芳基脒离子型超分子及含磷环状化合物的合成与表征
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摘要
有机磷化学的理论和应用研究是现代化学新思想、新技术发展的重要源头之一。依据其理论知识,设计并合成出富含П电子的氮磷类化合物进而制备出相应的超分子材料、成为开发新型实用型功能材料的方向之一。含磷超分子聚合结构及氮磷环状结构类物质的研究是近年来研究较多的一个领域。本课题设计并合成出系列由长程静电力结合而组装的离子型超分子聚合物及含磷环状类化合物,并探索具有特色结构的有机超分子聚合物及环状含磷化合物的合成路线和构效关系。
本论文以不含α-H的腈为起始原料和二(三甲基硅基)胺基锂发生加成反应,再用一氯二苯基磷酰氯与之反应得到相应产物。在实验中得到了系列离子型超分子聚合物及氮磷环状化合物,并利用核磁、单晶X-射线衍射对这些化合物的晶体结构进行表征。同时也合成了几个农药中间体化合物,用核磁、液质联用仪对这几个化合物进行了表征,并得到了其中一个中间体的晶体结构。
第一部分:主要介绍了有机磷化学、超分子聚合物及磷环状有机化合物的发展,总结了近年来有机磷化学及其在应用方面的一些研究成果,并介绍了本课题的研究进展。
第二部分:以苯腈,2-、3-、4-吡啶腈和1,3-间苯二腈这些不含α-H的腈为起始原料,与二(三甲基硅基)胺基锂发生加成反应,然后与一氯二苯基磷酰氯进行取代反应,得到系列氮磷超分子聚合物以及5个含氮磷的新化合物。详细介绍了有机磷环状化合物2b、2d、2h、磷四价化合物2f、以及有机关环化合物2n的合成和表征,并对所合成化合物的荧光性能和紫外性能进行了测定。
第三部分:首先简要介绍了磺酰磺隆、抗蚜威等农药的发展及近况,对磺酰磺隆及抗蚜威的衍生物3b、3d、3h的合成及反应条件创新之处进行了详细介绍,合成产物利用多种方法进行了表征,并报道了其中一个中间体3a的晶体结构。
最后,在总结与展望中,对上述两章内容进行了总结,还展望了所得磷环状有机化合物在未来的应用前景,及生成磷四价化合物的可能方法。
The theory and application research of organophosphorus is one of the important sources of the modern chemistry development. Based on the theory of phosphorus chemical knowledge, the self-assembly polymeric network of amidinium cations and diphenylphosphinate anions could be formed from the oxidative cleavage of N-P compounds. These π-electron-rich phosphorus-nitrogen compounds had been known as the potential precursors for inorganic polymers with unusual properties, and led to considerable interest in their syntheses and coordination chemistry toward transition metals.In this project, a series of charge-assisted supramolecular polymeric compounds and circular organophosphorus compounds were synthesized. The structure-function relationships of these compounds were investigated.
In this paper, the research focused on the interaction of a-hydrogen-free nitriles with LiN(SiMe3)2followed the addition of diphenylphosphinic chloride gave the ionic supramolecular polymeric compounds or circular nitrogen phosphorus products. The molecular structures of these new compounds were characterized by X-ray single diffraction and NMR. In addition to these five novel compounds, some pesticides intermediate compounds were also prepared and characterized by LCQ, NMR. The crystal structure of an intermediate was obtained.
Part1:The development of study and application of the organophosphorus chemistry, charge assisted hydrogen bond supramolecular polymeric chemistry was introduced. The subject and progress of this work was summarized.
Part2:Benzonitrile,2-,3-,4-cyanopyridine and1,3-dicyanobenzene using as a starting material were reacted with LiN(SiMe3)2, followed by diphenylphosphinic chloride, five novel nitrogen phosphorus compounds and five charge assisted hydrogen bond supramolecular polymeric compounds were produced. The synthesis and characterization of circular organophosphorus compounds2b and2d,2h, P4+compound2f and new circular organic compound2n was described. The fluorescence and ultraviolet properites of the compounds was reported.
Part3:The synthesis and characterization of sulfosulfuron and pirimicarb derivatives3b、3d、3h were reported. And one of the intermediate was confirmed by single crystal structure.
Finally, the content of part2and3was summarized. The potential application of circular organophosphorus compounds and the possible synthetic method of P4+compounds were reviewed.
