中文
Earlier issues
Announcement
More
Progress in Chemistry 2010, Vol. 22 Issue (10): 2033-2052 Previous Articles   Next Articles

• Review •

Photoinduced Intramolecular Energy Transfer in Dendrimers

Liu Shihong Gao Fang**   Gao Yimeng   Hou Ying   Li Hongru**  Zhang Shengtao   

  1. (College of Chemistry and Chemical Engineering, Chongqing University, Chongqing, 400044,China)
  • Received: Revised: Online: Published:
  • Contact: Gao Fang E-mail:fanggao1971@gmail.com
PDF ( 1828 ) Cited
Export

EndNote

Ris

BibTeX

Dendrimers possess great potentials in molecular devices due to their special chemical structures, which stimulates photochemical and photophyscial investigation of dendrimers. This paper describes the chemical structure characteristics of reported dendrimers with photoinduced intramolecular energy transfer nature in recent two decades, and presents the effect of the generations, rigidity, symmetry, planarity, energy gradient and multi-photon excitation on the photoinduced intramolecular energy transfer efficiency. This review also shows how to tune photoinduced intramolecular energy transfer efficiency with chemical strategy based on the properties of energy-donor and acceptor. The application of photoinduced intramolecular energy transfer efficiency in dendrimers is generalized. The key scientific problems in the photoinduced intramolecular energy transfer efficiency in dendrimers are summarized. The development prospects of photoinduced intramolecular energy transfer in dendrimers is discussed.

Contents
1 Introduction
2 Photoinduced intramolecular energy transfer
2.1 Basic theory in Photoinduced intramolecular energy transfer
2.2 Photoinduced intramolecular energy transfer in dendrimers
2.2.1 Photoinduced intramolecular energy transfer in non-conjugated dendrimers
2.2.2 Photoinduced intramolecular energy transfer in conjugated dendrimers
3 Application
3.1 Sensor
3.2 Biological and medical fields
4 Problems
5 Development direction
6 Conclusions

Key words: dendrimers, photoinduced intramolecular energy transfer, non-conjugated system, conjugated system

