中文
Earlier issues
Announcement
More
Progress in Chemistry 2005, Vol. 17 Issue (02): 254-265 Previous Articles   Next Articles

• Review •

Progress in Fluorescent Receptors for Anions

Zeng Zhenya  He Yongbing**  Meng Lingzhi   

  1. (Department of Chemistry, Wuhan University, Wuhan 430072, China)
  • Received: Revised: Online: Published:
  • Contact: He Yongbing E-mail:ybhe@whu. edu. cn
PDF ( 2140 ) Cited
Export

EndNote

Ris

BibTeX

The latest research progress in fluorescent receptors for anions and common mechanisms in sensing is summarized. The design, synthesis and application of three types of anion receptors are reviewed: ( 1) receptors based on hydrogen bonding or electrostatic interactions containing amide, urea, thiourea, guanidinium, thiouronium, or five2mem2 ber heterocycle groups; ( 2) receptors consisting of metal or Lewis acid center; ( 3) chemosensing ensemble based on competitive bonding mechanism.

Key words: fluorescence, anion receptor, fluorescent chemosensor, anion recognition

CLC Number: 

[ 1 ] Sessler J L , Camiolo S , Gale P A. Coord. Chem. Rev. , 2003 ,240 : 17 —55
[ 2 ] Beer P D , Hayes E J . Coord. Chem. Rev. , 2003 , 240 : 167 —189
[ 3 ] Fabbrizzi L , Licchelli M, Taglietti A. Dalton Trans. , 2003 ,3471 —3479
[ 4 ] Gale P A. Coord. Chem. Rev. , 2003 , 240 : 191 —221
[ 5 ] Suksai C , Tuntulani T. Chem. Soc. Rev. , 2003 , 32 (4) : 192 —202
[ 6 ] Aoki S , Kimura E. Rev. Mol . Biotech. , 2002 , 90 (2) : 129 —155
[ 7 ] Zeng Z Y, He YB , Wei L H , et al . Can. J . Chem. , 2004 , 82(3) : 454 —460
[ 8 ] Beer P D. Chem. Commun. , 1996 , 689 —696
[ 9 ] Martínez-Máìez R , Sancenón F. Chem. Rev. , 2003 , 103 :4419 —4476
[10] de Silva A P , Gunaratne H Q N , Gunnlaugsson T , et al . Chem.Rev. , 1997 , 97 : 1515 —1566
[11] Dietrich B. Pure Appl . Chem. , 1993 , 65 (7) : 1457 —1464
[12] Choi K, Hamilton A D. Angew. Chem. Int . Ed. , 2001 , 40(20) : 3912 —3914
[13] 曾振亚(Zeng Z Y) , 吴进龙(Wu J L) , 隗兰华(Wei L H)等. 高等学校化学学报(Chem. J . Chin. Univ. ) , 2003 , 24(11) : 2005 —2009
[14] Liao J H , Chen C T , Fang J M. Org. Lett . , 2002 , 4 ( 4) :561 —564
[15] Kuo L J , Liao J H , Chen C T , et al . Org. Lett . , 2003 , 5 (11) :1821 —1824
[16] Zhang X, Guo L , Wu F Y, et al . Org. Lett . , 2003 , 5 (15) :2667 —2670
[17] Wu F Y, Jiang Y B. Chem. Phy. Lett . , 2002 , 355 : 438 —444
[18] Cho E J , Moon J W, Ko S W, et al . J . Am. Chem. Soc. ,2003 , 125 (41) : 12376 —12377
[19] Mei M, Wu S. New J . Chem. , 2001 , 25 : 471 —475
[20] Gunnlaugsson T , Davis A P , O’Brien J E , et al . Org. Lett . ,2002 , 4 (15) : 2449 —2452
[21] Gunnlaugsson T , Davis A P , Glynn M. Chem. Commun. , 2001 ,2556 —2557
[22] Sasaki S , Citterio D , Ozawa S , et al . J . Chem. Soc. , Perkin.Trans. 2 , 2001 , 2309 —2313
[23] Kondo S , Nagamine M, Yano Y. Tetrahedron Lett . , 2003 , 44(49) : 8801 —8804
[24] Wu J L , Wei L H , Zeng Z Y, et al . Chin. J . Chem. , 2003 , 21(12) : 1553 —1557
[25] Zeng Z Y, He YB , Wu J L , et al . Supramol . Chem. , 2004 , 16(4) : 233 —238
