Citation: WU Jin-Dan, CAO Ying-Zi, CHEN Kai-Xin, ZHA Yong-Chao, LIU Hong-Shen, ZHOU Ping, LI Nan. Mannich Reaction Based Aggregation-induced Emission for Fluorescent Sensitive Detection of Formaldehyde[J]. Chinese Journal of Analytical Chemistry, 2023, 51(2): 194-203. doi: 10.19756/j.issn.0253-3820.221482
基于曼尼希反应的聚集诱导发光效应用于灵敏检测甲醛
English
Mannich Reaction Based Aggregation-induced Emission for Fluorescent Sensitive Detection of Formaldehyde
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Key words:
- Formaldehyde
- / Fluorescent detection
- / Aggregation-induced emission
- / Mannich reaction
- / Molecular probe
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[1]
TONG Z, LUO W, WANG Y, YANG F, HAN Y, LI H, LUO H, DUAN B, XU T, MAOYING Q, TAN H, WANG J, ZHAO H, LIU F, WAN Y. PLoS One, 2010, 5(4):e10234.TONG Z, LUO W, WANG Y, YANG F, HAN Y, LI H, LUO H, DUAN B, XU T, MAOYING Q, TAN H, WANG J, ZHAO H, LIU F, WAN Y. PLoS One, 2010, 5(4):e10234.
-
[2]
ZHANG Y, YANG Y, HE X, YANG P, ZONG T, SUN P, SUN R C, YU T, JIANG Z. J. Cell Mol. Med., 2021, 25(12):5358-5371.ZHANG Y, YANG Y, HE X, YANG P, ZONG T, SUN P, SUN R C, YU T, JIANG Z. J. Cell Mol. Med., 2021, 25(12):5358-5371.
-
[3]
YUAN G, DING H, PENG L, ZHOU L, LIN Q. Food Chem., 2020, 331:127221.YUAN G, DING H, PENG L, ZHOU L, LIN Q. Food Chem., 2020, 331:127221.
-
[4]
ZHAO Y X, ZHU W W, WU Y Y, CHEN Y Y, DU F K, YAN J, TAN X C, WANG Q. Microchem. J., 2021, 160:105727.ZHAO Y X, ZHU W W, WU Y Y, CHEN Y Y, DU F K, YAN J, TAN X C, WANG Q. Microchem. J., 2021, 160:105727.
-
[5]
TENG S, BEARD K, POURAHMAD J, MORIDANI M, EASSON E, POON R, O'BRIEN P J. Chem. Biol. Interact., 2001, 130-132:285-296.TENG S, BEARD K, POURAHMAD J, MORIDANI M, EASSON E, POON R, O'BRIEN P J. Chem. Biol. Interact., 2001, 130-132:285-296.
-
[6]
MICHEL B W, LIPPERT A R, CHANG C J. J. Am. Chem. Soc., 2012, 134(38):15668-15671.MICHEL B W, LIPPERT A R, CHANG C J. J. Am. Chem. Soc., 2012, 134(38):15668-15671.
-
[7]
REINGRUBER H, PONTEL L B. Curr. Opin. Toxicol., 2018, 9:28-34.REINGRUBER H, PONTEL L B. Curr. Opin. Toxicol., 2018, 9:28-34.
-
[8]
TULPULE K, DRINGEN R. J. Neurochem., 2013, 127(1):7-21.TULPULE K, DRINGEN R. J. Neurochem., 2013, 127(1):7-21.
-
[9]
GAO P, JIANG H, CHEN W, CUI Z. Dyes Pigm., 2020, 179:108376.GAO P, JIANG H, CHEN W, CUI Z. Dyes Pigm., 2020, 179:108376.
-
[10]
SOMAN A, QIU Y, CHAN LI Q. J. Chromatogr. Sci., 2008, 46(6):461-465.SOMAN A, QIU Y, CHAN LI Q. J. Chromatogr. Sci., 2008, 46(6):461-465.
-
[11]
YEH T S, LIN T C, CHEN C C, WEN H M. J. Food Drug Anal., 2013, 21(2):190-197.YEH T S, LIN T C, CHEN C C, WEN H M. J. Food Drug Anal., 2013, 21(2):190-197.