本论文以不含α-H的腈为起始原料和二(三甲基硅基)胺基锂发生加成反应,再用一氯二苯基磷酰氯与之反应得到相应产物。在实验中得到了系列离子型超分子聚合物及氮磷环状化合物,并利用核磁、单晶X-射线衍射对这些化合物的晶体结构进行表征。同时也合成了几个农药中间体化合物,用核磁、液质联用仪对这几个化合物进行了表征,并得到了其中一个中间体的晶体结构。
第一部分:主要介绍了有机磷化学、超分子聚合物及磷环状有机化合物的发展,总结了近年来有机磷化学及其在应用方面的一些研究成果,并介绍了本课题的研究进展。
第二部分:以苯腈,2-、3-、4-吡啶腈和1,3-间苯二腈这些不含α-H的腈为起始原料,与二(三甲基硅基)胺基锂发生加成反应,然后与一氯二苯基磷酰氯进行取代反应,得到系列氮磷超分子聚合物以及5个含氮磷的新化合物。详细介绍了有机磷环状化合物2b、2d、2h、磷四价化合物2f、以及有机关环化合物2n的合成和表征,并对所合成化合物的荧光性能和紫外性能进行了测定。
第三部分:首先简要介绍了磺酰磺隆、抗蚜威等农药的发展及近况,对磺酰磺隆及抗蚜威的衍生物3b、3d、3h的合成及反应条件创新之处进行了详细介绍,合成产物利用多种方法进行了表征,并报道了其中一个中间体3a的晶体结构。
最后,在总结与展望中,对上述两章内容进行了总结,还展望了所得磷环状有机化合物在未来的应用前景,及生成磷四价化合物的可能方法。
The theory and application research of organophosphorus is one of the important sources of the modern chemistry development. Based on the theory of phosphorus chemical knowledge, the self-assembly polymeric network of amidinium cations and diphenylphosphinate anions could be formed from the oxidative cleavage of N-P compounds. These π-electron-rich phosphorus-nitrogen compounds had been known as the potential precursors for inorganic polymers with unusual properties, and led to considerable interest in their syntheses and coordination chemistry toward transition metals.In this project, a series of charge-assisted supramolecular polymeric compounds and circular organophosphorus compounds were synthesized. The structure-function relationships of these compounds were investigated.
In this paper, the research focused on the interaction of a-hydrogen-free nitriles with LiN(SiMe3)2followed the addition of diphenylphosphinic chloride gave the ionic supramolecular polymeric compounds or circular nitrogen phosphorus products. The molecular structures of these new compounds were characterized by X-ray single diffraction and NMR. In addition to these five novel compounds, some pesticides intermediate compounds were also prepared and characterized by LCQ, NMR. The crystal structure of an intermediate was obtained.
Part1:The development of study and application of the organophosphorus chemistry, charge assisted hydrogen bond supramolecular polymeric chemistry was introduced. The subject and progress of this work was summarized.
Part2:Benzonitrile,2-,3-,4-cyanopyridine and1,3-dicyanobenzene using as a starting material were reacted with LiN(SiMe3)2, followed by diphenylphosphinic chloride, five novel nitrogen phosphorus compounds and five charge assisted hydrogen bond supramolecular polymeric compounds were produced. The synthesis and characterization of circular organophosphorus compounds2b and2d,2h, P4+compound2f and new circular organic compound2n was described. The fluorescence and ultraviolet properites of the compounds was reported.
Part3:The synthesis and characterization of sulfosulfuron and pirimicarb derivatives3b、3d、3h were reported. And one of the intermediate was confirmed by single crystal structure.
Finally, the content of part2and3was summarized. The potential application of circular organophosphorus compounds and the possible synthetic method of P4+compounds were reviewed.
引文
[1]A E Apoysob. J. Russ. Phys. Soc, 1906, 38, 687.
[2]A E Apoyeob. Chem. Zentr. Ⅱ, 1906, 1639.
[3]A Michaelis.Ber, 1898,31,1048.
[4]Wittig G Ber, 1954, 87, 1318-1330.
[5]Trippet S. Quart.Rev, 1963,17,406.
[6]Maercher A. Org. Reaction, 1965,14,270.
[7]杨石先,陈天池,李正名等。有机磷杀虫剂的研究Ⅰ[J]。化学学报,1959,25(6),402。
[8]杨石先,陈天池,李正名等。有机磷杀虫剂的研究Ⅱ[J]。化学学报,1962,28(3),187-190。
[9]F H Westheimer. ibid, 1968,1,70.
[10]R S Berry. J. Chem. Phys,1960, 32, 933.
[11]G Sosnorsky. Macmillan Company. New York, 1969.
[12]J Emsley. Haper and Row. Ltdlondon. 1976.
[13]陈茹玉。有机磷化学研究[J]。自然科学进展。1995,5,42-46。
[14]Wei-Hua Zhou, Yu-Fen Zhao. Simultaneous Formation of Peptides and Nucleotides From N-Phosphothreonine. Origin of life and Evolution of the Bioshere,1996,26, 547-560.
[15]Ning Zhou, Yu-Fen Zhao. Electrospray Ionization Mass Spectrometric Studies of Phosphorus Oxychloride Directed Synthesis of Homo-Oligopeptide Ester Libraries. Rapid Commun. Mass Spectrom,2002,16,912-919
[16]Hua Fu, Yu-Fen Zhao. Oligomerization of N,O-Bis(Trimethylsilyl) -α-Amino Acids into Peptides Mediated by O-Phenylene Phosphorochloridate. J. Am. Chem. Soc, 1999,121,291-295
[17]赵玉芬。第17届国际磷化学大会会议记录[J]。国际学术动态。2008,1,53-54。
[18]C Fest. Springer-Verlag. 1973.
[19]Thomas H. Pestic. Biochem. Physiol. 1999,63,114.
[20]L ACates. J. Pharm.Sci. 1974,63,1480.
[21]魏存发。循环冷却水缓蚀阻垢剂的现状及发展[J]。石化技术与应用,2000,18(5), 302-304。
[22]李凡修。共聚物类阻垢剂的研制进展[J]。工业水处理,2000,20(3),7-10。
[23]Abdel-Aal N. Journal of Crystal Growth. 2003,256(3), 188-200.
