[1] | HONG Jiamin.Summary of Research Progress on Hazards and Detection Methods of Formaldehyde Pollution[J]. Anhui J Prev Med,2007,13(1):44-47(in Chinese). 洪家敏. 甲醛污染的危害及检测方法研究进展综述[J]. 安徽预防医学杂志,2007,13(1):44-47. | [2] | HUANG Zhongqian,LI Yanan,GAO Lixia,et al. Research Progress on Formaldehyde Analysis Methods in Food[J]. J Food Saf Qual,2015,6(12):4712-4718(in Chinese). 黄种乾,李亚楠,高丽霞,等. 食品中甲醛分析方法研究进展[J]. 食品安全质量检测学报,2015,6(12):4712-4718. | [3] | LI Xinru.Talking about the Harm and Prevention of Indoor Formaldehyde Pollution[J]. J Jiaozuo Univ,2017,31(4):83-84(in Chinese). 李新茹. 浅谈室内甲醛污染的危害与防治[J]. 焦作大学学报,2017,31(4):83-84. | [4] | SUN Zhaodong.Brief Introduction of the Harm of Formaldehyde and Its Prevention and Treatment Methods[J]. Technol Wind,2014,14(161):194-200(in Chinese). 孙兆东. 甲醛的危害及防治方法简述[J]. 科技风,2014,14(161):194-200. | [5] | TONG Zhiqian,WAN You,LUO Wenhong,et al. Endogenous Formaldehyde and Its Related Major Human Diseases[J]. Prog Nat Sci,2008,18(11):1201-1210(in Chinese). 童志前,万有,罗文鸿,等. 内源性甲醛及其相关人类重大疾病[J]. 自然科学进展,2008,18(11):1201-1210. | [6] | LONG Yunfei,ZHOU Liping,HAN Ming.Determination of Trace Formaldehyde Based on the Formation of Silver Nanoparticles[J]. Chinese J Appl Chem,2009,26(11):1349-1352(in Chinese). 龙云飞,周立萍,韩明. 基于银纳米粒子的生成测定痕量甲醛[J]. 应用化学,2009,26(11):1349-1352. | [7] | YANG Lei,LIU Wenjie.Research and Development of Formaldehyde Detection Fluorescent Probe[J]. China Fiber Ins,2018,20:77-79(in Chinese). 杨雷,刘文杰. 甲醛检测荧光探针的研究与进展[J]. 中国纤检,2018,20: 77-79. | [8] | Tang Y,Kong X,Xu A,et al. Development of a Two-Photon Fluorescent Probe for Imaging of Endogenous Formaldehyde in Living Tissues[J]. Angew Chem,2016,128:3417-3420. | [9] | Song H,Rajendiran S,Kim N,et al. A Tailor Designed Fluorescent ‘Turn-On’ Sensor of Formaldehyde Based on the BODIPY Motif[J]. Tetrahedron Lett,2012,53: 4913-4916. | [10] | Roth A,Li H,Anorma C,et al. A Reaction-Based Fluorescent Probe for Imaging of Formaldehyde in Living Cells[J]. J Am Chem Soc,2015,137(34):10890-10893. | [11] | Brewer T F,Chang C J.An Aza-Cope Reactivity-Based Fluorescent Probe for Imaging Formaldehyde in Living Cells[J]. J Am Chem Soc,2015,137(34):10886-10889. | [12] | Xie Z,Ge J,Zhang H,et al. A Highly Selective Two-Photon Fluorescence Probe for Formaldehyde and Its Bioimaging Application in Cells and Zebrafish[J]. Sens Actuators B:Chem,2016,241:1050-1056. | [13] | Chen L,Fu Y,Fang W,et al. Screening of a Highly Effective Fluorescent Derivatization Reagent for Carbonyl Compounds and Its Application in HPLC with Fluorescence Detection[J]. Talanta,2018,186:221-228. | [14] | Macmillan K S,Nguyen T,Hwang I,et al. Total Synthesis and Evaluation of Iso-Duocarmycin SA and Iso-Yatakemycin[J]. J Am Chem Soc,2009,131(3):1187-1194. | [15] | YANG Chunhao,SHAO Jimin,ZHU Weiliang,et al. Substituted Amide Phenols. Substituted Amide Phenols and Their Preparation Methods,Pharmaceutical Compositions and Applications:CN,105085433.A[P].2015-11-25(in Chinese). 杨春皓,邵吉民,朱维良,等. 取代酰胺苯酚类化合物及其制备方法、药物组合物和用途:中国,105085433A[P].2015-11-25. | [16] | Wang P,Xia Y,Zou L,et al. An Optimized Two-Photon Fluorescent Probe for Biological Sensing and Imaging of Catechol-O-Methyltransferase[J]. Chem Eur J,2017,23(45):10800-10807. | [17] | Banerjee A,Panosian T D,Mukherjee K,et al. Site-Specific Orthogonal Labeling of the Carboxy Terminus of α-Tubulin[J]. ACS Chem Biol,2010,5(8):777-785. | [18] | Okata H,Hatta W,Iijima K,et al. Detection of Acetaldehyde in the Esophageal Tissue among Healthy Male Subjects after Ethanol Drinking and Subsequent L-Cysteine Intake[J]. Tohoku J Exp Med,2018,244(4):317-325. | [19] | Daniele D R,Amanda J S,Nicoletta P.A Review of Recent Studies on Malondialdehyde as Toxic Molecule and Biological Marker of Oxidative Stress[J]. Nutr Metab Cardiovasc Dis,2005,15(4):316-328. |
|