河南科技大学第一附属医院Kun Lei的论文被撤稿,因与已发表论文数据不当重复
标题:Cu2O–SnO2-PDA heterozygous nanozyme doped hydrogel mediated conglutinant microenvironment regulation for wound healing therapy
期刊:International Journal of Biological Macromolecules
单位:河南科技大学第一附属医院
发表时间:2024年9月20日
DOI: 10.1016/j.ijbiomac.2024.135852
撤稿原因:图6C中的电子顺磁共振(EPR)检测峰与几篇已发表文章中的峰相似。编辑部联系了作者要求解释,作者随后提供了图6C和图6D的新数据,但这些数据与原始投稿不同。
① 在不同条件下,本研究中的一份光谱数据与另一项研究的结果完全一致(DOI: 10.1016/j.seppur.2024.130143)。
Study2: Heterogeneous Cu2O-SnO2 Doped Polydopamine Fenton-like Nanoenzymes for Synergetic Photothermal-Chemodynamic Antibacterial Application
Study3: Heterogeneous alloyed CuSnO-DopaCube mediated photo-Fenton and photothermal synergistic catalysis for dye elimination
Study4:Heterogeneous Cu–Sn-PPy mediated synergistic photo-Fenton and photothermal catalysis for dye elimination
Study5:Ternary hierarchical flower-like PtCuTe nanosheets mediated photo-Fenton catalysis for dye pollutant degradation (as the above report)
Study6:Fenton-driven photothermal enhanced degradation of methylene blue by using Cu2O@SnO2@PDA cubic heterostructured catalyst
Study7:Pd octahedra nanocubes mediated photo-fenton catalytic performance for sustainable degradation of methylene blue
Study8:Sea urchin-like PdCuAu nanoclusters mediated photothermal enhanced Fenton catalysis for degradation of dye pollutants
Study9:PdPtCu nanoflower mediated photothermal enhanced Fenton catalysis for recyclable degradation of methylene blue
Study10:Coralloid Pdaucu Nanozyme-Mediated Photothermal-Enhanced Fenton Catalytic Degradation of Organic Dye Pollutants
Study11: Palladium nanocubes-mediated Fenton catalysis combined with chloride ion-amplified electro-driven catalysis for dye degradation
应主编要求,本文已被撤回。
有人对该文章的科学内容提出了质疑,特别指出图6C中的电子顺磁共振(EPR)检测峰与几篇已发表文章中的峰相似。编辑部联系了作者要求解释,作者随后提供了图6C和图6D的新数据,这些数据与原始投稿不同。基于作者的回应,编辑部对所呈现数据的真实性失去了信任。因此,主编决定撤回该文章。
https://www.sciencedirect.com/science/article/pii/S0141813024066613?via%3Dihub