[24]王晨。低磷共聚物循环冷却水处理剂的合成及性能[J]。工业水处理,2006,26(4),37-40。
[25]雷玲。低磷高效水处理剂研究进展[J]。化工时刊,2004,18(12),22-24。
[26]刘玉林。低磷环保水处理剂研究进展[J]。河南化工,2011,28,42-43。
[27]Edgar Haenseler, Angelika Esswein. Activation of methotrexate-.alpha.-alanine by carboxypeptidase A monoclonal antibody conjugate[J]. Biochemistry, 1992, 31 (3), 891-897
[28]M S Marma, Synthesis and Biological Evaluation of a-Halogenated Bisphosphonate and Phosphonocarboxylate Analogues of Risedronate[J]. J. Med. Chem, 2007, 50 (24),5967-5975
[29]Andrea M. Hounslow, John Carran. Determination of the Microscopic Equilibrium Dissociation Constants for Risedronate[J]. J. Med. Chem, 2008,51 (14),4170-4178.
[30]Marie R. Webster. Bisphosphonamidate Clodronate Prodrug Exhibits Potent Anticancer Activity in Non-Small-Cell Lung Cancer Cells[J]. J. Med. Chem, 2011,54 (19),6647-6656
[31]Marko Ahlmark. Bisphosphonate Prodrugs:Synthesis and in Vitro Evaluation of Novel Clodronic Acid Dianhydrides as Bioreversible Prodrugs of Clodronate[J]. J. Med. Chem,1999,42 (8),1473-1476
[32]贺红武。具有生物活性有机磷化合物的研究热点[J]。国际学术动态。1998,1,49-55。
[33]钱立军。当期磷系阻燃剂的研究与发展现状[J]。中国期刊网,2011,1,14-17。
[34]马承银,杨翠纯。磷系阻燃剂的发展动向[J]。现代塑料加工应用,2001,13(2),38-41。
[35]Xiao J. Proceeding of 15th International Conference on Phosphorus Chemistry. 2001, C25
[36]Roubi A M. C&EN.2001,23,33.
[37]zhang Y H. Proceeding of 15th International Conference on Phosphorus Chemistry. 2001,PB086.
[38]Lehn J M. Supramolecular Polymers[M], Marcel Dekker, New York, 2000, 615-641.
[39]K L Wolf. Z phy Chen Abt,1937, B36, 17.
[41]麦松威,周公度。高等无机结构化学[M],北京大学出版社2006,619.
[41]洪茂椿,陈荣。21世纪的无机化学[M],科学出版社,2005.2
[42]J. M. Lehn. Supramolecular chemistry. New York, VCH, 1995.
[43]Faul C F, Antonietti M. Ionic self-assembly [J]. Adv Mater, 2003,15,673-683.
[44]J. M. Lehn. Angew. Chem. Int. Ed, 1988,27:89
[45]张穗娟,李琼芳。关于超分子化学[J]。广东化工,2004,6,36-39。
[46]Lehn J M,超分子化学(沈兴海等译)[M]。北京大学出版社,2002,5-10。
[47]Gohy J, F Prog. Polym. Sci. 2001,26(7),1061-1099.
[48]张驰,窦萌。分子间相互作用与分子识别[J]。北京大学化学与分子工程学院,2008.1-21
[49]张希,沈家骢。超分子科学[J]。科学通报,2003,48(14),1477-1478
[50]沈家骢,孙俊奇。中国科学院院刊,2004,19(6),420-424。
[51]Jacobs H O. Fabrication display by patterned assembly[J]. Science, 2002,296(12), 323-325.
[52]Desiraju G R. Supramolecular synthons in crystal engineering [J]. Angew Chem Int Ed Engl,1995,34,2311-2327.
[53]尚东林。含磷亚胺化合物的合成及结构表征[M]。山西大学,2007。
[54]Vogtle F,张希译。超分子化学[M]。吉林大学出版社,1995,1-5
[55]周成飞等。超分子材料的发展[J]。化工新型材料,2001,29(10),30-32。
[56]Wagner R W. Soluble Synthetic Multiporphyr Modular design and Synthesis[J]. J Am ChemSoc,1996,118(45),11166-11180。
[57]崔英敏。超分子液晶[J]。现代物理知识,2007,1(19),32-35。
[58]刘景旺。掺铈钒酸钇荧光粉的合成及其光谱特性的研究[M]。天津大学。2007。
[59]金茂竹。金彩色有机发光有源驱动技术的研究[M]。华中科技大学。2005,1-12。
[60]Young-Min Jeon, Myoung-Seon Gong. Orange Phosphorescent Organic Light-emitting Diodes Using a Spirobenzofluorene-typ Phospine Oxides as Host Materials. Bull. Korean Chem. Soc,2010,31(10),2995-2960.
[61]沈家骢。超分子仿生材料[J]。科学中国人,2004,4,29-32。
[62]Ruhe J. Supramolecular Polymers[J]. Ciferri A, Ed. Marcel Dekker,2000,565 - 613
[63]Brunsveld L. Supramolecular polymers[J]. MRS Bulletin, 2000, 25,49-53.
[64]Archer R D. Coordination chemistry [J]. Coord Chem Rev, 1993,128(1-2),49-68.
