负载型铜钴氧化物协同催化H2O2/HCO3–降解苯酚

近年来,环境污染特别是水的严重污染使其治理成为一个极具挑战性的课题.各种污染物复杂的化学成分和催化剂在处理过程中的浸出、寿命及成本等问题是导致众多氧化催化剂难以实际应用的主要原因.相对而言,H2O2是一种活性氧含量高、清洁并可在温和条件下使用的氧化剂,在各种高级氧化技术中受到广泛关注.而碳酸氢盐是一种弱碱性物质,在自然界及水体系中广泛存在,且无明显毒害.它可活化H2O2,加快其氧化各种有机物,并在废水处理领域开始受到关注.该体系的明显优势在于处理体系始终处于微碱性环境,可以有效避免金属氧化物催化剂在处理过程中由于体系酸化而带来的催化剂流失,从而延长催化剂寿命,降低催化剂成本.本文采用浸渍法制备...

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Published in	催化学报 Vol. 37; no. 6; pp. 963 - 970
Main Author	李一冰 Ali Jawad Aimal Khan 卢小艳陈朱琦刘卫东尹国川
Format	Journal Article
Language	Chinese
Published	华中科技大学化学与化工学院，湖北武汉 430074%华中科技大学化学与化工学院,湖北武汉,430074%浙江师范大学化学与生命科学学院,浙江金华,321004 2016 浙江师范大学化学与生命科学学院，浙江金华 321004
Subjects	协同效应机理研究碳酸氢盐活化的过氧化氢苯酚降解铜/钴氧化物催化剂机理研究碳酸氢盐活化的过氧化氢苯酚降解铜/钴氧化物催化剂 Mechanistic study Synergistic effect Phenol degradation H2O2 Copper/cobalt oxide catalyst Bicarbonate-activated 协同效应
Online Access	Get full text
ISSN	0253-9837 1872-2067
DOI	10.1016/S1872-2067(15)61092-0

