化学
荧光
纳米点
质子化
氮化碳
光化学
氢键
溶解
氮化物
碳纤维
无机化学
重组
氢
二氧化碳
堆积
组合化学
纳米技术
氨基甲酸酯
表面改性
苯并咪唑
作者
Wenwen Jin,Linlin Zhang,Shiyao Jia,Hong Xiao,Xiaojing Wang,H. W. Peng,Xiaohui Lu,Yanzong Zhang,Gang Yang,Fei Shen,Shihuai Deng,Yaofang Fan,Zhenxing Zeng
标识
DOI:10.1021/acs.analchem.5c04095
摘要
Developing a sample fluorescent sensor without modification of fluorophores with specific CO 2 -responsive groups for high efficient CO 2 detection presents considerable technical challenges, particularly for room-temperature detection. Herein, an innovative fluorescent turn-on chemosensor based on amino- and hydroxyl-comodified carbon nitride nanodots (CNNDs) was developed, which exhibited remarkable room-temperature CO 2 detection performance without introducing any other organic compounds. This impressive performance was attributed to the dissolution of CO 2 in water to form H 2 CO 3 and the ionized H + protonated the secondary amino groups of CNNDs, while the primary amino groups interacted with the HCO 3 – to form a carbamate (−NH–COO – )-like structure. The protonation of CNNDs and formation of carbamate-like units together promoted the formation of hydrogen bonding between the negatively charged CNNDs. These hydrogen bonding sites were proved to serve as charge recombination centers to enhance fluorescent yield, making the fluorescence of CNNDs sensitive to CO 2 . In addition, the introduced CO 2 was easy to remove via simple bubbling of Ar into the system, making the chemosensor highly repeatable. Thanks to these merits, the as-constructed CNNDs-based chemosensors exhibited high applicability potential in monitoring grain preservation status via the CO 2 concentration.
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