Constructing core@shell structured photothermal nanosphere with thin carbon layer confined Co-Mn bimetals for pollutant degradation and solar interfacial water evaporation

Zhu, Hong-Yang; Liu, Meng-Ting; Wang, Gang; Du, Rong-Rong; Zhao, Hong-Yao; Lu, Hao; Yang, Shi-Qi; Tang, Sheng; Guo, Zeng-Jing; Yang, Jun; Zhu, Cheng-Zhang; Yang, Fu

doi:10.1007/s12598-023-02499-3

Cited by 14 publications

(2 citation statements)

References 55 publications

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“…According to previous reports, OÀ M is an important reactive oxygen species that can accelerate the charge transfer between the active site on the catalyst surface and the PMS, and the relative content of OÀ M of catalyst Co@SiO 2 /Cu-6 is as high as 31.13 %, which may also account for its good catalytic performance. [47] Detailed ratios of corresponding species in high-resolution XPS for Co 2p, Cu 2p, C 1s, N 1s, and O 1s are shown in Tables S1-5.…”

Section: Catalyst Characterization Analysismentioning

confidence: 99%

A CuCo Bimetal Confined Hollow SiC Hybrid Photothermal Nanoreactor for the Integration of Pollutant Mineralization and Solar‐Powered Water Evaporation

Wang,

Liu,

Gao

et al. 2024

ChemSusChem

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Herein, a bimetallic functional hollow nanoreactor defined as (Co@SiO2/Cu‐X) was successfully constructed and endowed with a hollow configuration composed of mesoporous N‐doping C‐Silica hybrid shell encapsulated ultrafine Cu and Co metallic species. Such a configuration allows for the efficient diffusion and open reaction space of big contaminant molecules. The catalytic synergy of exposed Co‐Cu bimetals and the easy accessibility of electron‐rich contaminants by polar N doping sites triggered surface affinity make the optimal Co@SiO2/Cu‐6 afford an excellent catalytic norfloxacin mineralization activity (7 min, kabs=0.744 min‐1) compared to Cu‐free Co@SiO2‐6 (kabs=0.493 min‐1) and Co‐6 (kabs=0.378 min‐1) Benefiting from the above unique advantages, Co@SiO2/Cu‐6 show excellent removal performance in degrading different pollutants (carbamazepine, oxytetracycline, tetracycline, and bisphenol A) and persistent recycled stability in removing NFX. In addition, by virtue of the excellent photothermal properties, interfacial solar water evaporation application by Co@SiO2/Cu‐6 was further explored to reach the regeneration of cleanwater (1.595 kg m‐2 h‐1, 97.51%). The integration of pollutant mineralization and solar water evaporation by creating the monolith evaporation by anchoring the Co@SiO2/Cu‐6 onto the tailored melamine sponge allows the regeneration of cleanwater (1.6 kg·m‐2·h‐1) and synchronous pollutant removal (NFX, 95%, 60 min), which provides potential possibility the treatment of complicated wastewater.

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Section: Catalyst Characterization Analysismentioning

confidence: 99%

A CuCo Bimetal Confined Hollow SiC Hybrid Photothermal Nanoreactor for the Integration of Pollutant Mineralization and Solar‐Powered Water Evaporation

Wang,

Liu,

Gao

et al. 2024

ChemSusChem

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“…Advanced oxidation processes (AOPs), encompassing Fenton and Fenton-like reactions, are recognized as highly effective for removing phenolic organic pollutants. 10 In comparison to traditional H 2 O 2 -based advanced oxidation technologies (HR-AOPS), AOP technologies involving sulfate radicals have garnered extensive attention due to their elevated redox potential and adaptability to a broader pH range (2.0–10.0). 11–13 Asymmetrically structured peroxymonosulfates demonstrate enhanced activation potential, producing sulfate radicals (˙SO 4 − ), hydroxyl radicals (˙OH), and even superoxide radicals more efficiently than peroxodisulfates.…”

Section: Introductionmentioning

confidence: 99%

Construction of phase-separated Co/MnO synergistic catalysts and integration onto sponge for rapid removal of multiple contaminants

Liu,

Zhang,

et al. 2024

Mater. Horiz.

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Single-atom catalysis for advanced oxidation and reduction systems in water decontamination

Teng,

Xu,

Sun

et al. 2024

Rare Met.

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Constructing core@shell structured photothermal nanosphere with thin carbon layer confined Co-Mn bimetals for pollutant degradation and solar interfacial water evaporation

Cited by 14 publications

References 55 publications

A CuCo Bimetal Confined Hollow SiC Hybrid Photothermal Nanoreactor for the Integration of Pollutant Mineralization and Solar‐Powered Water Evaporation

A CuCo Bimetal Confined Hollow SiC Hybrid Photothermal Nanoreactor for the Integration of Pollutant Mineralization and Solar‐Powered Water Evaporation

Construction of phase-separated Co/MnO synergistic catalysts and integration onto sponge for rapid removal of multiple contaminants

Single-atom catalysis for advanced oxidation and reduction systems in water decontamination

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