[65]Wang C. An Enzyme-Responsive Polymeric Superamphiphile[J]. Angew Chem Int Ed,2010,49,8612-8615.
[66]Xu T. JAm Chem Soc,2011,5 (2),1376-1384.
[67]康永,王超。脒类化合物合成方法的研究进展[J]。2010,14(5),9-12。
[68]吴晶。氧磷类超分子化合物的合成及性质研究[M]。山西大学,2009。
[69]Ogonor J. Tetrahedron, 1981,37(16),2909.
[70]Patai S, The Chemistry of amidines[M]. New York, 1999.
[71]Xavier Crear. Reactions of Halodiazirines by SN2'and Electron Transfer Initiated Processes[J]. Ace Chem Res,1992,25,31-38.
[72]G Alcaraz. Mechanism of the Exchange Reaction of Halodiazirines with Nucleophiles Revisited[J]. J.Am. Chem.Soc, 1996,118,1060-1065.
[73]孙玉玲,孙瑾。非线性光学材料研究现状与应用前景[J]。化工科技,2011,19(5),51-54。
[74]C Rotter. Structural and NMR Spectroscopic Investigations of Chair and Twist Conformers of the P2Se82-Anion[J]. Inorg.Chem, 2008,47, 1663-1673.
[75]C Rotter, M Schuster. An Unusual Binary Phosphorus-Tellurium Anion and Its Seleno- and Thio-Analogues[J]. Inorg.Chem,2009,48,7531-7533.
[76]C Rotter, M Schuster. New Salts of the Waters table P2Se64- Anion[J]. Inorg.Chem, 2010,49,3937-3941.
[77]M Delheusy. Structure of liquid Te-based alloys used in rewritable DVD[J]. Physica B,2004,350,e1055-e1057.
[78]A V Kolobov. Understanding the phase-change mechanism of rewritable optical media[J]. nature materials,2004,3,703-708.
[79]I Chung. A Phosphorus-Rich Square-Ring Selenophosphate[J]. Inorg.Chem, 2010, 49(7),3092-3094.
[1]B L Small, M Brookhart. J Am Chem Soc,1998,120,4049-4050.
[2]Guo J P, Wong W K. The Template Effect of Palladium(II)[J]. Eur. J. Inorg. Chem., 2006,3634-3640.
[3]李婧,陈学太。聚合物的合成晶体结构[J]。无机化学学报,2004,20(7),841-844。
[4]P. S. Lemport, E. I. Goryunov. 2-(N-Phosphorylamino)-Substituted 1,8- naphthyridines. Synthesis and structure[J]. Russ.Chem.Bull., Int.Ed, 2009,58(7), 1445-1451.
[5]Young-Min Jeon, Myoung-Seon Gong. Bull. Korean Chem. Soc.2010, 31(10), 2995-2960.
[6]Carlos A D Sousa, M Lusa C Vale. Phosphorylation of 2-azabicyclo [2,2,1] hept-5-ene and 2-hydroxy-2-azabicyclo[2,2,1]hept-5-enesystems:synthesis and mechanistic study[J]. New J. Chem,2010,34,2546-2551.
[7]Alpar Pollnitz, Anca Silvestru. New Organophosphorus Proligands and Amide Precursors[J]. Phosphorus, Sulfur, and Silicon.2010, 185, 910-919.
[8]S MUNOZ, J PONS. Cleavage of NpzCH2-OP and unexpected formation of bis(3,5-dimethyl-lH-pyrazol-1-yl)methane(dmbpm) [J]. Journal of Coordination Chemistry, 2009, 62(24),3940-3950.
[9]韩俊萍。芳基脒超分子和含磷亚胺化合物的合成及表征[M]。2011,19-40。
[10]闫俊芳。氮杂β-二亚胺和次磷酸类配合物的合成及结构表征[M]。2011,20-33。
[11]D R Armstrong, K M MacGregor, R E Mulvey, W. Clegg, J. Organomet. Chem. 1995, 486,79-93.
[12]T Chivers, A Meetsma. Preparation of 1,1,5,5-Tetraphenyl-3,7-diaryl-1,5-diphosphatetrazocines and1,1,3,3,5-Pentaphenyldiphosphatriazine and the X-ray Structure of 1,5-Ph4P2N4C2(C6H4CH3-4)2. Inorg. Chem,1991,30,3402-3407.
[13]E Rivard, I Manners. Synthesis of Linear and Cyclic Carbophosphazenes via an Oxidative Chlorination Strategy. Inorg. Chem.2004,43,802-811.
[14]C Rotter. Inorg.Chem,2008,47,1663-1673.
[15]C Rotter, M Schuster. Inorg.Chem, 2009,48,7531-7533.
[16]C Rotter, M Schuster. Inorg.Chem,2010,49,3937-3941.
[17]I Chung. Inorg.Chem,2010, 49(7),3092-3094.
[18]G Alcaraz, G Bertrand. Mechanism of the Exchange Reaction of Halodiazirines with Nucleophiles Revisited[J]. J.Am.Chem.Soc, 1996,118,1060-1065.
[19]Dailey W P. Tetrahedron. Lett, 1987, 28, 5801.
[20]Dailey W P, Bainbridge K E. Tetrahedron. Lett, 1989,30,4901.
[21]Sky A F, Creary X. J.Am.Chem.Soc,1990, 112,368.
