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Polymer Ru-Co bimetallic complexes have been examined by X-ray photoelectron spectroscopy.The catalyst is highly active only when the mole ratio of Co/Ru is 4: 3. The activity of catalysts does not depend on the total Co/Ru ratio, but on the surface stoichiometry of Co and Ru. When the relative intensities of Co_2_p and Ru_(3d) of XPS peaks are close to each other and both are high,the catalyst exhibits its maximum activity The mechanism ofcatalytic hydroformylation has been discussed. 相似文献
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本工作制备了数种高分子-镍(Ⅱ)配合物并用NaBH_4、LiAlH_4、甲醛氨水溶液或分子氢使之还原。研究结果表明,高分子—镍(Ⅱ)配合物难以用LiAlH_4或甲醛还原,而用氢气或NaBH_4还原后的配合物在较高温度(100~120℃)及一定的压力(3~6MPa)下还原硝基化合物及醛、酮类化合物时具有一定的催化活性,其中以NaBH_4还原的配合物活性最高。硝基化合物被还原为相应的胺,无副产物,醛、酮类还原为相应的醇,未发现氢解产物,说明催化剂有较高的选择性。此外还研究了腈类的加氢反应。 相似文献
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本文研究了高分子-过渡金属(钯、铂和镍)络合物在2-氯-4-硝基甲苯的硝基还原反应中的催化活性及选择性.实验结果表明:高分子-金属络合物具有较高的稳定性,高分子-钯和铂络合物在常压和低温下具有较高的催化活性,高分子-镍络合物在较高温度(100~140℃)和较高压力(3~10MPa)下具有一定的的活性.对于本体系,催化剂活性顺序为:PMS-Pd,PMV-Pd,PAA-AN-Pd>PAM-Pt>PAA、VPy-Pd>高分子镍络合物.与Raney Ni相比,高分子-铂和镍络合物具有较高的选择性,其顺序为:PVP-Ni;N-l-Ni;PMV-Ni>=PAM-Pt>Raney NI>>PMS-Pd,PMV-Pa,PAA-AN-Pd,PAA-VPy-Pd.此外还初步地探讨了取代基、压力和温度对催化活性的影响 相似文献
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一、催产素的发现、分离和生理作用1895年 Oliver 和 Schaffer 发现,动物垂体后叶(posterior pituitary)的提取物可使哺乳动物的血压增加;1906年 Dale 确认垂体后叶的粗提取物能使兔的子宫收缩,于是引起人们对这个化合物的注意。以后又陆续发现了它的其它生理效应,例如诱导分娩、排乳以及抑制排尿等;其中某些效应多年来已应用到临床医学上,如催产效应的应用于产科,及制尿作用的应用于控制糖尿病人的尿崩症等。从本世纪初期以来,有不少人企图分离出纯粹的垂体后叶要素,但很不容易达到目的,因为体腺中的有效要素非常少,又很不稳定。1928年 Kamm 和 Grote 相似文献
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Several polymer-supported palladium complex catalysts containing two different coordinatinggroups were prepared and the cooperative effect of the coordinating groups on the catalytic behaviorsof polymer catalysts was studied. It was found that poly(acrylic acid-co-acrylonitrile)-Pd complex(PAA-AN-Pd) is a more active and stable catalyst for hydrogenation than both poly(acrylic acid)-Pd and poly(acrylonitrile)-Pd complexes. A marked change of catalytic behaviors of poly(N-substituted maleamic acid-co-styrene)-Pd complexes was observed in comparison with poly(maleicacid-co-styrene)-Pd complex. Acetophenone was reduced to 1-phenyl ethanol by poly(N-phenylmaleamic acid-Co-styrene)-Pd complex (N-1-Pd), but ethylbenzene was obtained using poly(maleicacid-co-styrene)-Pd complex as a catalyst. The influence of solvents, additives and N/Pd gramatomic ratio on the catalytic behaviors of the polymer complexes was investigated. 相似文献
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