通过纳秒脉冲激光烧蚀液态石墨烯合成氧化石墨烯和掺氮氧化石墨烯,用于光纤气体传感应用

Rohini Puliyasseri, Kiyekali H Yeptho, Dillibabu Sastikumar
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摘要

杂原子掺杂的氧化石墨烯在生物成像和传感方面有着广泛的应用。在这项工作中,通过激光烧蚀乙醇中的石墨烯,合成了氧化石墨烯(GO)和氮掺杂 GO(NG)。掺杂剂二乙烯三胺(DETA)的用量不同,氮的浓度也不同。分别通过紫外-可见光谱、傅立叶变换红外光谱、FE-SEM、XRD、拉曼和 EDAX 分析进行了光学、形貌、结构和元素组成研究。FT-IR 和 EDAX 研究证实了 GO 表面的氮掺杂。在基本波长的激光烧蚀下,石墨烯转化为球形的 GO 纳米粒子,氮掺杂则产生了多孔纳米珊瑚结构的 NG 纳米粒子。研究并比较了 GO 和 NG 对氨气、乙醇和丙酮目标气体的灵敏度和选择性。NG 样品对丙酮气体具有极佳的灵敏度和选择性。掺氮氧化石墨烯可被视为气体传感应用的理想材料。
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Synthesis of graphene oxide and nitrogen-doped graphene oxide by nanosecond pulsed laser ablation of graphene in liquid for fiber optic gas sensing application
Heteroatom-doped graphene oxide has a wide range of applications in bio-imaging and sensing. In this work, Graphene Oxide (GO) and Nitrogen-doped GO (NG) were synthesized by laser ablation of Graphene in ethanol. The dopant Diethylenetriamine (DETA) is used in different amounts for different nitrogen concentrations. Optical, morphological, structural, and elemental composition studies were done by UV–vis spectroscopy, FT-IR, FE-SEM, XRD, Raman, and EDAX analysis, respectively. The nitrogen doping on the surface of GO was confirmed by FT-IR and EDAX studies. Upon laser ablation with fundamental wavelength, the graphene is converted to spherical GO nanoparticles, and nitrogen doping is done to produce porous nano coral structured NG nanoparticles. The sensitivity and selectivity of GO and NG for ammonia, ethanol, and acetone target gaseous were investigated and compared. NG sample shows excellent sensitivity and selectivity towards acetone gas. And the Nitrogen-doped graphene oxide can be considered an ideal material for gas-sensing applications.
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