2021
DOI: 10.1002/smll.202100927
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Manganese‐Based Micro/Nanomotors: Synthesis, Motion, and Applications

Abstract: As emerging micro/nano‐scale devices, micro/nanomotors have been innovatively applied in the environmental and biomedical applications. In this paper, the recent advances of Mn‐based micro/nanomotors (Mn‐micro/nanomotors) in catalytic oxidation of organic contaminants and the mechanisms in decomposition of H2O2 (e.g., the generation of O2 bubbles and reactive oxygen species) are reviewed. The intrinsic characteristics and synthetic strategies of Mn‐based materials are discussed, aiming to gain comprehensive un… Show more

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Cited by 32 publications
(19 citation statements)
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“…47,48 Among manganese oxides, MnO 2 materials have been applied in adsorption, catalysis and battery materials due to their porosity, crystallinity, mixed valence and semi-conductivity. [49][50][51] In the case of catalysis, the structural dimension of a catalytic material plays a dominant role in heterogeneous catalytic processes from the perspective of adsorption, diffusion, and mass transfer of reactants. [52][53][54][55] For instance, 1D α-MnO 2 is usually used as a catalyst for the activation of ozone and persulfates in AOPs, while 2D δ-MnO 2 catalysts are frequently used for VOC removal, such as formaldehyde oxidation.…”
Section: Introductionmentioning
confidence: 99%
“…47,48 Among manganese oxides, MnO 2 materials have been applied in adsorption, catalysis and battery materials due to their porosity, crystallinity, mixed valence and semi-conductivity. [49][50][51] In the case of catalysis, the structural dimension of a catalytic material plays a dominant role in heterogeneous catalytic processes from the perspective of adsorption, diffusion, and mass transfer of reactants. [52][53][54][55] For instance, 1D α-MnO 2 is usually used as a catalyst for the activation of ozone and persulfates in AOPs, while 2D δ-MnO 2 catalysts are frequently used for VOC removal, such as formaldehyde oxidation.…”
Section: Introductionmentioning
confidence: 99%
“…Based on the investigations on mass transfer process via theoretical simulation calculation, more and more photocatalysts with ingenious structures and subtle functions were developed to facilitate photocatalytic activity via manipulating kinetic process of mass transfer. [142][143][144] Among them, photocatalyst-based micro/nanomotors and cilia-like photocatalyst films with viable structure design have aroused intensive attentions, exhibiting great potential in promoting mass transfer and thus enhancing photocatalytic performance, which will be summarized and discussed below. [145,146]…”
Section: Design Of Mass-transfer Boosted Photocatalytic Systemsmentioning
confidence: 99%
“…96,97 However, the O]O bond of O 2 has a high bond energy (498 kJ mol À1 ) that must be overcome to initiate O 2 -mediated oxidation reactions. Transition metal-based catalysts (e.g., transition metal complexes, 98 TMO, 99 and transition metal suldes 100 ) critically improve the reactivity of O 2 by effectively adsorbing the O 2 molecules and weakening the O]O bond of O 2 through efficient charge transfer, and photocatalysis is frequently used to promote electron transfer in the activation of O 2 . 101 (4) Lattice oxygen: metal oxides are the carrier of O L and they maintain the lattice structure throughout the reaction.…”
Section: àmentioning
confidence: 99%
“…Transition metal-based catalysts ( e.g. , transition metal complexes, 98 TMO, 99 and transition metal sulfides 100 ) critically improve the reactivity of O 2 by effectively adsorbing the O 2 molecules and weakening the OO bond of O 2 through efficient charge transfer, and photocatalysis is frequently used to promote electron transfer in the activation of O 2 . 101…”
Section: Generation Of Reactive Oxygen Speciesmentioning
confidence: 99%