Optimization of the transfer hydrogenation reaction of acetophenone on Ni@MOF-5 nanoparticles using response surface methodology

Chelavi Azadeh Nemati; Zare-Shahabadi Vahid; Sayyahi Soheil; Anaraki-Ardakani Hossein

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Optimization of the transfer hydrogenation reaction of acetophenone on Ni@MOF-5 nanoparticles using response surface methodology

机译：响应面法测定乙酮酮-5纳米粒子的炔酮转移氢化反应的优化

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In this study, the transfer hydrogenation reduction of acetophenone using supported nickel on MOF as catalyst was investigated. BBD and RSM were employed to investigate the effect of the experimental parameters such as Ni content, catalyst content, temperature, and reaction time. Optimum reaction conditions for the formation of 1-phenylethanol were 45% mol of Ni content, 0.11 g of catalyst, reaction temperature at 83 degrees C, and reaction time 90 min. The catalyst was characterized by FESEM, EDX, FT-IR, XRD, and H-2-TPR techniques. The catalyst-free reaction phase was analyzed by AAS, and fortunately, no leaching of nickel was detected.

机译：在该研究中，研究了在MOF上使用负载镍作为催化剂的乙酮在MOF上转移氢化还原。使用BBD和RSM来研究实验参数如Ni含量，催化剂含量，温度和反应时间的影响。形成1-苯基乙醇的最佳反应条件为45％摩尔Ni含量，0.11g催化剂，反应温度为83℃，反应时间90分钟。催化剂的特征在于FESEM，EDX，FT-IR，XRD和H-2-TPR技术。通过AA分析无催化剂的反应相，幸运的是，没有检测到镍的浸出。

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来源
《Research on Chemical Intermediates》 |2020年第1期|共14页
作者
Chelavi Azadeh Nemati; Zare-Shahabadi Vahid; Sayyahi Soheil; Anaraki-Ardakani Hossein;
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作者单位

Islamic Azad Univ Dept Chem Mahshahr Branch Mahshahr Iran;

Islamic Azad Univ Dept Chem Mahshahr Branch Mahshahr Iran;

Islamic Azad Univ Dept Chem Mahshahr Branch Mahshahr Iran;

Islamic Azad Univ Dept Chem Mahshahr Branch Mahshahr Iran;

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原文格式 PDF
正文语种 eng
中图分类有机化学;
关键词
Transfer hydrogenation; Ni@MOF-5; Acetophenone; Experimental design;

机译：转移氢化;Ni @ Mof-5;苯乙酮;实验设计;

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1. Optimization of the transfer hydrogenation reaction of acetophenone on Ni@MOF-5 nanoparticles using response surface methodology [J] . Chelavi Azadeh Nemati, Zare-Shahabadi Vahid, Sayyahi Soheil, Research on Chemical Intermediates . 2020,第1期

机译：响应面法测定乙酮酮-5纳米粒子的炔酮转移氢化反应的优化
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Optimization of the transfer hydrogenation reaction of acetophenone on Ni@MOF-5 nanoparticles using response surface methodology

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