[22]Xun-Jin Zhu, Wai-Kwok Wong, Jian-Ping Guo. A Near-Infrared-Fluorescent Chemodosimeter for Mercuric Ion Based on an Expanded Porphyrin. Angew. Chem. Int. Ed. 2006,45,3150-315.
[23]Yun Zhao, Wei Guo. Rhodamine-based chemosensor for Hg2+ in aqueous solution with a broad pH range and its application in live cell imaging. Org. Biomol. Chem, 2010,8,4143-4147.
[24]M Delheusy. Physica B, 2004, 350, e1055-e11057.
[25]A V Kolobov. nature materials,2004,3,703-708.
[26]O brien D F, Thompson M E. Appl. Phys. Lett, 1999, 74, 442..
[27]D Andrade B W, Forrest S R. Appl. Phys. Lett, 2003,83,3858.
[28]Padmaperuma A B, Burrows P E. Chem. Mater. 2006, 18, 2389.
[29]Ha M Y, Moon D G. Appl. Phys. Lett. 2008,93,043306.
[1]Z. Sun, H. Wang. Solvent-Free or Low-Solvent Large-Scale Preparation of Chloropyrimidine and Analogues. J.Org.Chem, 2011,76,4149-4153.
[2]孔繁蕾,周月根。磺酰磺隆的制备方法。发明专利,CN 101362755A,2009。
[3]B. Karimi. Selective Oxidation of Sulfides to Sulfoxides Using 30% Hydrogen Peroxide Catalyzed with a Recoverable Silica-Based Tungstate Interphase Catalyst[J]. ORGANIC LETTERS, 2005, Vol.7, No.4,625-628.
[4]B. D. Maxwell, O. G. Boye. The 14C, 13Cand15N syntheses of MON 37500, a sulfonylurea wheat herbicide[J]. J Label Compd Radiopharm,2005,48,397-406.
[5]S. J. Connon,A. F. Hegarty. Stabilised 2,3-Pyridyne Reactive Intermediates of Exceptional Dienophilicity. EurJ.Org.Chem,2004,10, 34773-483.
[6]O. Sugimoto, M. Mori. Application of Phosphonium Salts to the Reactions of Various Kinds of Amides. Helvetica Chimica Acta. 2001,84,1112-1118.
[7]C. Legault,A. B. Charett. Highly Efficient Synthesis of O-(2,4-Dinitrophenyl) hydroxylamine. J.Org.Chem, 2003,68,7119-7122.
[8]H. Firouzabadi and M. Abbasi, Oxidation by Manganese Dioside (MnO2) Catalysed With Hiso&Ilica Gel[J]. SYNTHETIC COMMUNICATIONS,1999,29(9), 1485-1491.
[9]V. G. Nenajdenko, P. V. Vertelezkij. Oxidative Properties of Triflic Anhydride Oxidation of Alcohols and Sulfides. J.Org.Chem,1997,62,2483-2486.
[10]吴军,林学圃,金磊。2-二甲氨基-5,6-二甲基-4-羟基嘧啶的合成研究。,农药,1997,36(1),14-15。
[11]吴军,林学圃,金磊。2-甲基乙酰乙酸乙酯的合成研究。浙江化工,1996,27(2),34-36。
[12]C. Gabbi, F. Ghelti. The Preparation of (3-Hydroxysulfoxides. SYNTHETIC COMMUNICATIONS,1997,27(16),2857-2863.
[13]Parrish SK. WO 9619110,1996.
[14]Itoh S,Ohta K. Japanese Patent, 08073459, 1996.
[15]Y. Ishida, K. Ohta. Synthesis of Novel Herbicidal Sulfonylurea Compounds with Imidazo[1, 2-a]pyridine Moiety. Pesticide Sci, 1993,18,175-162.
[16]Ishida, yasuo. Herbicide. Patent, EP 0477808A1,1991.
[17]J. S. Bilfinger. United states Patent, 4472409, 1984.
[18]B. D. Cavell, Kinetic and Energetic Aspects of the Photodimerisation of Some Systemic Pyrimidine Fungicides. J.C.S. Perkin, 1977, 2,216-221.
[2]A E Apoyeob. Chem. Zentr. Ⅱ, 1906, 1639.
[3]A Michaelis.Ber, 1898,31,1048.
[4]Wittig G Ber, 1954, 87, 1318-1330.
[5]Trippet S. Quart.Rev, 1963,17,406.
[6]Maercher A. Org. Reaction, 1965,14,270.
[7]杨石先,陈天池,李正名等。有机磷杀虫剂的研究Ⅰ[J]。化学学报,1959,25(6),402。
[8]杨石先,陈天池,李正名等。有机磷杀虫剂的研究Ⅱ[J]。化学学报,1962,28(3),187-190。
[9]F H Westheimer. ibid, 1968,1,70.
[10]R S Berry. J. Chem. Phys,1960, 32, 933.
[11]G Sosnorsky. Macmillan Company. New York, 1969.
[12]J Emsley. Haper and Row. Ltdlondon. 1976.
[13]陈茹玉。有机磷化学研究[J]。自然科学进展。1995,5,42-46。
[14]Wei-Hua Zhou, Yu-Fen Zhao. Simultaneous Formation of Peptides and Nucleotides From N-Phosphothreonine. Origin of life and Evolution of the Bioshere,1996,26, 547-560.
