Electrochemical reaction of nitrobenzene and its derivatives on glassy carbon electrode modified with MnFe2O4 colloid nanocrystal assemblies

Sang, Yutao; Cui, Yuqian; Li, Zhen; Ye, Wanneng; Li, Hongliang; Zhao, Xihui; Guo, Peizhi

doi:10.1016/j.snb.2016.04.154

Cited by 31 publications

(17 citation statements)

References 37 publications

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“…The rate of the pseudo-first-order reaction is 0.175 min −1 , indicating that the composite MXene@AuNPs20 had excellent catalytic activity for 4-NP. After eight consecutive catalytic cycles, the catalytic conversion was still more than 92%, indicating its superior stability in comparison with other kinds of composite catalysts [66][67][68][69][70][71], as shown in Fig. 7c.…”

Section: Catalytic Performances Of Mxene@aunps Compositesmentioning

confidence: 87%

Fabrication of tunable hierarchical MXene@AuNPs nanocomposites constructed by self-reduction reactions with enhanced catalytic performances

et al. 2018

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Section: Catalytic Performances Of Mxene@aunps Compositesmentioning

confidence: 87%

Fabrication of tunable hierarchical MXene@AuNPs nanocomposites constructed by self-reduction reactions with enhanced catalytic performances

et al. 2018

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“…It has been found from a large number of literatures that the optimum range of pH response for nitroaromatic compounds is between 6 and 8. [31][32][33][34][35][36][37][38] In order to investigate the effect of pH value on the sensitivity of GMPP@AMP/GCE for the detection of trace nitrobenzene, cyclic voltammetry (CV) was performed for the buffer of sodium hydrogen phosphate/sodium dihydrogen phosphate (PBS) in the range of pH 6-8 ( Fig. 5).…”

Section: Effect Of Phmentioning

confidence: 99%

Electrocatalytic reduction of trace nitrobenzene using a graphene-oxide@polymerized-manganese-porphyrin composite

Huang

et al. 2019

RSC Adv.

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“…Next, the obtained MXene@PdNPs composite was used as a new catalyst to study the catalytic properties of nitro compounds (4-NP, 2-NA) and morin (Figure 6) [41,42]. The catalytic activity of the synthesized MXene@PdNPs was evaluated by catalytic reduction of p-nitrophenol as a template reaction with an excess of NaBH 4 solution.…”

Section: Resultsmentioning

confidence: 99%

Highly Efficient Catalytic Performances of Nitro Compounds and Morin via Self-Assembled MXene-Pd Nanocomposites Synthesized through Self-Reduction Strategy

et al. 2019

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With development of the society, the problem of environmental pollution is becoming more and more serious. There is the urgent need to develop a new type of sustainable green material for degradable pollutants. However, the conventional preparation method is limited by conditions such as cumbersome operation, high energy consumption, and high pollution. Here, a simple method named self-reduction has been proposed, to synthesize highly efficient catalytic nitro compounds and morin self-assembled MXene-Pd nanocomposites. Palladium nanoparticles were grown in situ on MXene nanosheets to form MXene@PdNPs. MXene@PdNPs composites with different reaction times were prepared by adjusting the reduction reaction time. In particular, MXene@PdNPs20 exhibited a high catalytic effect on 4-NP and 2-NA, and the first-order rate constants of the catalysis were 0.180 s−1 and 0.089 s−1, respectively. It should be noted that after eight consecutive catalytic cycles, the conversion to catalyze 4-NP was still greater than 94%, and the conversion to catalyze 2-NA was still greater than 91.8%. Therefore, the research of self-assembled MXene@PdNPs nanocomposites has important potential value for environmental management and sustainable development of human health, and provides new clues for the future research of MXene-based new catalyst materials.

show abstract

Electrochemical reaction of nitrobenzene and its derivatives on glassy carbon electrode modified with MnFe2O4 colloid nanocrystal assemblies

Cited by 31 publications

References 37 publications

Fabrication of tunable hierarchical MXene@AuNPs nanocomposites constructed by self-reduction reactions with enhanced catalytic performances

Fabrication of tunable hierarchical MXene@AuNPs nanocomposites constructed by self-reduction reactions with enhanced catalytic performances

Electrocatalytic reduction of trace nitrobenzene using a graphene-oxide@polymerized-manganese-porphyrin composite

Highly Efficient Catalytic Performances of Nitro Compounds and Morin via Self-Assembled MXene-Pd Nanocomposites Synthesized through Self-Reduction Strategy

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