{"id":133,"date":"2014-02-18T11:50:31","date_gmt":"2014-02-18T11:50:31","guid":{"rendered":"http:\/\/uni.hi.is\/krishna\/?page_id=133"},"modified":"2026-02-12T11:02:04","modified_gmt":"2026-02-12T11:02:04","slug":"full-list-of-publications","status":"publish","type":"page","link":"https:\/\/uni.hi.is\/krishna\/publications-2\/full-list-of-publications\/","title":{"rendered":"Full list of Publications"},"content":{"rendered":"

87. Designing Stimuli-Responsive Supramolecular Gels by Tuning the Non-Covalent Interactions of the Functional Groups, G. Kuppadakkath, I. Volkova and Krishna K. Damodaran Gels<\/em>, 2024<\/strong>, 10<\/em>(9), 584<\/a>.<\/p>\n

86. Single Crystal to Single Crystal Transformation of Porous Materials based on Zinc Nodes and Mercaptobenzoic Acid, B. Kristinsson, M. Janiw, Krishna K. Damodaran ChemPlusChem<\/em>, 2024<\/strong>, e202400351.<\/a><\/p>\n

85. Analysing the self-assembly modes in chiral multi-component gels based on donor and acceptor moieties, S. S. Jayabhavan, H. Myneni, M. Riedel and Krishna K. Damodaran<\/strong>,\u00a0<\/em> Supramol. Chem. 2024<\/strong>, 34, 9-10, 414\u2013426<\/em><\/a><\/p>\n

84. Nanoscale assembly of enantiomeric supramolecular gels driven by the nature of solvents, T. A. Gudmundsson, G. Kuppadakkath, D. Ghosh, M. Ruether, A. Seddon, R. E. Ginesi, J. Doutch, D. J. Adams, T. Gunnlaugsson and Krishna K. Damodaran<\/strong>, Nanoscale<\/em>, 2024, 16, 8922-8930<\/a><\/p>\n

83. Bromo substituted aroylhydrazones: Synthesis, crystal structures, Hirshfeld surface analysis, 3D energy frameworks, DNA\/BSA binding, antimicrobial activity, P. K. Maniyampara, M. Bhagiyalakshmi, M.R. P. Kurup, E. Manoj, Krishna K. Damodaran, J. Mol. Struc<\/em>. 2024<\/strong>, 13921<\/a>4<\/p>\n

82. Exploring anticancer and antibacterial activities of two self-assembling units: Band gap calculations, DFT studies, and polymorphism of a carbohydrazone ligand. M. Sooraj, Krishna. K. Damodaran,<\/strong> E. Manoj, J. Mol. Struc<\/em>. 2024, <\/strong>1316, 138930<\/a><\/p>\n

81. Supramolecular Gels Based on C3<\/em>-Symmetric Amides: Application in Anion-Sensing and Removal of Dyes from Water. G. Kuppadakkath, S. S. Jayabhavan and Krishna K. Damodaran<\/strong>, Molecules<\/em> 2024<\/strong>, 29(9), 2149<\/a><\/p>\n

80. AsymPol-TEKs as efficient polarizing agents for MAS-DNP in glass matrices of non-aqueous solvents R. Harrabi, T. Halbritter, S. Alarab, S. Chatterjee, M. Wolska, Krishna K Damodaran<\/strong>, J. van Tol, D. Lee, S. Paul, S. Hediger, S. Th Sigurdsson, F. Mentink-Vigier, G. De Pa\u00ebpe, Phys. Chem. Chem. Phys<\/em>., 2024<\/strong>, 26, 5669-5682<\/a><\/p>\n

79. Synthesis, spectral characterization, and catalytic efficiency of aroylhydrazone-based Cu(II) Complexes L. Nishana, A. Sakthivel, M. R. Prathapachandra Kurup, Krishna K. Damodaran<\/strong>, A. Kulandaisamy and S. Maheswaran New J. Chem<\/em>., 2023<\/strong>, 47, 20626-20641<\/a><\/p>\n

78. Structural modification induced hydrogelation and antibacterial properties in supramolecular gels, D Ghosh, P Chaudhary, A Pradeep, S Singh, J Rangasamy and Krishna K. Damodaran<\/strong>, J. Mol. Liq.<\/em> 2023<\/strong>, 382, 122023.<\/a><\/p>\n