[15]Ning Zhou, Yu-Fen Zhao. Electrospray Ionization Mass Spectrometric Studies of Phosphorus Oxychloride Directed Synthesis of Homo-Oligopeptide Ester Libraries. Rapid Commun. Mass Spectrom,2002,16,912-919
[16]Hua Fu, Yu-Fen Zhao. Oligomerization of N,O-Bis(Trimethylsilyl) -α-Amino Acids into Peptides Mediated by O-Phenylene Phosphorochloridate. J. Am. Chem. Soc, 1999,121,291-295
[17]赵玉芬。第17届国际磷化学大会会议记录[J]。国际学术动态。2008,1,53-54。
[18]C Fest. Springer-Verlag. 1973.
[19]Thomas H. Pestic. Biochem. Physiol. 1999,63,114.
[20]L ACates. J. Pharm.Sci. 1974,63,1480.
[21]魏存发。循环冷却水缓蚀阻垢剂的现状及发展[J]。石化技术与应用,2000,18(5), 302-304。
[22]李凡修。共聚物类阻垢剂的研制进展[J]。工业水处理,2000,20(3),7-10。
[23]Abdel-Aal N. Journal of Crystal Growth. 2003,256(3), 188-200.
[24]王晨。低磷共聚物循环冷却水处理剂的合成及性能[J]。工业水处理,2006,26(4),37-40。
[25]雷玲。低磷高效水处理剂研究进展[J]。化工时刊,2004,18(12),22-24。
[26]刘玉林。低磷环保水处理剂研究进展[J]。河南化工,2011,28,42-43。
[27]Edgar Haenseler, Angelika Esswein. Activation of methotrexate-.alpha.-alanine by carboxypeptidase A monoclonal antibody conjugate[J]. Biochemistry, 1992, 31 (3), 891-897
[28]M S Marma, Synthesis and Biological Evaluation of a-Halogenated Bisphosphonate and Phosphonocarboxylate Analogues of Risedronate[J]. J. Med. Chem, 2007, 50 (24),5967-5975
[29]Andrea M. Hounslow, John Carran. Determination of the Microscopic Equilibrium Dissociation Constants for Risedronate[J]. J. Med. Chem, 2008,51 (14),4170-4178.
[30]Marie R. Webster. Bisphosphonamidate Clodronate Prodrug Exhibits Potent Anticancer Activity in Non-Small-Cell Lung Cancer Cells[J]. J. Med. Chem, 2011,54 (19),6647-6656
[31]Marko Ahlmark. Bisphosphonate Prodrugs:Synthesis and in Vitro Evaluation of Novel Clodronic Acid Dianhydrides as Bioreversible Prodrugs of Clodronate[J]. J. Med. Chem,1999,42 (8),1473-1476
[32]贺红武。具有生物活性有机磷化合物的研究热点[J]。国际学术动态。1998,1,49-55。
[33]钱立军。当期磷系阻燃剂的研究与发展现状[J]。中国期刊网,2011,1,14-17。
[34]马承银,杨翠纯。磷系阻燃剂的发展动向[J]。现代塑料加工应用,2001,13(2),38-41。
[35]Xiao J. Proceeding of 15th International Conference on Phosphorus Chemistry. 2001, C25
[36]Roubi A M. C&EN.2001,23,33.
[37]zhang Y H. Proceeding of 15th International Conference on Phosphorus Chemistry. 2001,PB086.
[38]Lehn J M. Supramolecular Polymers[M], Marcel Dekker, New York, 2000, 615-641.
[39]K L Wolf. Z phy Chen Abt,1937, B36, 17.
[41]麦松威,周公度。高等无机结构化学[M],北京大学出版社2006,619.
[41]洪茂椿,陈荣。21世纪的无机化学[M],科学出版社,2005.2
[42]J. M. Lehn. Supramolecular chemistry. New York, VCH, 1995.
[43]Faul C F, Antonietti M. Ionic self-assembly [J]. Adv Mater, 2003,15,673-683.
[44]J. M. Lehn. Angew. Chem. Int. Ed, 1988,27:89
[45]张穗娟,李琼芳。关于超分子化学[J]。广东化工,2004,6,36-39。
[46]Lehn J M,超分子化学(沈兴海等译)[M]。北京大学出版社,2002,5-10。
[47]Gohy J, F Prog. Polym. Sci. 2001,26(7),1061-1099.
[48]张驰,窦萌。分子间相互作用与分子识别[J]。北京大学化学与分子工程学院,2008.1-21
[49]张希,沈家骢。超分子科学[J]。科学通报,2003,48(14),1477-1478
[50]沈家骢,孙俊奇。中国科学院院刊,2004,19(6),420-424。
[51]Jacobs H O. Fabrication display by patterned assembly[J]. Science, 2002,296(12), 323-325.
[52]Desiraju G R. Supramolecular synthons in crystal engineering [J]. Angew Chem Int Ed Engl,1995,34,2311-2327.