[1 ] Ciamician G. Science,1912,36: 385—394
[2 ] Adronov A,Fréchet J M J. Chem. Commun. ,2000,1701—
1710
[3 ] Kawa M,Fréchet J M J. Chem. Mater. ,1998,10: 286—296
[4 ] Stewart G M,Fox M A. J. Am. Chem. Soc. ,1996,118: 4354
[5 ] Gilat S L,Adronov A,Fréchet J M J. Angew. Chem. Int. Ed.
Engl. ,1999,38: 1422—1427
[6 ] Birks J B,Photophysics of Aromatic Molecules. London: Wiley-
Interscience,1970,518—624
[7 ] Turro N J. Pure & Appl. Chem. ,1977,49: 405—429
[8 ] Turro N J. Modern Molecular Photochemistry. California:
Sausalito,1991,296—361
[9 ] Aleman E A. Doctoral Dissertation of University of Akron,2006
[10] Frster T. Discuss. Faraday Soc. ,1959,27: 7—17
[11] Clegg R M. Meth. Enzymology,1992,211: 353—388
[12] Dexter D L. Discuss. Faraday Soc. ,1953,21: 836—850
[13] Murphy C B,Zhang Y,Troxler T,Ferry V,Martin J J,Jones W
E. J. Phys. Chem. B,2004,108: 1537—1543
[14] Moore J S,Bharathi P,Devadoss C. J. Am. Chem. Soc. ,
1996,118: 9635—9644
[15] Swallen S F,Kopelman R,Moore J S,Devadoss C. J. Mol.
Struct. ,1999,485 /486: 585—597
[16] Denti G,Campagna S,Serroni S,Ciano M,Balzani V. J. Am.
Chem. Soc. ,1992,114: 2944—2950
[17] Balzani V,Campagna S,Denti G,Juris A,Serroni S,Venturi
M. Acc. Chem. Res. ,1998,31: 26—34
[18] Jiang D L,Aida T. Nature,1997,388: 454—456
[19] Sato H,Jiang D L,Aida T. J. Am. Chem. Soc. ,1999,121:
10658—10659
[20] Masuo S,Yoshikawa H,Asahi T,Masuhara H,Jiang D L,Aida
T. J. Phys. Chem. B,2001,105: 2885—2889
[21] Masuo S,Yoshikawa H,Asahi T,Masuhara H,Jiang D L,Aida
T. J. Phys. Chem. B,2002,106: 905—909
[22] Masuo S,Yoshikawa H,Asahi T,Masuhara H,Jiang D L,Aida
T. J. Phys. Chem. B,2003,107: 2471—2479
[23] Jiang D L,Aida T. J. Am. Chem. Soc. ,1998,120: 10895—
10901
[24] Weil T,Reuther E,Müllen K. Angew. Chem. Int. Ed. ,2002,
41: 1900—1904
[25] Gronheid R,Hofkens J,Khn F,Weil T,Reuther E,Müllen
K,de Schryver F C. J. Am. Chem. Soc. ,2002,124: 2418—
2419
[26] Benites M D,Johnson T E,Weghorn S,Yu L,Rao P D,Dier J
R,Yang S I,Kirmaier C,Bocian D F,Holten D,Lindsey J S.
J. Mater. Chem. ,2002,12: 65—80
[27] Cotlet M,Gronheid R,Habuchi S,Stefan A,Barbafina A,
Müllen K,Hofkens J,de Schryver F C. J. Am. Chem. Soc. ,
2003,125: 13609—13617
[28] Li X Y,Sinks L E,Rybtchinski B,Wasielewski M R. J. Am.
Chem. Soc. ,2004,126: 10810—10811
[29] Weil T,Reuther E,Beer C,Müllen K. Chem. Eur. J. ,2004,
10: 1398—1414
[30] Liu D j, Feyter S D, Cotlet M, Stefan A,Wiesler U M,Herrmann A,Dorthe G K,Qu J Q,Müllen K,Schryver F C D.
Macromolecules,2003,36: 5918—5925
[31] Adronov A,Gilat S L,Fréchet J M J,Ohta K,Neuwahl F V R,
Fleming G R. J. Am. Chem. Soc. ,2000,122: 1175—1185
[32] 陈金平( Chen J P) ,游长江(You C J) ,刘白宁( Liu B N) ,李
嫕( Li Y) . 化学进展( Progress in Chemistry) ,2005,17 (4 ) :
1398—1407
[33] Adronov A,Malenfant P R L,Fréchet J M J. Chem. Mater. ,
2000,12: 1463—1472
[34] Serin J M,Brousmiche D W,Fréchet J M J. Chem. Commun.
2002,2605—2607
[35] Dichtel W R,Hecht S,Fréchet J M J. Org. Lett. ,2005,7:
