Green anhydrous synthesis of hydrophilic carbon dots on large-scale and their application for broad fluorescent pH sensing

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归属学者:

颜磊

归属院系:

刑事侦查学院

作者:

Liu, Xiaoxia ; Yang, Chunlan ; Zheng, Baozhan ; Dai, Jianyuan ; Yan, Lei ; Zhuang, Zhenjing ; Du, Juan ; Guo, Yong ; Xiao, Dan

摘要:

A green and convenient anhydrous method was developed to synthesize hydrophilic carbon dots (H-CDs) on large-scale in this work. During the whole process of preparation, toxicity materials and high pressure conditions were not used, and H-CDs can be formed in several minutes by directly putting glucose powder into hot edible oil, which can be used again. Therefore, it is a green method and very suitable for the industrial preparation of CDs on large-scale. Characterizations demonstrate the H-CDs possess excellent optical properties, higher photostability and very low cytotoxicty. Noticeably, the H-CDs exhibit a distinct pH-sensitive feature, and have been used to construct fluorescent pH sensor with a nice linear relationship in the pH range of 3.0-13.0. To the best of our knowledge, this is the broadest reported pH range based on carbon dots without heteroatom doped. The mechanism of pH-sensitive response was also discussed. The proposed pH sensor has been successfully used for the pH monitoring of environmental water samples and living cells, which demonstrates their applicability in complex matrixes. (C) 2017 Elsevier B.V. All rights reserved.

语种:

英文

出版日期:

2018-02

学科:

化学; 仪器科学与技术

收录:

SCI(E)

提交日期

2020-04-16

引用参考

Liu, Xiaoxia; Yang, Chunlan; Zheng, Baozhan; Dai, Jianyuan; Yan, Lei; Zhuang, Zhenjing; Du, Juan; Guo, Yong; Xiao, Dan. Green anhydrous synthesis of hydrophilic carbon dots on large-scale and their application for broad fluorescent pH sensing[J]. SENSORS AND ACTUATORS B-CHEMICAL,2018():572-579.

  • dc.title
  • Green anhydrous synthesis of hydrophilic carbon dots on large-scale and their application for broad fluorescent pH sensing
  • dc.contributor.author
  • Liu, Xiaoxia; Yang, Chunlan; Zheng, Baozhan; Dai, Jianyuan; Yan, Lei; Zhuang, Zhenjing; Du, Juan; Guo, Yong; Xiao, Dan
  • dc.contributor.affiliation
  • Sichuan Univ,Coll Chem,Chengdu 610064,Sichuan,Peoples R China;Sichuan Univ,Coll Life Sci,Chengdu 610065,Sichuan,Peoples R China;Southwest Univ Polit Sci & Law,Sch Criminal Invest,Chongqing 401120,Peoples R China;Huaqiao Univ,Sch Biomed Sci,Quanzhou 362021,Peoples R China
  • dc.contributor.corresponding
  • Zheng,BZ; Guo,Y; Xiao,D (reprint author),Sichuan Univ,Coll Chem,Chengdu 610064,Sichuan,Peoples R China.
  • dc.publisher
  • SENSORS AND ACTUATORS B-CHEMICAL
  • dc.identifier.year
  • 2018
  • dc.identifier.volume
  • 255
  • dc.identifier.page
  • 572-579
  • dc.date.issued
  • 2018-02
  • dc.language.iso
  • 英文
  • dc.subject
  • GRAPHENE QUANTUM DOTS; HYDROTHERMAL TREATMENT; INTRACELLULAR PH; LIVING CELLS; IRON IONS; PHOTOLUMINESCENCE; NANOSENSOR; POLYETHYLENIMINE; NANOPARTICLES; LUMINESCENCE
  • dc.description.abstract
  • A green and convenient anhydrous method was developed to synthesize hydrophilic carbon dots (H-CDs) on large-scale in this work. During the whole process of preparation, toxicity materials and high pressure conditions were not used, and H-CDs can be formed in several minutes by directly putting glucose powder into hot edible oil, which can be used again. Therefore, it is a green method and very suitable for the industrial preparation of CDs on large-scale. Characterizations demonstrate the H-CDs possess excellent optical properties, higher photostability and very low cytotoxicty. Noticeably, the H-CDs exhibit a distinct pH-sensitive feature, and have been used to construct fluorescent pH sensor with a nice linear relationship in the pH range of 3.0-13.0. To the best of our knowledge, this is the broadest reported pH range based on carbon dots without heteroatom doped. The mechanism of pH-sensitive response was also discussed. The proposed pH sensor has been successfully used for the pH monitoring of environmental water samples and living cells, which demonstrates their applicability in complex matrixes. (C) 2017 Elsevier B.V. All rights reserved.
  • dc.description.sponsorshipPCode
  • cstcjjA00026
  • dc.description.sponsorship
  • National Nature Science Foundation of China [21407109, 51401174, 21307034]; Natural Science Foundation of Chongqing [cstcjjA00026]
  • dc.identifier.issn
  • 0925-4005
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