Polymorphs, salts, and cocrystals: what’s in a name? S Aitipamula, R Banerjee, AK Bansal, K Biradha, ML Cheney, ... Crystal growth & design 12 (5), 2147-2152, 2012 | 1062 | 2012 |
Crystal engineering: a textbook GR Desiraju, JJ Vittal, A Ramanan World scientific, 2011 | 686 | 2011 |
Coordination polymers versus metal− organic frameworks K Biradha, A Ramanan, JJ Vittal Crystal Growth and Design 9 (7), 2969-2970, 2009 | 330 | 2009 |
Hydrothermal synthesis of sodium tungstates KP Reis, A Ramanan, MS Whittingham Chemistry of Materials 2 (3), 219-221, 1990 | 125 | 1990 |
How molecules turn into solids: the case of self-assembled metal− organic frameworks A Ramanan, MS Whittingham Crystal growth & design 6 (11), 2419-2421, 2006 | 121 | 2006 |
A convenient route for the synthesis of hydroxyapatite through a novel microwave-mediated metathesis reaction P Parhi, A Ramanan, AR Ray Materials letters 58 (27-28), 3610-3612, 2004 | 112 | 2004 |
Synthesis of novel compounds with the pyrochlore and hexagonal tungsten bronze structures KP Reis, A Ramanan, MS Whittingham Journal of Solid State Chemistry 96 (1), 31-47, 1992 | 111 | 1992 |
Influence of 2‐Aminopyridine on the Formation of Molybdates under Hydrothermal Conditions K Pavani, A Ramanan European journal of inorganic chemistry 2005 (15), 3080-3087, 2005 | 91 | 2005 |
Growth of copper pyrazole complex templated phosphomolybdates: supramolecular interactions dictate nucleation of a crystal J Thomas, A Ramanan Crystal Growth and Design 8 (9), 3390-3400, 2008 | 86 | 2008 |
Microbial mineralization of struvite: a promising process to overcome phosphate sequestering crisis A Sinha, A Singh, S Kumar, SK Khare, A Ramanan Water Research 54, 33-43, 2014 | 84 | 2014 |
A homologous series of recurrent intergrowth structures of the type Bi4Am+ n− 2Bm+ nO3 (m+ n)+ 6 formed by oxides of the aurivillius family J Gopalakrishnan, A Ramanan, CNR Rao, DA Jefferson, DJ Smith Journal of Solid State Chemistry 55 (1), 101-105, 1984 | 80 | 1984 |
The hydrothermal synthesis of transition metal complex templated octamolybdates K Pavani, SE Lofland, KV Ramanujachary, A Ramanan European journal of inorganic chemistry 2007 (4), 568-578, 2007 | 79 | 2007 |
Hydrothermal synthesis and structural study of lanthanide orthovanadates, LnVO4 (Ln= Sm, Gd, Dy and Ho) S Mahapatra, A Ramanan Journal of alloys and compounds 395 (1-2), 149-153, 2005 | 67 | 2005 |
Post consumer PET waste as potential feedstock for metal organic frameworks PK Roy, A Ramanan, C Rajagopal Materials letters 106, 390-392, 2013 | 64 | 2013 |
Preparation and characterization of alginate and hydroxyapatite‐based biocomposite P Parhi, A Ramanan, AR Ray Journal of applied polymer science 102 (6), 5162-5165, 2006 | 62 | 2006 |
Novel metal oxides prepared by ingenious synthetic routesa CNR Rao, J Gopalakrishnan, K Vidyasagar, AK Ganguli, A Ramanan, ... Journal of Materials Research 1 (2), 280-294, 1986 | 58 | 1986 |
Synthesis of nano-sized alkaline-earth hydroxyapatites through microwave assisted metathesis route P Parhi, A Ramanan, AR Ray Materials Letters 60 (2), 218-221, 2006 | 54 | 2006 |
Role of nonbonding interactions in the crystal growth of phenazinediamine tetrahydrate: new insights into the occurrence of 2D water layers in crystal hydrates S Upreti, A Datta, A Ramanan Crystal growth & design 7 (5), 966-971, 2007 | 50 | 2007 |
New Inorganic− Organic Hybrid Materials Based on Polyoxovanadates:[Morp] 6 [VO4⊂ V14O32 (OH) 6]⊙ 2H2O,[Morp] VO3,[HMTA-CH3] 4 [H2V10O28]⊙ 5H2O, and [HMTA-H][HMTA-CH2OH] 2 … T Duraisamy, N Ojha, A Ramanan, JJ Vittal Chemistry of materials 11 (9), 2339-2349, 1999 | 50 | 1999 |
Novel self-assembled decavanadate clusters forming 1D molecular chains and 2D molecular arrays:[HMTA-H··· H2O][HMTA-CH2OH][H3V10O28 {Na (H2O) 4}]· 4H2O and [Na2 (H2O) 10 … T Duraisamy, A Ramanan, JJ Vittal Crystal engineering 3 (4), 237-250, 2000 | 47 | 2000 |