[53]尚东林。含磷亚胺化合物的合成及结构表征[M]。山西大学,2007。
[54]Vogtle F,张希译。超分子化学[M]。吉林大学出版社,1995,1-5
[55]周成飞等。超分子材料的发展[J]。化工新型材料,2001,29(10),30-32。
[56]Wagner R W. Soluble Synthetic Multiporphyr Modular design and Synthesis[J]. J Am ChemSoc,1996,118(45),11166-11180。
[57]崔英敏。超分子液晶[J]。现代物理知识,2007,1(19),32-35。
[58]刘景旺。掺铈钒酸钇荧光粉的合成及其光谱特性的研究[M]。天津大学。2007。
[59]金茂竹。金彩色有机发光有源驱动技术的研究[M]。华中科技大学。2005,1-12。
[60]Young-Min Jeon, Myoung-Seon Gong. Orange Phosphorescent Organic Light-emitting Diodes Using a Spirobenzofluorene-typ Phospine Oxides as Host Materials. Bull. Korean Chem. Soc,2010,31(10),2995-2960.
[61]沈家骢。超分子仿生材料[J]。科学中国人,2004,4,29-32。
[62]Ruhe J. Supramolecular Polymers[J]. Ciferri A, Ed. Marcel Dekker,2000,565 - 613
[63]Brunsveld L. Supramolecular polymers[J]. MRS Bulletin, 2000, 25,49-53.
[64]Archer R D. Coordination chemistry [J]. Coord Chem Rev, 1993,128(1-2),49-68.
[65]Wang C. An Enzyme-Responsive Polymeric Superamphiphile[J]. Angew Chem Int Ed,2010,49,8612-8615.
[66]Xu T. JAm Chem Soc,2011,5 (2),1376-1384.
[67]康永,王超。脒类化合物合成方法的研究进展[J]。2010,14(5),9-12。
[68]吴晶。氧磷类超分子化合物的合成及性质研究[M]。山西大学,2009。
[69]Ogonor J. Tetrahedron, 1981,37(16),2909.
[70]Patai S, The Chemistry of amidines[M]. New York, 1999.
[71]Xavier Crear. Reactions of Halodiazirines by SN2'and Electron Transfer Initiated Processes[J]. Ace Chem Res,1992,25,31-38.
[72]G Alcaraz. Mechanism of the Exchange Reaction of Halodiazirines with Nucleophiles Revisited[J]. J.Am. Chem.Soc, 1996,118,1060-1065.
[73]孙玉玲,孙瑾。非线性光学材料研究现状与应用前景[J]。化工科技,2011,19(5),51-54。
[74]C Rotter. Structural and NMR Spectroscopic Investigations of Chair and Twist Conformers of the P2Se82-Anion[J]. Inorg.Chem, 2008,47, 1663-1673.
[75]C Rotter, M Schuster. An Unusual Binary Phosphorus-Tellurium Anion and Its Seleno- and Thio-Analogues[J]. Inorg.Chem,2009,48,7531-7533.
[76]C Rotter, M Schuster. New Salts of the Waters table P2Se64- Anion[J]. Inorg.Chem, 2010,49,3937-3941.
[77]M Delheusy. Structure of liquid Te-based alloys used in rewritable DVD[J]. Physica B,2004,350,e1055-e1057.
[78]A V Kolobov. Understanding the phase-change mechanism of rewritable optical media[J]. nature materials,2004,3,703-708.
[79]I Chung. A Phosphorus-Rich Square-Ring Selenophosphate[J]. Inorg.Chem, 2010, 49(7),3092-3094.
[1]B L Small, M Brookhart. J Am Chem Soc,1998,120,4049-4050.
[2]Guo J P, Wong W K. The Template Effect of Palladium(II)[J]. Eur. J. Inorg. Chem., 2006,3634-3640.
[3]李婧,陈学太。聚合物的合成晶体结构[J]。无机化学学报,2004,20(7),841-844。
[4]P. S. Lemport, E. I. Goryunov. 2-(N-Phosphorylamino)-Substituted 1,8- naphthyridines. Synthesis and structure[J]. Russ.Chem.Bull., Int.Ed, 2009,58(7), 1445-1451.
[5]Young-Min Jeon, Myoung-Seon Gong. Bull. Korean Chem. Soc.2010, 31(10), 2995-2960.
[6]Carlos A D Sousa, M Lusa C Vale. Phosphorylation of 2-azabicyclo [2,2,1] hept-5-ene and 2-hydroxy-2-azabicyclo[2,2,1]hept-5-enesystems:synthesis and mechanistic study[J]. New J. Chem,2010,34,2546-2551.
[7]Alpar Pollnitz, Anca Silvestru. New Organophosphorus Proligands and Amide Precursors[J]. Phosphorus, Sulfur, and Silicon.2010, 185, 910-919.
[8]S MUNOZ, J PONS. Cleavage of NpzCH2-OP and unexpected formation of bis(3,5-dimethyl-lH-pyrazol-1-yl)methane(dmbpm) [J]. Journal of Coordination Chemistry, 2009, 62(24),3940-3950.
[9]韩俊萍。芳基脒超分子和含磷亚胺化合物的合成及表征[M]。2011,19-40。
[10]闫俊芳。氮杂β-二亚胺和次磷酸类配合物的合成及结构表征[M]。2011,20-33。
[11]D R Armstrong, K M MacGregor, R E Mulvey, W. Clegg, J. Organomet. Chem. 1995, 486,79-93.
[12]T Chivers, A Meetsma. Preparation of 1,1,5,5-Tetraphenyl-3,7-diaryl-1,5-diphosphatetrazocines and1,1,3,3,5-Pentaphenyldiphosphatriazine and the X-ray Structure of 1,5-Ph4P2N4C2(C6H4CH3-4)2. Inorg. Chem,1991,30,3402-3407.