[26] Hennrich G, Sonnenschein H , Resch-Genger U. Tetrahedron Lett . , 2001 , 42 (15) : 2805 —2808
[27] Lee D H , Im J H , Lee J H , et al . Tetrahedron Lett . , 2002 , 43(52) : 9637 —9640
[28] Wu F Y, Li Z , Wen Z C , et al . Org. Lett . , 2002 , 4 (19) :3203 —3205
[29] Qian X, Liu F. Tetrahedron Lett . , 2003 , 44 (4) : 795 —799
[30] Kobiro C , Inoue Y. J . Am. Chem. Soc. , 2003 , 125 ( 2) :421 —427
[31] Raker J , Glass T E. J . Org. Chem. , 2002 , 67 (17) : 6113 —6116
[32] Yeo W S , Hong J I. Tetrahedron Lett . , 1998 , 39 (22) : 3769 —3772
[33] Yeo W S , Hong J I. Tetrahedron Lett . , 1998 , 39 (44) : 8137 —8140
[34] Sasaki S , Hashizume A , Ozawa S , et al . Chem. Lett . , 2001 ,353 : 382 —383
[35] Kubo Y, Tsukahara M, Ishihara S , et al . Chem. Commun. ,2000 , 653 —654
[36] Kubo Y, Ishihara S , Tsukahara M, et al . J . Chem. Soc. , Perkin Trans. 2 , 2002 , 1455 —1460
[37] Nishizawa S , Cui Y Y, Minagawa M, et al . J . Chem. Soc. , Perkin Trans. 2 , 2002 : 866 —870
[38] Yun S , Ihm H , Kim H G, et al . J . Org. Chem. , 2003 , 68(6) : 2467 —2470
[39] Kim S K, Singh N J , Kim S J , et al . Org. Lett . , 2003 , 5 (12) :2083 —2086
[40] Causey C P , Allen W E. J . Org. Chem. , 2002 , 67 ( 17) :5963 —5968
[41] Tong H , Zhou G, Wang L , et al . Tetrahedron Lett . , 2003 , 44(1) : 131 —134
[42] Aldakov D , Anzenbacher P. Chem. Commun. , 2003 , 1394 —1395
[43] Ho H A , Leclerc M. J . Am. Chem. Soc. , 2003 , 125 (15) :4412 —4413
[44] Sessler J L , An D , Cho WS , et al . J . Am. Chem. Soc. , 2003 ,125 (45) : 13646 —13647
[45] Jeppesen J O , Becher J . Eur. J . Org. Chem. , 2003 , (17) :3245 —3266
[46] Anzenbacher P , Jursíkouá K, Sessler J L. J . Am. Chem. Soc. ,2000 , 122 (38) : 9350 —9351
[47] Sessler J L , Davis J M. Acc. Chem. Res. , 2001 , 34 (12) :989 —997
[48] Sessler J L , Davis J M, Král V , et al . Org. Biomol . Chem. ,2003 , 1 (22) : 4113 —4123
[49] Coskun A , Baytekin B T , Akkaya E U. Tetrahedron Lett . , 2003 ,44 (30) : 5649 —5651
[50] Cabell L A , Best M D , Lavigne J J , et al . J . Chem. Soc. , Per kin Trans. 2 , 2001 , 315 —323
[51] Mizukami S , Nagano T , Urano Y, et al . J . Am. Chem. Soc. ,2002 , 124 (15) : 3920 —3925
[52] Padilla-Tosta M E , Lloris J M, Martínez-Máìez R , et al . Eur. J .Inorg. Chem. , 2001 , (5) : 1221 —1226
[53] Yamaguchi S , Akiyama S , Tamao K. J . Am. Chem. Soc. ,2000 , 122 (28) : 6793 —6794
[54] Sancenon F , Benito A , Hernández F J , et al . Eur. Inorg.Chem. , 2002 : 866 —875
[55] Ojida A , Park S K, Yasuko M, et al . Tetrahedron Lett . , 2002 ,43 (35) : 6193 —6195
[56] Niikura K, Metzger A , Anslyn E V. J . Am. Chem. Soc. , 1998 ,120 (33) : 8533 —8534
[57] Metzger A , Anslyn E V. Angew. Chem. Int . Ed. , 1998 , 37(5) : 649 —651
[58] Wiskur S L , Ait-Haddou H , Lavigne J L , et al . Acc. Chem.Res. , 2001 , 34 (12) : 963 —972
[59] Fabbrizzi L , Leone A , Taglietti A. Angew. Chem. Int . Ed. ,2001 , 40 (16) : 3066 —3069
[60] Prohens R , Martorell G, Ballester P , et al . Chem. Commun. ,2001 , 1456 —1457