4451—4454
[36] Choi M S,Aida T,Yamazaki T,Yamazaki I. Angew. Chem.
Int. Ed. ,2001,40: 3194—3198
[37] Jiang D L,Aida T. Prog. Polym. Sci. ,2005,30: 403—422
[38] Li W S,Teng M J,Jia X R,Wang B B,Yeh J M,Wei Y.
Tetrahedron Lett. ,2008,49: 1988—1992
[39] Brousmiche D W,Serin J M,Fréchet J M J. J. Phys. Chem. B,
2004,108: 8592—8600
[40] Dichtel W R,Serin J M,Edder C,Fréchet J M J,Matuszewski
M,Tan L S,Ohulchanskyy T Y,Prasad P N. J. Am. Chem.
Soc. ,2004,126: 5380—5381
[41] Oar M A,Serin J M,Dichtel W R,Fréchet J M J. Chem.
Mater. ,2005,17: 2267—2275
[42] Finikova O S,Lebedev A Y,Aprelev A,Troxler T,Gao F,
Garnacho C,Muro S,Hochstrasser R M, Vinogradov S A.
Chem. Phys. Chem. ,2008,9(12) : 1673—1679
[43] Chen J P,Li S,Zhang L,Liu B N,Han Y,Yang G Q,Li Y.
J. Am. Chem. Soc. ,2005,127: 2165—2171
[44] Chen J P,Li S Y,Zhang L,Li Y Y,Chen J,Yang G Q,Li Y.
J. Phys. Chem. B,2006,110: 4047—4053
[45] Chen J P,Zhang L,Li S Y,Li Y Y,Chen J,Yang G Q,Lia
Y. J. Photochem. Photobiol. A: Chem. ,2007,185: 67—75
[46] Zeng Y,Li Y Y,Li M,Yang G Q,Li Y. J. Am. Chem. Soc. ,
2009,131: 9100—9106
[47] Devadoss C,Bharathi P,Moore J S. J. Am. Chem. Soc. ,
1996,118: 9635—9644
[48] Shortreed M R,Swallen S F,Shi Z Y,Tan W,Xu Z,Devadoss
C,Moore J S,Kopelman R. J. Phys. Chem. B,1997,101:
6318—6322
[49] Bar-Haim A,Klafter J,Kopelman R. J. Am. Chem. Soc. ,
1997,119: 6197—6198
[50] Bar-Haim A,Klafter J. J. Phys. Chem. B,1998,102: 1662—
1664
[51] Flomenboma O,Amir R J,Shabat D,Klafter J. J. Lumin. ,
2005,111: 315—325
[52] Kleiman V D,Melinger J S,McMorrow D. J. Phys. Chem. B,
2001,105: 5595—5598
[53] Ranasinghe M I,Hager M W,Gorman C B,Goodson T. J.
Phys. Chem. B,2004,108: 8543—8549
[54] Benites M,Johnson T E,Weghorn S,Yu L,Rao P D,Dier J
R,Yang S I,Kirmaier C,Bocian D F,Holten D,Lindsey J S.
J. Mater. Chem. ,2002,12: 65—80
[55] Peng Z,Pan Y,Xu B,Zhang J. J. Am. Chem. Soc. ,2000,
122: 6619—6623
[56] Pan Y,Lu M,Peng Z,Melinger J S. J. Org. Chem. ,2003,
68: 6952—6958
[57] Bagui M,Melinger J S,Chakraborty S,Keightley J A,Peng Z
H. Tetrahedron,2009,65: 1247—1256
[58] Akai I,Nakao H,Kanemoto K,Karasawa T,Hashimoto H,
Kimura M. J. Lumin. ,2005,112: 449—453
[59] Akai I,Kato T,Okada A,Kanemoto K,Karasawa T,Kimura
M,Ohashi M,Shinoda S,Tsukube H. Phys. Status Solidi C,
2006,3: 3414—3419
[60] Kodama Y,Ishii S,Ohno K. J. Phys. Condens. Mater. ,2007,
19: art. no. 365242
[61] Akai I,Miyanari K,Shimamoto T,Fujii A,Nakao H,Okada
A,Kanemoto K,Karasawa T,Hashimoto H,Ishida A,Yamada
A,Katayama I,Takeda J,Kimura M. New J. Phys. Physics,
2008,10: 125024—125045
[62] Karabunarliev S,Baumgarten M,Müllen K. J. Phys. Chem. A,
2000,104: 8236—8243
[63] Heijs D J,Malyshev V A,Knoester J. J. Chem. Phys. ,2004,
121: 4884—4892
[64] Kawa M,Fréchet J M J. Chem. Mater. ,1998,10: 286—296
[65] Kawa M,Fréchet J M J. Thin Solid Films,1998,331: 259—
263
[66] Gilat S L,Adronov A,Fréchet J M J. Angew. Chem. Int. Ed. ,
