References
- Varma , R.S. 2001 . Solvent-free accelerated organic syntheses using microwaves . Pure Appl. Chem. , 73 ( 1 ) : 193 – 198 .
- Loupy , A. , Perreux , L. , Liagre , M. , Burle , K. and Moneuse , M. 2001 . Reactivity and selectivity under microwaves in organic chemistry. Relation with medium effects and reaction mechanisms . Pure Appl. Chem. , 73 ( 1 ) : 161 – 166 .
- Price , P.M. , Clark , J.H. and Macquarries , D.J. 2000 . Modified silicas for clean technology . J. Chem. Soc. Dalton Trans , : 101 – 110 .
- Clark , J.H. 2001 . Catalysis for green chemistry . Pure Appl. Chem. , 73 ( 1 ) : 103 – 111 .
- Poulsen , L.L. and Ziegler , D.M. 1995 . Multisubstrate flavin-containing monooxygenases: applications of mechanism to specificity . Chemico-Biological Interactions , 96 ( 1 ) : 57 – 73 .
- Cowden , W.B. , Halladay , P.K. , Cunningham , R.B. , Hunt , N.H. and Clark , I.A. 1991 . Flavins as potential antimalarials. 2,3-methyl-10-(substitutedphenyl)flavins . J. Med. Chem. , 34 ( 6 ) : 1818 – 1822 .
- Awasthi , A. , Chaudhary , S. and Chauhan , S.M.S. 1999 . Vesicle formation by amphiphilic 10-alkyl-3-methyl isoalloxazines in aqueous medium . Ind. J. Biochem. Biophy. , 36 ( 2 ) : 118 – 124 .
- Hasford , J.J. and Rizzo , C.J. 1998 . Linear free energy substituent effect on flavin redox chemistry . J. Am. Chem. Soc. , 120 ( 10 ) : 2251 – 2255 .
- Tabushi , I. and Hamachi , I. 1986 . First member of artificial flavolipid family, its synthesis and incorporation into artificial liposomes . Tetrahedron Lett. , 27 ( 44 ) : 5401 – 5404 .
- Villemin , D. and Martin , B. 1995 . Synthesis of quinoxalines under focussed microwave irradiation . Synthetic Commun. , 25 ( 15 ) : 2319 – 2326 .
- Hofmann , U. 1968 . On the chemistry of clay . Angew. Chem. Int. Ed. Engl. , 7 ( 9 ) : 681 – 692 .
- Posner , G.H. 1978 . Organic reactions at alumina surfaces . Angew. Chem. Int. Ed. Engl. , 17 ( 7 ) : 487 – 496 .
- Strauss , C.R. 1999 . A combinatorial approach to the development of environmentally benign organic chemical preparations . Australian J. Chem. , 52 ( 1 ) : 83 – 96 .
- Chauhan , S.M.S. and Geetanjali; Singh , R. 2000 . A mild and efficient synthesis of 10-substituted isoalloxazines in the presence of solid acids . Ind. J. Heterocycl. Chem. , 10 ( 2 ) : 157 – 158 .
- Yoneda , F. , Sakuma , Y. , Ichiba , M. and Shinomura , K. 1976 . Synthesis of isoalloxazines and isoalloxazines 5-oxides: A new synthesis of riboflavin . J. Am. Chem. Soc. , 98 ( 3 ) : 830 – 835 .
- Shinkai , S. , Harada , A. , Ishikawa , Y. and Manabe , O. 1982 . Coenzyme models. Part 29, On the unusual spectroscopic behaviour of 10-dodecyl-3-methylisoalloxazine (amphiphilic flavin analogue) in aqueous solution . J. Chem. Soc. Perkin Trans II , : 125 – 133 .
- Li , W-S. , Zhang , N. and Sayre , L.M. 2001 . Nl,N10-Ethylene-bridged high potential flavins: Synthesis, characterization and reactivity . Tetrahedron , 57 ( 21 ) : 4507 – 4522 .