77. The Role of Functional Groups in Tuning the Self\u2010Assembly Modes and Physical Properties of Multicomponent Gels, S. S Jayabhavan, G. Kuppadakkath and Krishna K. Damodaran<\/strong>, ChemPlusChem<\/em>, 2023, e202300302<\/a><\/p>\n

76. Stimuli-responsive Properties of Supramolecular Gels based on Pyridyl-N-oxide Amides,\u00a0 S. S. Jayabhavan, B. Kristinsson, D. Ghosh, C. Breton and Krishna K. Damodaran<\/strong> Gels<\/em> 2023<\/b>, 9<\/em>(2), 89.<\/a><\/p>\n

75. Analysing the Role of Anions in the Synthesis of Catalytic Active Urea-based MOF, D. Ghosh and Krishna K. Damodaran<\/strong> Dalton Trans<\/em>, 2022, 51<\/strong>, 16316-16324 <\/a><\/p>\n

74. Cytotoxic effects of halogenated tin phosphinoyldithioformate complexes against several cancer cell lines, M. Balogov\u00e1, S. Sharma, P. Cherek, S. N. \u00d3lafsson, S. J\u00f3nsd\u00f3ttir, H. M. \u00d6gmundsd\u00f3ttir and Krishna K. Damodaran<\/strong> Dalton Trans.<\/em>, 2022, 51<\/strong>, 13119-13128<\/a><\/p>\n

73. Highly Efficient Polarizing Agents for MAS-DNP of Proton-Dense Molecular Solids, Rania Harrabi, Thomas Halbritter, Fabien Aussenac, Ons Dakhlaoui, Johan van Tol, Krishna K. Damodaran<\/strong>, Daniel Lee, Subhradip Paul, Sabine Hediger, Frederic Mentink-Vigier, Snorri Th. Sigurdsson, Ga\u00ebl De Pa\u00ebpe Angew. Chem. Int. Ed.<\/em>, 2022<\/strong>, 61, e202114103 <\/a><\/p>\n

72. Synthesis of New Chiral Mn(III)-Salen Complexes as Recoverable and Reusable Homogeneous Catalysts for Asymmetric Epoxidation of Styrenes and Chromenes, Pooja Chaudhary, Geeta Devi Yadav, Krishna K. Damodaran<\/strong> and Surendra Singh,<\/em> New J. Chem<\/em>.<\/strong><\/i>, 2022<\/strong>,46, 1308-1318<\/a><\/p>\n

71. Enantioselective Gel Phase Synthesis of Metal-Organic Materials, Dipankar Ghosh, Marcin G\u00f3recki, Gennaro Pescitelli, Krishna K. Damodaran,<\/strong> Angew. Chem. Int. Ed<\/em>., 2021<\/strong>, 60, 24406-24410.<\/a><\/p>\n

70. Making and Breaking of Gels: Stimuli-Responsive Properties of Bis(Pyridyl-N-oxide Urea) Gelators, Sreejith Sudhakaran Jayabhavan, Dipankar Ghosh and Krishna K. Damodaran<\/strong>, Molecules,<\/em> 2021<\/strong>, 26(21), 6420<\/a><\/p>\n

69. Crystal Habit Modification of Metronidazole by Supramolecular Gels with Complementary Functionality, Sreejith Sudhakaran Jayabhavan, J. W. Steed, and Krishna K. Damodaran<\/strong>, Cryst. Growth Des<\/em>. 2021<\/strong>, 21, 9, 5383\u20135393. <\/a><\/p>\n

68. Evaluating the role of urea-like motif in enhancing the thermal and mechanical strength of supramolecular gels. D. A. T\u00f3masson, D. Ghosh, P. M. R. Kurup, M. T. Mulvee and Krishna K. Damodaran, <\/strong>CrystEngComm<\/em>, 2021, 23, 617-628<\/strong><\/a><\/p>\n

67. Solid-State Structural Transformation and Photoluminescence Properties of Supramolecular Coordination Compounds, Dipankar Ghosh, Oddn\u00fd Ragnarsd\u00f3ttir, Dan\u00edel Arnar T\u00f3masson and Krishna K. Damodaran<\/strong>, Symmetry<\/em><\/a>,<\/em> 2021, 13(1), 112<\/a><\/strong><\/p>\n