-
[12]
GANIE A S, BANO S, SULTANA S, SABIR S, KHAN M Z. Electroanalysis, 2021, 33(1):233-248.GANIE A S, BANO S, SULTANA S, SABIR S, KHAN M Z. Electroanalysis, 2021, 33(1):233-248.
-
[13]
EHSAN M A, REHMAN A. Anal. Methods, 2020, 12(32):4028-4036.EHSAN M A, REHMAN A. Anal. Methods, 2020, 12(32):4028-4036.
-
[14]
SUN X, ZHANG H, HAO S, ZHAI J, DONG S. ACS Sens., 2019, 4(10):2631-2637.SUN X, ZHANG H, HAO S, ZHAI J, DONG S. ACS Sens., 2019, 4(10):2631-2637.
-
[15]
LI M W, SHEN A, LIANG Y Q, ZHEN H, HAO X H, LIU X L, SUN X C, YANG Y X. Anal. Methods, 2020, 12(29):3748-3755.LI M W, SHEN A, LIANG Y Q, ZHEN H, HAO X H, LIU X L, SUN X C, YANG Y X. Anal. Methods, 2020, 12(29):3748-3755.
-
[16]
SHIN H S, LIM H H. Int. J. Food Sci. Tech., 2012, 47(2):350-356.SHIN H S, LIM H H. Int. J. Food Sci. Tech., 2012, 47(2):350-356.
-
[17]
MEI J, LEUNG N L C, KWOK R T K, LAM J W Y, TANG B Z. Chem. Rev., 2015, 115(21):11718-11940.MEI J, LEUNG N L C, KWOK R T K, LAM J W Y, TANG B Z. Chem. Rev., 2015, 115(21):11718-11940.
-
[18]
FENG G, KWOK R T K, TANG B Z, LIU B. Appl. Phys. Rev., 2017, 4(2):021307.FENG G, KWOK R T K, TANG B Z, LIU B. Appl. Phys. Rev., 2017, 4(2):021307.
-
[19]
LI Hai-Yin, CHANG Jia-Fu, LYU Wen-Xin, LI Feng. Chin. J. Anal. Chem., 2020, 48(10):1325-1333. 李海银, 常加富, 吕文欣, 李峰. 分析化学, 2020, 48(10):1325-1333.
-
[20]
LIANG J, TANG B Z, LIU B. Chem. Soc. Rev., 2015, 44(10):2798-2811.LIANG J, TANG B Z, LIU B. Chem. Soc. Rev., 2015, 44(10):2798-2811.
-
[21]
PAN J, MA J, LIU H, ZHANG Y, LU L. New J. Chem., 2021, 45(45):21151-21159.PAN J, MA J, LIU H, ZHANG Y, LU L. New J. Chem., 2021, 45(45):21151-21159.
-
[22]
LIOW S S, ZHOU H, SUGIARTO S, GUO S, CHALASANI M L S, VERMA N K, XU J, LOH X J. Biomacromolecules, 2017, 18(3):886-897.LIOW S S, ZHOU H, SUGIARTO S, GUO S, CHALASANI M L S, VERMA N K, XU J, LOH X J. Biomacromolecules, 2017, 18(3):886-897.
-
[23]
LI Y, ZHANG Y, WANG M, WANG D, CHEN K, LIN P, GE Y, LIU W, WU J. J. Hazard. Mater., 2021, 415:125712.LI Y, ZHANG Y, WANG M, WANG D, CHEN K, LIN P, GE Y, LIU W, WU J. J. Hazard. Mater., 2021, 415:125712.
-
[24]
WEN X, YAN L, FAN Z. New J. Chem., 2021, 45(18):8155-8165.WEN X, YAN L, FAN Z. New J. Chem., 2021, 45(18):8155-8165.
-
[25]
ZHAO X, JI C, MA L, WU Z, CHENG W, YIN M. ACS Sens., 2018, 3(10):2112-2117.ZHAO X, JI C, MA L, WU Z, CHENG W, YIN M. ACS Sens., 2018, 3(10):2112-2117.
-
[26]
LI P, ZHANG D, ZHANG Y, LU W, WANG W, CHEN T. ACS Sens., 2018, 3(11):2394-2401.LI P, ZHANG D, ZHANG Y, LU W, WANG W, CHEN T. ACS Sens., 2018, 3(11):2394-2401.