[13]E Rivard, I Manners. Synthesis of Linear and Cyclic Carbophosphazenes via an Oxidative Chlorination Strategy. Inorg. Chem.2004,43,802-811.
[14]C Rotter. Inorg.Chem,2008,47,1663-1673.
[15]C Rotter, M Schuster. Inorg.Chem, 2009,48,7531-7533.
[16]C Rotter, M Schuster. Inorg.Chem,2010,49,3937-3941.
[17]I Chung. Inorg.Chem,2010, 49(7),3092-3094.
[18]G Alcaraz, G Bertrand. Mechanism of the Exchange Reaction of Halodiazirines with Nucleophiles Revisited[J]. J.Am.Chem.Soc, 1996,118,1060-1065.
[19]Dailey W P. Tetrahedron. Lett, 1987, 28, 5801.
[20]Dailey W P, Bainbridge K E. Tetrahedron. Lett, 1989,30,4901.
[21]Sky A F, Creary X. J.Am.Chem.Soc,1990, 112,368.
[22]Xun-Jin Zhu, Wai-Kwok Wong, Jian-Ping Guo. A Near-Infrared-Fluorescent Chemodosimeter for Mercuric Ion Based on an Expanded Porphyrin. Angew. Chem. Int. Ed. 2006,45,3150-315.
[23]Yun Zhao, Wei Guo. Rhodamine-based chemosensor for Hg2+ in aqueous solution with a broad pH range and its application in live cell imaging. Org. Biomol. Chem, 2010,8,4143-4147.
[24]M Delheusy. Physica B, 2004, 350, e1055-e11057.
[25]A V Kolobov. nature materials,2004,3,703-708.
[26]O brien D F, Thompson M E. Appl. Phys. Lett, 1999, 74, 442..
[27]D Andrade B W, Forrest S R. Appl. Phys. Lett, 2003,83,3858.
[28]Padmaperuma A B, Burrows P E. Chem. Mater. 2006, 18, 2389.
[29]Ha M Y, Moon D G. Appl. Phys. Lett. 2008,93,043306.
[1]Z. Sun, H. Wang. Solvent-Free or Low-Solvent Large-Scale Preparation of Chloropyrimidine and Analogues. J.Org.Chem, 2011,76,4149-4153.
[2]孔繁蕾,周月根。磺酰磺隆的制备方法。发明专利,CN 101362755A,2009。
[3]B. Karimi. Selective Oxidation of Sulfides to Sulfoxides Using 30% Hydrogen Peroxide Catalyzed with a Recoverable Silica-Based Tungstate Interphase Catalyst[J]. ORGANIC LETTERS, 2005, Vol.7, No.4,625-628.
[4]B. D. Maxwell, O. G. Boye. The 14C, 13Cand15N syntheses of MON 37500, a sulfonylurea wheat herbicide[J]. J Label Compd Radiopharm,2005,48,397-406.
[5]S. J. Connon,A. F. Hegarty. Stabilised 2,3-Pyridyne Reactive Intermediates of Exceptional Dienophilicity. EurJ.Org.Chem,2004,10, 34773-483.
[6]O. Sugimoto, M. Mori. Application of Phosphonium Salts to the Reactions of Various Kinds of Amides. Helvetica Chimica Acta. 2001,84,1112-1118.
[7]C. Legault,A. B. Charett. Highly Efficient Synthesis of O-(2,4-Dinitrophenyl) hydroxylamine. J.Org.Chem, 2003,68,7119-7122.
[8]H. Firouzabadi and M. Abbasi, Oxidation by Manganese Dioside (MnO2) Catalysed With Hiso&Ilica Gel[J]. SYNTHETIC COMMUNICATIONS,1999,29(9), 1485-1491.
[9]V. G. Nenajdenko, P. V. Vertelezkij. Oxidative Properties of Triflic Anhydride Oxidation of Alcohols and Sulfides. J.Org.Chem,1997,62,2483-2486.
[10]吴军,林学圃,金磊。2-二甲氨基-5,6-二甲基-4-羟基嘧啶的合成研究。,农药,1997,36(1),14-15。
[11]吴军,林学圃,金磊。2-甲基乙酰乙酸乙酯的合成研究。浙江化工,1996,27(2),34-36。
[12]C. Gabbi, F. Ghelti. The Preparation of (3-Hydroxysulfoxides. SYNTHETIC COMMUNICATIONS,1997,27(16),2857-2863.
[13]Parrish SK. WO 9619110,1996.
[14]Itoh S,Ohta K. Japanese Patent, 08073459, 1996.
[15]Y. Ishida, K. Ohta. Synthesis of Novel Herbicidal Sulfonylurea Compounds with Imidazo[1, 2-a]pyridine Moiety. Pesticide Sci, 1993,18,175-162.
[16]Ishida, yasuo. Herbicide. Patent, EP 0477808A1,1991.
[17]J. S. Bilfinger. United states Patent, 4472409, 1984.
[18]B. D. Cavell, Kinetic and Energetic Aspects of the Photodimerisation of Some Systemic Pyrimidine Fungicides. J.C.S. Perkin, 1977, 2,216-221.