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Abstract	近年来,环境污染特别是水的严重污染使其治理成为一个极具挑战性的课题.各种污染物复杂的化学成分和催化剂在处理过程中的浸出、寿命及成本等问题是导致众多氧化催化剂难以实际应用的主要原因.相对而言,H2O2是一种活性氧含量高、清洁并可在温和条件下使用的氧化剂,在各种高级氧化技术中受到广泛关注.而碳酸氢盐是一种弱碱性物质,在自然界及水体系中广泛存在,且无明显毒害.它可活化H2O2,加快其氧化各种有机物,并在废水处理领域开始受到关注.该体系的明显优势在于处理体系始终处于微碱性环境,可以有效避免金属氧化物催化剂在处理过程中由于体系酸化而带来的催化剂流失,从而延长催化剂寿命,降低催化剂成本.本文采用浸渍法制备了一种双金属铜、钴氧化物催化剂及相关的对照催化剂体系,利用碳酸氢盐活化H2O2用于降解苯酚模拟废水.通过各种空白实验发现,负载于γ-Al2O3表面的钴、铜氧化物催化剂CuO-Co3O4@γ-Al2O3具有最好的催化降解活性,而CuO@γ-Al2O3,Co3O4@γ-Al2O3,Cu O-Co3O4及CuO和Co3O4的物理混合物均表现出较差的催化性能.由此可见,在CuO-Co3O4@γ-Al2O3催化剂中,铜、钴离子在苯酚降解过程中存在协同效应,这可能与催化剂中钴、铜金属离子的相互作用相关.X射线衍射和X射线光电子能谱结果表明,反应前后CuO-Co3O4@γ-Al2O3催化剂中金属的氧化状态并未发生改变,在使用过程中钴离子的浸出率可以忽略,铜离子的浸岀率也仅有0.6 ppm.荧光分析实验和自由基捕获实验表明,只有添加·O2~-和·OH的捕获剂能明显抑制降解反应,因而推测该反应体系对有机物的降解是一个自由基氧化过程,起关键作用的可能是·O2~-和·OH.
AbstractList	近年来,环境污染特别是水的严重污染使其治理成为一个极具挑战性的课题.各种污染物复杂的化学成分和催化剂在处理过程中的浸出、寿命及成本等问题是导致众多氧化催化剂难以实际应用的主要原因.相对而言,H2O2是一种活性氧含量高、清洁并可在温和条件下使用的氧化剂,在各种高级氧化技术中受到广泛关注.而碳酸氢盐是一种弱碱性物质,在自然界及水体系中广泛存在,且无明显毒害.它可活化H2O2,加快其氧化各种有机物,并在废水处理领域开始受到关注.该体系的明显优势在于处理体系始终处于微碱性环境,可以有效避免金属氧化物催化剂在处理过程中由于体系酸化而带来的催化剂流失,从而延长催化剂寿命,降低催化剂成本.本文采用浸渍法制备了一种双金属铜、钴氧化物催化剂及相关的对照催化剂体系,利用碳酸氢盐活化H2O2用于降解苯酚模拟废水.通过各种空白实验发现,负载于γ-Al2O3表面的钴、铜氧化物催化剂CuO-Co3O4@γ-Al2O3具有最好的催化降解活性,而CuO@γ-Al2O3,Co3O4@γ-Al2O3,Cu O-Co3O4及CuO和Co3O4的物理混合物均表现出较差的催化性能.由此可见,在CuO-Co3O4@γ-Al2O3催化剂中,铜、钴离子在苯酚降解过程中存在协同效应,这可能与催化剂中钴、铜金属离子的相互作用相关.X射线衍射和X射线光电子能谱结果表明,反应前后CuO-Co3O4@γ-Al2O3催化剂中金属的氧化状态并未发生改变,在使用过程中钴离子的浸出率可以忽略,铜离子的浸岀率也仅有0.6 ppm.荧光分析实验和自由基捕获实验表明,只有添加·O2~-和·OH的捕获剂能明显抑制降解反应,因而推测该反应体系对有机物的降解是一个自由基氧化过程,起关键作用的可能是·O2~-和·OH. 近年来,环境污染特别是水的严重污染使其治理成为一个极具挑战性的课题.各种污染物复杂的化学成分和催化剂在处理过程中的浸出、寿命及成本等问题是导致众多氧化催化剂难以实际应用的主要原因.相对而言, H2O2是一种活性氧含量高、清洁并可在温和条件下使用的氧化剂,在各种高级氧化技术中受到广泛关注.而碳酸氢盐是一种弱碱性物质,在自然界及水体系中广泛存在,且无明显毒害.它可活化 H2O2,加快其氧化各种有机物,并在废水处理领域开始受到关注.该体系的明显优势在于处理体系始终处于微碱性环境,可以有效避免金属氧化物催化剂在处理过程中由于体系酸化而带来的催化剂流失,从而延长催化剂寿命,降低催化剂成本.　　本文采用浸渍法制备了一种双金属铜、钴氧化物催化剂及相关的对照催化剂体系,利用碳酸氢盐活化 H2O2用于降解苯酚模拟废水.通过各种空白实验发现,负载于γ-Al2O3表面的钴、铜氧化物催化剂 CuO?Co3O4@γ-Al2O3具有最好的催化降解活性,而 CuO@γ-Al2O3, Co3O4@γ-Al2O3, CuO?Co3O4及 CuO和 Co3O4的物理混合物均表现出较差的催化性能.由此可见,在 CuO?Co3O4@γ-Al2O3催化剂中,铜、钴离子在苯酚降解过程中存在协同效应,这可能与催化剂中钴、铜金属离子的相互作用相关. X射线衍射和 X射线光电子能谱结果表明,反应前后 CuO?Co3O4@γ-Al2O3催化剂中金属的氧化状态并未发生改变,在使用过程中钴离子的浸出率可以忽略,铜离子的浸岀率也仅有0.6 ppm.荧光分析实验和自由基捕获实验表明,只有添加?O2-和?OH的捕获剂能明显抑制降解反应,因而推测该反应体系对有机物的降解是一个自由基氧化过程,起关键作用的可能是?O2-和?OH.
Abstract_FL	The development of new catalytic techniques for wastewater treatment has long attracted much attention from industrial and academic communities. However, because of catalyst leaching during degradation, catalysts can be short lived, and therefore expensive, and unsuitable for use in wastewater treatment. In this work, we developed a bimetallic CuO–Co3O4@γ‐Al2O3 catalyst for phenol degradation with bicarbonate‐activated H2O2. The weakly basic environment provided by the bicarbonate buffer greatly suppresses leaching of active Cu and Co metal ions from the catalyst. X‐ray diffraction and X‐ray photoelectron spectroscopy results showed interactions between Cu and Co ions in the CuO–Co3O4@γ‐Al2O3 catalyst, and these improve the catalytic activity in phenol deg‐radation. Mechanistic studies using different radical scavengers showed that superoxide and hy‐droxyl radicals both played significant roles in phenol degradation, whereas singlet oxygen was less important.
Author	李一冰 Ali Jawad Aimal Khan 卢小艳陈朱琦刘卫东尹国川
AuthorAffiliation	浙江师范大学化学与生命科学学院,浙江金华321004 华中科技大学化学与化工学院,湖北武汉430074
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Author_FL	Zhuqi Chen Ali Jawad Weidong Liu Guochuan Yin Xiaoyan Lu Yibing Li Aimal Khan
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DocumentTitleAlternate	Synergistic degradation of phenols by bimetallic CuO-Co3O4@γ-Al2O3 catalyst in H2O2/HCO3~- system
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Keywords	机理研究碳酸氢盐活化的过氧化氢苯酚降解铜/钴氧化物催化剂 Mechanistic study Synergistic effect Phenol degradation H2O2 Copper/cobalt oxide catalyst Bicarbonate-activated 协同效应
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Notes	Yibing Li , Ali Jawad , Aimal Khan , Xiaoyan Lu, Zhuqi Chen , Weidong Liu, Guochuan Yin （ College of Chemistry and Life Sciences, 2hefiang Normal University, Jinhua 321004, Zhefiang, China b Hubei Key Laboratory of Material Chemistry and Service Failure, School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology, Wuhan 430074, Hubei, China） 21-1195/O6 Synergistic effect; Phenol degradation; Copper/cobalt oxide catalyst; Mechanistic study; Bicarbonate-activated H2O2 The development of new catalytic techniques for wastewater treatment has long attracted much attention from industrial and academic communities.However,because of catalyst leaching during degradation,catalysts can be short lived,and therefore expensive,and unsuitable for use in wastewater treatment.In this work,we developed a bimetallic CuO-Co3O4@γ-Al2O3 catalyst for phenol degradation with bicarbonate-activated H2O2.The weakly basic environment provided by the bicarbonate buffer greatly suppresses leaching of active C
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Snippet	近年来,环境污染特别是水的严重污染使其治理成为一个极具挑战性的课题.各种污染物复杂的化学成分和催化剂在处理过程中的浸出、寿命及成本等问题是导致众多氧化催化剂难以实...
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SubjectTerms	协同效应机理研究碳酸氢盐活化的过氧化氢苯酚降解铜/钴氧化物催化剂
Title	负载型铜钴氧化物协同催化H2O2/HCO3–降解苯酚
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