66. Towards a selective synthetic route for cobalt amino acid complexes and their application in ring opening polymerization of rac-lactide, A. C. Ruiz, Krishna K. Damodaran<\/strong> and S. G. Suman, RSC Adv.<\/em>, 2021<\/strong>, 11, 16326-16338. <\/a><\/p>\n

65. Role of N\u2013Oxide Moieties in Tuning Supramolecular Gel\u2013State Properties. D. Ghosh, R. Bjornsson, Krishna K. Damodaran, <\/strong>Gels<\/em> 2020, 6, 4, 41<\/strong><\/a><\/p>\n

64. Unraveling the self-assembly modes in multi-component supramolecular gels using single crystal X-ray diffraction, Dipankar Ghosh, Abbas D. Farahani, Adam D. Martin, Pall Thordarson, and Krishna K. Damodaran<\/strong>, Chem Matter<\/em>, 2020<\/strong>, 32<\/span>, 8<\/span>, 3517-3527<\/span><\/a>.<\/p>\n

63. Metal complexation induced supramolecular gels for the detection of cyanide in water, Dipankar Ghosh, Deepa and Krishna K. Damodaran<\/strong>, Supramol. Chem<\/em>. 2020<\/strong>, 32, 4, 276-286<\/a><\/p>\n

62. Reaction Chemistry of the syn-[Mo2<\/sub>O2<\/sub>(\u03bc-S)2<\/sub>(S2<\/sub>)(DMF)3<\/sub>] Complex with Cyanide and Catalytic Thiocyanate Formation, S. G. Suman,\u00a0 J. M. Gretarsdottir, P. E. Penwell, J. P. Gunnarsson, S. Frostason, S. Jonsdottir, Krishna K. Damodaran<\/strong> and A. Hirschon, Inorg Chem<\/em>, 2020<\/strong>,\u00a0 59<\/span>, 11<\/span>, 7644\u20137656<\/span><\/a><\/p>\n

61. Syntheses, spectral aspects and biological studies of bromide and azide bridged box dimer copper(II) complexes of an NNO donor aroylhydrazone. M.M. Fousiamol, M. Sithambaresan, Krishna K. Damodaran<\/strong> and M.R. Prathapachandra Kurup, Inorg. Chim. Acta<\/em>, 2020<\/strong>, 501, 119301<\/a><\/p>\n

60. Synthesis and characterization of asymmetric [Mo2O2(\u03bc-S)2(S2)(L)] complexes (L\u202f=\u202fbipy, en, dien) and their heterogeneous reaction with propylene sulphide, B. O. Birgisson, L. J. Monger, Krishna K. Damodaran<\/strong> and Sigridur G. Suman, Inorg. Chim. Acta<\/em>, 2020<\/strong>, 501, 119272<\/a><\/p>\n

59. Tuning Gel State Properties of Supramolecular Gels by Functional Group Modification, D. Ghosh, M. T. Mulvee and Krishna K. Damodaran<\/strong>, Molecules<\/em> 2019<\/strong>, 24<\/em>(19), 3472<\/a><\/p>\n

58. Crystal habit modification of Cu(II) isonicotinate-N-oxide complexes using gel phase crystallisation, D. Ghosh, K. Ferfolja, \u017d. Drabavi\u010dius, J. W. Steed and Krishna K. Damodaran<\/strong>, New. J. Chem<\/em><\/strong>,\u00a02018<\/strong>, 42, 19963 - 19970<\/a><\/p>\n

57. Enhanced Mechanical and Thermal Strength in Mixed-Enantiomers-Based Supramolecular Gel. D. A. T\u00f3masson, D. Ghosh, Z. Kr\u017ei\u0161nik, L. H. Fasolin, A. A. Vicente, A. D. Martin, P. Thordarson, and Krishna K. Damodaran<\/strong>, Langmuir<\/em><\/strong> 2018<\/strong>, 34, 12957\u221212967<\/a><\/p>\n

56. Cytotoxic activity of novel organotin compounds against different cancer cell lines. P. Cherek, M. Balogova, Krishna K. Damodaran<\/strong> and H. M. \u00d6gmundsdottir, Cancer Research<\/em>, 2018, 78<\/strong>, 2807-2807<\/a><\/p>\n

