel sulphur containing heteroquinoid electron acceptors 2,5 - bis(dicyanomethylene) -2,5- dihydrothieno[3,2 - Z ]thio-phenes(21) [46] and, more recently, 2,5-bis(cyanoimi-no)-2,5-dihydrothieno[3,2-b]thiophenes (22) (DCNTT)... [Pg.10]

Towards a simple Lewis base, for example the proton, phosphine is a poorer electron donor than ammonia, the larger phosphorus atom being less able to form a stable covalent bond with the acceptor atom or molecule. Phosphine is, therefore, a much weaker base than ammonia and there is no series of phosphonium salts corresponding to the ammonium salts but phosphonium halides. PH4X (X = Cl, Br, I) can be prepared by the direct combination of phosphine with the appropriate hydrogen halide. These compounds are much more easily dissociated than ammonium halides, the most stable being the iodide, but even this dissociates at 333 K PH4I = PH3 -t- HI... [Pg.226]

Charge-Transfer Salts. Most charge-transfer salts can be prepared by direct mixing of donors and acceptors in solution. Semiconducting salts of TCNQ have been prepared with a variety of both organic and inorganic counterions. Simple salts of the type TCNQ can be obtained by direct reaction of a metal such as copper or silver with TCNQ in solution. Solutions of metal iodides can be used in place of the metals, and precipitation of the TCNQ salt occur direcdy (24). [Pg.242]

When pure needle-like crystals of -aminobenzoyl chloride are polymerized in a high temperature, nonsolvent process, or alow temperature, slurry process, polymer is obtained which maintains the needle-like appearance of monomer. PBA of inherent viscosity, 4.1 dL/g, has been obtained in a hexane slurry with pyridine as the acid acceptor. Therefore PBA of fiber-forming molecular weight can be prepared in the soHd state. [Pg.64]

Cadmium Sulfide Photoconductor. CdS photoconductive films are prepared by both evaporation of bulk CdS and settHng of fine CdS powder from aqueous or organic suspension foUowed by sintering (60,61). The evaporated CdS is deposited to a thickness from 100 to 600 nm on ceramic substates. The evaporated films are polycrystaUine and are heated to 250°C in oxygen at low pressure to increase photosensitivity. Copper or silver may be diffused into the films to lower the resistivity and reduce contact rectification and noise. The copper acceptor energy level is within 0.1 eV of the valence band edge. Sulfide vacancies produce donor levels and cadmium vacancies produce deep acceptor levels. [Pg.431]

Because almost any diacid can be leaddy converted to the acid chloride, this reaction is quite versatile and several variations have been developed. In the interfacial polymerization method the reaction occurs at the boundary of two phases one contains a solution of the acid chloride in a water-immiscible solvent and the other is a solution of the diamine in water with an inorganic base and a surfactant (48). In the solution method, only one phase is present, which contains a solution of the diamine and diacid chloride. An organic base is added as an acceptor for the hydrogen chloride produced in the reaction (49). Following any of these methods of preparation, the polymer is exposed to water and the acid chloride end is converted to a carboxyhc acid end. However, it is very difficult to remove all traces of chloride from the polymer, even with repeated washings with a strong base. [Pg.224]

Fluorides. Tantalum pentafluoride [7783-71-3] TaF, (mp = 96.8° C, bp = 229.5° C) is used in petrochemistry as an isomerization and alkalation catalyst. In addition, the fluoride can be utilized as a fluorination catalyst for the production of fluorinated hydrocarbons. The pentafluoride is produced by the direct fluorination of tantalum metal or by reacting anhydrous hydrogen fluoride with the corresponding pentoxide or oxychloride in the presence of a suitable dehydrating agent (71). The ability of TaF to act as a fluoride ion acceptor in anhydrous HF has been used in the preparation of salts of the AsH, H S, and PH ions (72). The oxyfluorides TaOF [20263-47-2] and Ta02F [13597-27-8] do not find any industrial appHcation. [Pg.332]

Reactions with Nitrogen Compounds. The reaction with ammonia is the classical method for preparing primary carbamates. Excess ammonia is used as an acid acceptor to remove the HCI formed (see Carbamic acid). [Pg.39]

Alternating copolymers of chloroprene have been prepared from a number of donor acceptor complexes in the presence of metal haUdes. [Pg.540]

The hydrohalide is liable to dehydrochlorination, particularly when moist acid is used in its preparation, so that hydrochloric acid acceptors such as lead carbonate are useful stabilisers. Dibutyl phthalate and tritolyl phosphate are effective plasticisers. Rubber hydrochloride is used as a packaging film (Pliofilm) and as a rubber-to-metal bonding agent (e.g. Typly). [Pg.863]

Using a method suggested by Saint-Flour and Papirer [100], Schultz and Lavielle obtained A// -values for the interaction of several vapors of differing donor numbers and acceptor numbers with various treated and untreated carbon fibers used in the preparation of carbon fiber-epoxy matrix composites. was expressed as ... [Pg.42]

Numerous reports of comparable levels of success in correlating adhesion performance with the Scatchard-Hildebrand solubility parameters can be found in the literature [116,120-127], but failures of this approach have also been documented [128-132J. Particularly revealing are cases in which failure was attributed to the inability of the Scatchard-Hildebrand solubility parameter to adequately account for donor-acceptor (acid-base) interactions [130,132]. Useful reviews of the use of solubility parameters for choosing block copolymer compatibilizers have been prepared by Ohm [133] and by Gaylord [134]. General reviews of the use of solubility parameters in polymer science have been given by Barton [135], Van Krevelen [114], and Hansen [136]. [Pg.54]

The trifluorinated a, J-ethylenic ketone shown in equation 36 was prepared by two different methods and behaves like a Michael addition acceptor in reactions... [Pg.634]

First donor-acceptor adduct (coordination compound) NH3.BF1 prepared by J. L. Gay Lussac (A. Werner s theory, I89I-5). [Pg.408]

The trihalides of As, Sb and Bi are strong halide-ion acceptors and numerous complexes have been isolated with a wide variety of compositions. They are usually prepared by direct reaction of the trihalide with the appropriate... [Pg.564]

See other pages where Acceptor preparation is mentioned: [Pg.373]    [Pg.89]    [Pg.596]    [Pg.488]    [Pg.50]    [Pg.76]    [Pg.79]    [Pg.99]    [Pg.111]    [Pg.430]    [Pg.431]    [Pg.373]    [Pg.89]    [Pg.596]    [Pg.488]    [Pg.50]    [Pg.76]    [Pg.79]    [Pg.99]    [Pg.111]    [Pg.430]    [Pg.431]    [Pg.308]    [Pg.78]    [Pg.383]    [Pg.239]    [Pg.242]    [Pg.318]    [Pg.9]    [Pg.134]    [Pg.298]    [Pg.143]    [Pg.455]    [Pg.419]    [Pg.124]    [Pg.837]    [Pg.142]    [Pg.268]    [Pg.145]    [Pg.295]    [Pg.821]    [Pg.839]    [Pg.898]    [Pg.902]    [Pg.904]   
See also in sourсe #XX -- [ Pg.172 , Pg.180 , Pg.181 , Pg.232 ]



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