-
[27]
YU Zhi-Mei, LIAO Xing-Long, YU Jian-Yong, YANG Da-Cheng. J. Org. Chem. Res., 2016, 4(3):61-68. 于治梅, 廖兴龙, 蔚建勇, 杨大成. 有机化学研究, 2016, 4(3):61-68.
-
[28]
KLEINMAN E. Comp. Org. Synth., 1991, 2:893-951.KLEINMAN E. Comp. Org. Synth., 1991, 2:893-951.
-
[29]
ZHAO W, LI C, LIU B, WANG X, LI P, WANG Y, WU C, YAO C, TANG T, LIU X, CUI D. Macromolecules, 2014, 47(16):5586-5594.ZHAO W, LI C, LIU B, WANG X, LI P, WANG Y, WU C, YAO C, TANG T, LIU X, CUI D. Macromolecules, 2014, 47(16):5586-5594.
-
[30]
ZHANG X, MOHAMED M G, XIN Z, KUO S W. Polymer, 2020, 201:122552.ZHANG X, MOHAMED M G, XIN Z, KUO S W. Polymer, 2020, 201:122552.
-
[31]
WU Hong-Mei, GUO Yu, CAO Jian-Fang, CHEN Qiang-Qiang. Chin. J. Anal. Chem., 2018, 46(3):379-385. 吴红梅, 郭宇, 曹建芳, 陈强强. 分析化学, 2018, 46(3):379-385.
-
[32]
HONG Y, LAM J W Y, TANG B Z. Chem. Commun., 2009, (29):4332-4353.HONG Y, LAM J W Y, TANG B Z. Chem. Commun., 2009, (29):4332-4353.
-
[33]
JOSHI N S, WHITAKER L R, FRANCIS M B. J. Am. Chem. Soc., 2004, 126(49):15942-15943.JOSHI N S, WHITAKER L R, FRANCIS M B. J. Am. Chem. Soc., 2004, 126(49):15942-15943.
-
[34]
FILHO J F A, LEMOS B C, DE SOUZA A S, PINHEIRO S, GRECO S J. Tetrahedron, 2017, 73(50):6977-7004.FILHO J F A, LEMOS B C, DE SOUZA A S, PINHEIRO S, GRECO S J. Tetrahedron, 2017, 73(50):6977-7004.
-
[35]
LIN Q, FAN Y Q, GONG G F, MAO P P, WANG J, GUAN X W, LIU J, ZHANG Y M, YAO H, WEI T B. ACS Sustainable Chem. Eng., 2018, 6(7):8775-8781.LIN Q, FAN Y Q, GONG G F, MAO P P, WANG J, GUAN X W, LIU J, ZHANG Y M, YAO H, WEI T B. ACS Sustainable Chem. Eng., 2018, 6(7):8775-8781.
-
[36]
ZHANG S, WEN X, LONG M, XI J, HU J, TANG A. J. Alloys Compd., 2020, 829:154568.ZHANG S, WEN X, LONG M, XI J, HU J, TANG A. J. Alloys Compd., 2020, 829:154568.
-
[37]
ARSAWISET S, TEEPOO S. Anal. Chim. Acta, 2020, 1118:63-72.ARSAWISET S, TEEPOO S. Anal. Chim. Acta, 2020, 1118:63-72.
-
[38]
LIU Q, ZENG X, TIAN Y, HOU X, WU L. Talanta, 2019, 202:274-278.LIU Q, ZENG X, TIAN Y, HOU X, WU L. Talanta, 2019, 202:274-278.
-
[39]
HAN S, WANG J, JIA S. Microchim. Acta, 2014, 181(1-2):147-153.HAN S, WANG J, JIA S. Microchim. Acta, 2014, 181(1-2):147-153.
-
[40]
DING N, LI Z, HAO Y, YANG X. Food Chem., 2022, 384:132426.DING N, LI Z, HAO Y, YANG X. Food Chem., 2022, 384:132426.
-
[41]
XIN F, TIAN Y, JING J, ZHANG X. Anal. Methods, 2019, 11(23):2969-2975.XIN F, TIAN Y, JING J, ZHANG X. Anal. Methods, 2019, 11(23):2969-2975.
-
[42]
ZACHUT M, SHAPIRO F, SILANIKOVE N. Food Chem., 2016, 201:270-274.ZACHUT M, SHAPIRO F, SILANIKOVE N. Food Chem., 2016, 201:270-274.
-
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