1. T. Duraisamy, A. Ramanan, and J. J. Vittal, Novel Self-assembled Decavanadate Clusters forming 1D Molecular Chains and 2D Molecular Arrays: [HMTA-HH2O][HMTA-CH2OH][H3V10O28{Na(H2O)4}].4H2O and [Na2(H2O)10[H3V10O28 {Na(H2O)2}].3H2O, Crystal Engineering (2000) 3 237-250.
  2. T. Duraisamy, Nishma Ojha, A. Ramanan, and J. J. Vittal,  New Inorganic-Organic Hybrid Materials Based on Polyoxovanadates: Morp]6[VO4V14O32(OH)6]·2H2O, [Morp]VO3, [HMTA-CH3]4[H2V10O28]·5H2O, and [HMTA-H][HMTA-CH2OH]2[H5V10O28]·6H2O, Chem. Mater. (1999) 11 2339-2349.
  3. P.K. Sharma and A. RamananThe Role of N,N-dimethylaniline in the formation of Titania Gel Monolith by Sol-gel Method, J. Mater. Sci. (1996) 31 773-777.
  4. Duraisamy and A. RamananNax/2Bi1-x/2MoxV1-xO4 and Bi1-x/3MoxV1-xO4 New Scheelite-related phases, Solid State Ionics 120 233-237 (1999).
  5. P.K. Sharma, A. Ramanan and N.Y. Vasanthacharya, Low-temperature Synthesis of Bismuth Cuprates, Mater. Res. Bull. 31 913-917 (1996).
  6. R.C.T. Slade, G.P. Hall, A. Ramanan and E. Prince, Structure and proton conduction in pyrochlore-type antimonic acid: a neutron diffraction study, Solid State Ionics (1996) 92 171-181.