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1.
Shufang Wang Yuanhui Ma Yanji Wang Wei Xue Xinqiang Zhao 《Journal of chemical technology and biotechnology (Oxford, Oxfordshire : 1986)》2008,83(11):1466-1471
BACKGROUND: A single‐step conversion of nitrobenzene (NB) to p‐aminophenol (PAP) through catalytic hydrogenation is a widely used synthesis route for PAP. The main shortcoming of this route is the use of sulfuric acid for rearrangement of the phenylhydroxylamine (PHA) intermediate. In this paper, S2O82?/ZrO2 (PSZ) solid acid and Pt‐S2O82?/ZrO2 (Pt‐PSZ) bifunctional catalysts were prepared for the synthesis of PAP in non‐acid medium. RESULTS: Calcination temperature has a substantial effect on the acidity, structure and activity for PHA rearrangement of PSZ. The highest PAP yield was 33.8% over PSZ calcined at 823 K when the reaction was carried out in water at 423 K. A high PAP yield of 23.9% was achieved by a single‐step reaction of nitrobenzene over Pt‐PSZ bifunctional catalysts. CONCLUSION: PSZ solid acid exhibits high activity for PHA rearrangement. Perfect tetragonal ZrO2 and much stronger acid sites play important roles in catalytic activity. Inhibiting the hydrogenation activity by reducing the amount of Pt loading on Pt‐PSZ can improve the competition of PHA rearrangement on acid sites with hydrogenation of PHA on metal active sites, resulting in better selectivity to PAP. Copyright © 2008 Society of Chemical Industry 相似文献
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An anomalous rate enhancement with increasing conversion has been observed during the liquid phase hydrogenation of nitrobenzene and crotonaldehyde over Ge/Pd/C catalysts at ambient temperature and atmospheric pressure. Inductive coupled plasma atomic emission spectroscopy and electrochemical measurement of the oxidation state of catalysts during reaction revealed that the bimetallic particles were partially oxidized by the reactants, which resulted in Ge-dissolution and increased exposure of Pd on the surface. It is proposed that the surface and bulk composition of Ge/Pd catalysts are a function of their oxidation state. This behaviour is due to the unusually high mobility of Ge in the Pd lattice and to the good solubility of GeO2 in polar solvents. The influence of hydrogen transport on the corrosion process and the stability of other X/Pd type bimetallic catalysts during liquid phase hydrogenation are also discussed. 相似文献
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二价铁离子对零价铁还原硝基苯的影响 总被引:1,自引:0,他引:1
为了解地下水环境中铁离子对零价铁(zero valention)还原作用的影响,采用批次实验,研究不同质量浓度二价铁离子对ZVI还原硝基苯的影响,利用HPLC和GC-MS作为分析工具,观测反应过程中硝基苯的质量浓度,同时跟踪溶液中Fe2+、pH、ORP的变化.结果表明,有无Fe2+存在,硝基苯均可被ZVI还原为苯胺,Fe2+没有改变还原产物;溶液中投加Fe2+后,ZVI还原硝基苯的反应速率明显加快,溶液中Fe2+对于还原反应起促进作用;溶液中Fe2+对ZVI体系pH起缓冲作用,含有Fe2+的ZVI体系ORP下降明显.反应动力学分析表明,硝基苯的还原反应符合假一级动力学模型,表观速率常数kobs值随Fe2+质量浓度的升高而增加,Fe2+离子的存在有助于ZVI对硝基苯的还原. 相似文献
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硝基苯催化加氢合成对氨基苯酚工艺研究 总被引:1,自引:0,他引:1
采用Pt/C作为催化剂对硝基苯选择加氢合成对氨基苯酚进行了研究,考察了温度、酸度、反应时间、压力、催化剂等因素对反应的影响,确定了反应的优化条件。在反应温度75℃、压力2.45kPa、硫酸浓度13%、反应时间4h的条件下,用2%Pt/C催化加氢还原硝基苯可获得较高质量的产物对氨基苯酚。 相似文献
7.
Viktria Hajdu Gbor Murnszky Mikls Nagy Erika Kopcsik Ferenc Kristly Bla Fiser Bla Viskolcz Lszl Vanyorek 《International journal of molecular sciences》2022,23(12)
Aniline (AN) is one of the most important compounds in the chemical industry and is prepared by the catalytic hydrogenation of nitrobenzene (NB). The development of novel, multifunctional catalysts which are easily recoverable from the reaction mixture is, therefore, of paramount importance. Compared to conventional filtration, magnetic separation is favored because it is cheaper and more facile. For satisfying these requirements, we developed manganese ferrite (MnFe2O4)–supported, magnetically separable palladium catalysts with high catalytic activity in the hydrogenation of nitrobenzene to aniline. In addition to high NB conversion and AN yield, remarkable aniline selectivity (above 96 n/n%) was achieved. Surprisingly, the magnetic support alone also shows moderate catalytic activity even without noble metals, and thus, up to 94 n/n% nitrobenzene conversion, along with 47 n/n% aniline yield, are attainable. After adding palladium nanoparticles to the support, the combined catalytic activity of the two nanomaterials yielded a fast, efficient, and highly selective catalyst. During the test of the Pd/MnFe2O4 catalyst in NB hydrogenation, no by-products were detected, and consequently, above 96 n/n% aniline yield and 96 n/n% selectivity were achieved. The activity of the Pd/MnFe2O4 catalyst was not particularly sensitive to the hydrogenation temperature, and reuse tests indicate its applicability in at least four cycles without regeneration. The remarkable catalytic activity and other favorable properties can make our catalyst potentially applicable to both NB hydrogenation and other similar or slightly different reactions. 相似文献
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对还原-偶氮分光光度法测定水中硝基苯类实验装置进行改革,研究并建立了分析测定的优化实验条件。在此实验条件的基础上,对测定方法中的显色酸度、样品空白等测定条件进行了优化和补充;增加了苯胺类样品空白实验,解决了苯胺类样品及空白样品与体系酸度调节条件不一致的问题;同时拓宽了校准曲线的测定范围。硝基苯质量浓度在0~1.6 mg/L范围内线性关系良好,方法检出限为0.004 mg/L。用优化改进后的测定方法对水质硝基苯标准样品和实际废水样品进行分析测定,样品测定精密度(n=6)小于3%;加标实验回收率达到96.4%~101.8%。 相似文献
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Ni-P非晶态合金催化剂因其晶体结构的特殊,具有较好的催化活性。以硝基苯液相催化加氢合成苯胺为目标反应,运用Matlab软件并借助Levenberg-Marquardt算法估计反应动力学模型的参数,根据参数估计结果筛选动力学机理模型,对新型Ni-P非晶态合金催化剂的本征动力学进行研究,为催化剂的进一步开发和反应器设计提供理论依据。结果表明,Ni-P非晶态合金催化剂的颗粒较小,过程内扩散的影响可以忽略不计,当搅拌速率达到600 r·min-1时,反应过程的外扩散影响也可忽略。在(373.15~403.15) K、氢压1.0 MPa、非晶态Ni-P催化剂质量0.2 g、硝基苯质量2.0 g和无水乙醇质量8.0 g条件下,硝基苯分子不吸附,硝基苯分子与解离吸附的氢原子在催化剂表面反应,苯胺脱附为硝基苯加氢合成苯胺反应的速率控制步骤,本征动力学模型为:rj=kcA/1+bH2αH2pH2,表面反应的指前因子为1.08×105 min-1,活化能为51.81 kJ·mol-1,氢气吸附热为64.12 kJ·mol-1。 相似文献