1999,38: 1422—1427
[67] Balzani V,Ceroni P,Gestermann S,Kauffmann C,Gorkab M,
Vogtle F. Chem. Commun. ,2000,853—854
[68] Branchi B,Ceroni P,Balzani V,Bergamini G,Klrner F G,
Vgtle F. Chem. Eur. J. ,2009,15: 7876—7882
[69] Wang S,Hong J W,Bazan G C. Org. Lett. ,2005,7: 1907—
1910
[70] Caminade A M,Padié C,Laurent R,Maraval A,Majoral J P.
Sensors,2006,6: 901—914
[71] Lee C C, MacKay J A, Fréchet J J, Szoka F C. Nat.
Biotechnol. ,2005,23(12) : 1517—1526
[72] Bhawalkar J D,Kumar N D,Prasad P N,Zhao C F. J. Clin.
Laser Med. Surg. ,1997,15: 201—204
[73] Raymond P, Brinas R P, Troxler T, Hochstrasser R M,
Vinogradov S A. J. Am. Chem. Soc. ,2005,127: 11851—
11862
[74] Ternon M, Díaz-Mochón J J, Belsom A, Bradley M.
Tetrahedron,2004,60: 8721—8728
[75] Tung C H,Zhang L P,Li Y,Cao H,Tanimoto Y. J. Am.
Chem. Soc. ,1997,119 (23) : 5348—5354
[76] Lokan N,Paddon-Row M N,Smith T A,Rosa M L,Ghiggino K
P,Speiser S. J. Am. Chem. Soc. ,1999,121 (12 ) : 2917—
2919
[1] Xiaofu Wu, Hui Tong, Lixiang Wang. Fluorescent Polymer Materials for Detection of Explosives [J]. Progress in Chemistry, 2019, 31(11): 1509-1527.
[2] Yao Min, Wang Jiajun, Gu Xueping, Feng Lianfang. Synthesis and Application of Dendrimers Based on Polyhedral Oligomeric Silsesquioxanes [J]. Progress in Chemistry, 2012, 24(0203): 405-413.
[3] Liu Ji, Ma Baode, Yang Nianfa, Fan Jinghua. Soluble Polymer-Supported Homogeneous Catalysts [J]. Progress in Chemistry, 2010, 22(07): 1457-1470.
[4] . Cyclodextrin-Based Highly Branched Polymers [J]. Progress in Chemistry, 2010, 22(04): 669-676.
[5] . Fluorescence Technique in Studies of Amphiphilic Polymer [J]. Progress in Chemistry, 2010, 22(0203): 458-464.
[6] Yang Xinguo Zhang Deng Tang Ruiren. Dendrimers with Porphyrin Core [J]. Progress in Chemistry, 2009, 21(12): 2595-2604.
[7] Zhang Tao1,2 Zheng Zhaohui1 Cheng Xu1 Ding Xiaobin1* Peng Yuxing1*. “Click” Chemistry in Fields of Materials Science [J]. Progress in Chemistry, 2008, 20(0708): 1090-1101.
[8] Zhang Lu,Feng Wei**. Dendritic Conjugated Polymers [J]. Progress in Chemistry, 2007, 19(0203): 337-349.
[9] Qiang Yang1, Li Wang1**, Weidong Xiang2, Chiliang Wang1, Junfeng Zhou1. Stabilization and Its Mechanisms of the Metal Nanoparticles/Polymer Systems [J]. Progress in Chemistry, 2006, 18(0203): 290-297.
[10] Zhao Yaqing,Dong Yanming**,Li Jun,Huang Jianying,Zheng Yinjian,Chen Xiaojun. Liquid Crystal Dendritic Polymers [J]. Progress in Chemistry, 2005, 17(05): 868-875.
[11] Chen Jinping1,You Changjiang1,Liu Baining1,Li Yi1**,Yang Guoqiang2. Advances of Dendrimers in Photochemistry [J]. Progress in Chemistry, 2005, 17(04): 722-731.
[12] Lu Yanbing,Xu Weijian*. Applications of Polymers in Micellar Electrok inetic Chromatography [J]. Progress in Chemistry, 1999, 11(01): 92-.
[13] Wang Mei,He Ren. Inorganic and Organometallic Hyperbranched Polynuclear Complexes [J]. Progress in Chemistry, 1998, 10(04): 405-.