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首页> 外文期刊>Applied Surface Science >Preferential dissolution of copper from Cu-Mn oxides in strong acid medium: Effect of the starting binary oxide to get new efficient copper doped MnO_2 catalysts in toluene oxidation
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Preferential dissolution of copper from Cu-Mn oxides in strong acid medium: Effect of the starting binary oxide to get new efficient copper doped MnO_2 catalysts in toluene oxidation

机译:来自Cu-Mn氧化物在强酸介质中优先溶解铜:起始二元氧化物在甲苯氧化中获得新的高效铜掺杂MnO_2催化剂的作用

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摘要

This work investigated the concept of preferential dissolution of copper in HNO3 10 Mat 20 degrees C from two starting Cu-Mn oxides to acquire novel copper doped MnO2 like polymorphs. On purpose two starting Cu-Mn oxides were tested: a nanocristalline CuMn2O4 spinel phase with a SSA of 47 m(2)/g and a weak amorphous Cu-Mn oxide with a Mn/Cu atomic ratio of 4.8 (SSA: 166 m(2)/g). The physico-chemical properties of the final copper doped MnO2 like oxides were discussed in terms of the nature of the starting oxides and of the operating conditions applied for the acid treatment. Finally, these new copper doped gamma/epsilon MnO2 like oxides were assessed in toluene oxidation and their catalytic performances were compared with those of alpha-MnO2 and E-MnO2 catalysts. The copper doped MnO2 obtained from the weak amorphous Cu-Mn oxide exhibited the highest activity in terms of T-50(CO2). This highest activity was related to a high density of Cu-O-Mn interactions at the outermost layers of the catalyst as assessed by ToF-SIMS results.
机译:这项工作研究了HNO3 10垫中铜优先溶解的概念,从两个起始的Cu-Mn氧化物中获得了多晶型物等新型铜掺杂MnO 2。目的,测试两个起始的Cu-Mn氧化物:具有47μm(2)/ g的SSA的纳米醛醛柱瘤尖晶石相和具有4.8的Mn / Cu原子比的弱无定形Cu-Mn氧化物(SSA:166M( 2)/ g)。就起始氧化物的性质和应用于酸处理的操作条件,讨论了最终铜掺杂MnO 2的物理化学性质。最后,将这些新的铜掺杂γ/εmNO2在甲苯氧化中评估氧化物,并将其催化性能与α-MnO 2和E-MnO 2催化剂进行比较。从弱非晶Cu-Mn氧化物获得的铜掺杂MnO 2在T-50(CO 2)方面表现出最高的活性。该最高活性与催化剂的最外层的Cu-O-Mn相互作用的高密度相关,如TOF-SIMS结果评估。

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  • 来源
    《Applied Surface Science》 |2021年第30期|147993.1-147993.7|共7页
  • 作者

    Ye Zhiping; Giraudon Jean-Marc; Nuns Nicolas; Abdallah Grece; Addad Ahmed; Morent Rino; De Geyter Nathalie; Lamonier Jean-Francois;

  • 作者单位

    Univ Lille CNRS Cent Lille Univ Artois UMR 8181 UCCS Unite Catalyse & Chim S F-59000 Lille France|Univ Ghent Fac Engn & Architecture Dept Appl Phys Res Unit Plasma Technol Sint Pietersnieuwstr 41 B4 B-9000 Ghent Belgium;

    Univ Lille CNRS Cent Lille Univ Artois UMR 8181 UCCS Unite Catalyse & Chim S F-59000 Lille France;

    Univ Lille CNRS Cent Lille Univ Artois IMEC Inst Michel Eugene Chevreul F-59000 Lille France;

    Univ Lille CNRS Cent Lille Univ Artois UMR 8181 UCCS Unite Catalyse & Chim S F-59000 Lille France|Univ Ghent Fac Engn & Architecture Dept Appl Phys Res Unit Plasma Technol Sint Pietersnieuwstr 41 B4 B-9000 Ghent Belgium;

    Univ Lille CNRS UMR 8207 UMET F-59000 Lille France;

    Univ Ghent Fac Engn & Architecture Dept Appl Phys Res Unit Plasma Technol Sint Pietersnieuwstr 41 B4 B-9000 Ghent Belgium;

    Univ Ghent Fac Engn & Architecture Dept Appl Phys Res Unit Plasma Technol Sint Pietersnieuwstr 41 B4 B-9000 Ghent Belgium;

    Univ Lille CNRS Cent Lille Univ Artois UMR 8181 UCCS Unite Catalyse & Chim S F-59000 Lille France;

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  • 正文语种 eng
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  • 关键词

    Preferential dissolution; Acid treatment; epsilon/gamma-MnO2; Toluene; Total oxidation catalysis; Cu-Mn mixed oxides;

    机译:优先溶解;酸治疗;ε/γ-mnO2;甲苯;总氧化催化;Cu-Mn混合氧化物;

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