Reversible Iron Oxyfluoride (FeOF)‐Graphene Composites as Sustainable Cathodes for High Energy Density Lithium Batteries

Liu, Yadong; Yu, Yikang; Yang, Fan; Zhu, Guangqi; Kang, Yu; Kou, Ronghui; Sun, Chengjun; Liu, Yuzi; Xu, Jiayi; Liu, Cong; Li, Chenzhao; Liu, Tianwei; Ren, Yang; Lu, Wenquan; Ferreira, Rafael; Ferreira, Paulo J.; Zhang, Zhengcheng; Xie, Jian

doi:10.1002/smll.202206947

Cited by 5 publications

(1 citation statement)

References 37 publications

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“…Carbon dots (CDs), zero-dimensional carbon-based nanomaterials with characteristic dimensions below 10 nm, possess intrinsically tunable photoluminescence (PL) [ 1 , 2 ]. Their unique fluorescence (FL) properties have enabled widespread applications in bioimaging [ 3 ], FL anticounterfeiting [ 4 ], information encryption [ 5 ], and sensor detection [ 6 , 7 ].…”

Section: Introductionmentioning

confidence: 99%

Nickel-Atom Doping as a Potential Means to Enhance the Photoluminescence Performance of Carbon Dots

Kong

Sun

et al. 2023

Molecules

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Heteroatom doping, particularly with nonmetallic atoms such as N, P, and S, has proven to be an effective strategy for modulating the fluorescent properties of carbon dots (CDs). However, there are few reports on the regulation of the photoluminescence of CDs by transition-metal doping. In this work, nickel-doped CDs (Ni-CDs) were fabricated using the hydrothermal approach. Ni atoms were incorporated into the sp2 domains of the CDs through Ni-N bonds, resulting in an increased degree of graphitization of the Ni-CDs. Additionally, Ni-atom doping served to shorten the electron transition and recombination lifetimes, and suppress the nonradiative recombination process, resulting in an absolute fluorescence quantum yield of 54.7% for the Ni-CDs. Meanwhile, the as-prepared Ni-CDs exhibited excellent biocompatibility and were utilized for fluorescent bioimaging of HeLa cells. Subsequently, the Ni-CDs were employed as fluorescent anticounterfeiting inks for the successful encryption of two-dimensional barcodes. Our work demonstrates a novel heteroatom doping strategy for the synthesis of highly fluorescence-emitting CDs.

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