Ultrafine-Mn-Loaded N,O-Doped Nanocarbon via Mott-Schottky Effect for Photo-Enhanced Antibacterial Therapy and Wound Healing

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成果类型：

期刊论文

作者：

Xueyu Jiang;Fanwei Zeng;Yan Li;Yang Yi;Xiaodong Tang;...

通讯作者：

Yi, Y;Lu, A;Tang, XD

作者机构：

[Yang Yi; Xueyu Jiang; Yi, Yang] Wuhan Polytech Univ, Coll Food Sci & Engn, Hubei Key Lab Proc & Transformat Agr Prod, Wuhan, Peoples R China.

[Lu, Ang; Xueyu Jiang; Yan Li; Ang Lu] Wuhan Univ, Coll Chem & Mol Sci, Hubei Engn Ctr Nat Polymer Based Med Mat, Wuhan, Peoples R China.

[Tang, Xiaodong; Xiaodong Tang; Fanwei Zeng] Peking Univ Peoples Hosp, Dept Musculoskeletal Tumor, Beijing, Peoples R China.

[Tang, Xiaodong; Xiaodong Tang; Fanwei Zeng] Peking Univ Peoples Hosp, Beijing Key Lab Musculoskeletal Tumor, Beijing, Peoples R China.

通讯机构：

[Yi, Y ; Lu, A ] W

[Tang, XD ] P

Wuhan Polytech Univ, Coll Food Sci & Engn, Hubei Key Lab Proc & Transformat Agr Prod, Wuhan, Peoples R China.

Wuhan Univ, Coll Chem & Mol Sci, Hubei Engn Ctr Nat Polymer Based Med Mat, Wuhan, Peoples R China.

Peking Univ Peoples Hosp, Dept Musculoskeletal Tumor, Beijing, Peoples R China.

语种：

英文

关键词：

Mn nanoparticles;Mott‒Schottky effect;peroxidase-like activity;polysaccharide-based nanozymes;wound healing

期刊：

Aggregate

ISSN：

2692-4560

年：

2025

页码：

e70002

DOI：

10.1002/agt2.70002

基金类别：

: This work was supported by Research Funding of Wuhan Polytechnic University (2023RZ019), the Young Top-Notch Talent Cultivation Program of Hubei Province, the Wuhan Science and Technology Bureau (2022020801010389), the National Natural Science Foundation of China (51973166), the Key Research and Development Program of Hubei Province (2020BCA079), and the Beijing Natural Science Foundation (L248026). Xueyu Jiang and Fanwei Zeng contributed equally to this work.

机构署名：

本校为第一且通讯机构

院系归属：

食品科学与工程学院

摘要：

Bacterial infections are one of the greatest threats to wound healing, and microbial resistance has increased the demand for new antimicrobial dressings. Artificial nanozymes possess myriad considerable advantages, including low cost and high activity, for targeted biological treatments. Despite significant efforts made in nanozyme engineering, significant challenge remains that their catalytic performance is far from satisfactory in wound treatment. Herein, based on biowaste valorisation, we propose a sustainable and efficient strategy to synthesize an ultrafine-Mn-loaded (3.0 +/- 1 nm) N,O-d...

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Ultrafine-Mn-Loaded N,O-Doped Nanocarbon via Mott-Schottky Effect for Photo-Enhanced Antibacterial Therapy and Wound Healing

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