[61] Fabbrizzi L , Leone A , Taglietti A. Angew. Chem. Int . Ed. ,2001 , 40 (16) : 3066 —3069
[62] Takahashi Y, Tanaka D A P , Matsunaga H , et al . J . Chem.Soc. , Perkin Trans. 2 , 2002 , 759 —762
[1] Lan Yu, Peiran Xue, Huanhuan Li, Ye Tao, Runfeng Chen, Wei Huang. Circularly Polarized Thermally Activated Delayed Fluorescence Materials and Their Applications in Organic Light-Emitting Devices [J]. Progress in Chemistry, 2022, 34(9): 1996-2011.
[2] Hao Tian, Zimu Li, Changzheng Wang, Ping Xu, Shoufang Xu. Construction and Application of Molecularly Imprinted Fluorescence Sensor [J]. Progress in Chemistry, 2022, 34(3): 593-608.
[3] Tingting Zhang, Xingzhi Hong, Hui Gao, Ying Ren, Jianfeng Jia, Haishun Wu. Thermally Activated Delayed Fluorescence Materials Based on Copper Metal-Organic Complexes [J]. Progress in Chemistry, 2022, 34(2): 411-433.
[4] Zhang Yewen, Yang Qingqing, Zhou Cefeng, Li Ping, Chen Runfeng. The Photophysical Behavior and Performance Prediction of Thermally Activated Delayed Fluorescent Materials [J]. Progress in Chemistry, 2022, 34(10): 2146-2158.
[5] Zhen Wang, Xi Li, Yuanyuan Li, Qi Wang, Xiaomei Lu, Quli Fan. Activatable NIR-Ⅱ Probe for Tumor Imaging [J]. Progress in Chemistry, 2022, 34(1): 198-206.
[6] Dan Zhao, Changtao Wang, Lei Su, Xueji Zhang. Application of Fluorescence Nanomaterials in Pathogenic Bacteria Detection [J]. Progress in Chemistry, 2021, 33(9): 1482-1495.
[7] Huipeng Hou, Axin Liang, Bo Tang, Zongkun Liu, Aiqin Luo. Fabrication and Application of Photonic Crystal Biochemical Sensor [J]. Progress in Chemistry, 2021, 33(7): 1126-1137.
[8] Yang Wang, Po Hu, Shuai Zhou, Jiajun Fu. Anticounterfeiting and Security Applications of Rare-Earth Upconversion Nanophosphors [J]. Progress in Chemistry, 2021, 33(7): 1221-1237.
[9] Shuaibing Yu, Zhaolu Wang, Xuliang Pang, Lei Wang, Lianzhi Li, Yingwu Lin. Peptide-Based Metal Ion Sensors [J]. Progress in Chemistry, 2021, 33(3): 380-393.
[10] Shijia Li, Ernan Pang, Caihong Hao, Tingting Cai, Shengliang Hu. Preparation of Solid-State Fluorescent Carbon Dots [J]. Progress in Chemistry, 2020, 32(5): 548-561.
[11] Yuehua Yuan, Yongjun Zhu, Wei Hu, Jun Qin, Maozhong Tian, Feng Feng. Double Recognition Fluorescence Probes for Copper and Mercury Ions Based on Small Molecules [J]. Progress in Chemistry, 2019, 31(4): 550-560.
[12] Yang Shen, Jiwen Hu, Tingting Liu, Hongwen Gao, Zhangjun Hu. Colorimetric and Fluorogenic Chemosensors for Mercury Ion Based on Nanomaterials [J]. Progress in Chemistry, 2019, 31(4): 536-549.
[13] Xiaofu Wu, Hui Tong, Lixiang Wang. Fluorescent Polymer Materials for Detection of Explosives [J]. Progress in Chemistry, 2019, 31(11): 1509-1527.
[14] Daiwen Pang, Zhiliang Chen, Shasha Lv, Yi Lin*, Zhiling Zhang, Daiwen Pang. Metal-Enhanced Fluorescence from Quantum Dots [J]. Progress in Chemistry, 2017, 29(8): 814-823.
[15] Chibao Huang*, Shaoying Chen. Two-Photon Fluorescence Probe [J]. Progress in Chemistry, 2017, 29(10): 1215-1227.