55. Electron beam induced deposition of silacyclohexane and dichlorosilacyclohexane; the role of dissociative ionization and dissociative electron attachment in the deposition process. Ragesh Kumar T P, Sangeetha Hari, Krishna K Damodaran<\/strong>, Oddur Ing\u00f3lfsson and Cornelis W Hagen, Beilstein J. Nanotechnol. <\/em>2017<\/strong>, 8, 2376\u20132388.<\/a><\/p>\n

54. Pharmaceutical Polymorph Control in a Drug-Mimetic Supramolecular Gel. J. Foster,\u00a0\u00a0 Krishna K. Damodaran<\/strong>,\u00a0\u00a0 A. Maurin,\u00a0\u00a0 G. M. Day,\u00a0\u00a0 H. P. G. Thompson,\u00a0\u00a0 G. J. Cameron,\u00a0\u00a0 J. C. Bernal and\u00a0 J. W Steed, Chem. Sci.<\/em><\/strong>, 2017, 8<\/strong>, 78-84 <\/a><\/p>\n

53. Anion responsive and morphology tunable tripodal gelators. A. Ghosh, P. Das, R. Kaushik,\u00a0\u00a0 Krishna K Damodaran<\/strong> and\u00a0\u00a0 A. J. Devadoss, RSC Adv.<\/strong><\/i>, 2016, 6<\/strong>, 83303-83311<\/a>.<\/p>\n

52. Fluorous \u2018Ponytails\u2019 Lead to Strong Gelators Showing Thermally Induced Structure Evolution. H. Kumari, S. E. Armitage, S. R Kline, Krishna K. Damodaran<\/strong>,\u00a0\u00a0 S. Kennedy, J. L Atwood and J. W. Steed,\u00a0Soft Matter<\/strong><\/i>, 2015,11<\/strong>, 8471-8478 <\/a><\/p>\n

51. Selective gelation of N-(4-pyridyl)nicotinamide by copper(II) salts. D. Ghosh,\u00a0\u00a0 I. Lebedyt\u0117,\u00a0\u00a0 D. S. Yufit,\u00a0\u00a0 Krishna K. Damodaran<\/strong> and\u00a0\u00a0 J. W. Steed, CrystEngComm<\/strong><\/i>, 2015,17<\/strong>, 8130-8138<\/a><\/p>\n

50.\u00a0 Supramolecular gel phase crystallization: orthogonal self-assembly under non-equilibrium conditions. D. Krishna Kumar<\/strong> and J. W. Steed, Chem. Soc. Rev.<\/strong><\/i>, 2014,43<\/strong>, 2080-2088<\/a><\/p>\n

49.\u00a0 Dirhodium Paddlewheel with Functionalized Carboxylate Bridges: New Building Block for Self-Assembly and Immobilization on Solid Support, D. Krishna Kumar<\/b>, A. S. Filatov, M. Napier, J. Sun, E. V. Dikarev and M. A. Petrukhina <\/i>Inorg. Chem<\/i><\/b>.<\/i>, 2012<\/b>, 51, 4855.<\/a><\/p>\n

48. Fluorescent Acridine-Based Receptors for H2<\/sub>PO4<\/sub>\u2013<\/sup>, V. Mart\u00ed-Centelles, M. I. Burguete, F. Galindo, M. A. Izquierdo, D. Krishna Kumar<\/b>, A. J. P. White, S. V. Luis and R. Vilar, J. Org. Chem<\/i><\/b>.<\/i>, 2012<\/b>, 77, 490<\/a>.<\/p>\n

47. Zinc(II) coordination polymers with pseudopeptidic ligands V. Mart\u00ed-Centelles, D. Krishna Kumar<\/b>, A. J. P. White, S. V. Luis and R. Vilar, CrystEngComm<\/i><\/b>, <\/i>2011<\/b>, 13, 6997<\/a>.<\/p>\n

46.\u00a0 Targeting of anionic membrane species by lanthanide(III) complexes: towards improved MRI contrast agents for apoptosis A. J. Surman, G. D. Kenny, D. Krishna Kumar<\/b>, J. D. Bell, D. R. Casey and R. Vilar Chem. Commun.<\/i><\/b>, <\/i>2011<\/b>, 47, 10245<\/a>.<\/p>\n

45. CuII <\/sup>coordination polymers derived from bis-pyridyl-bis-urea ligands: synthesis, selective anion separation and metallogelation,\u00a0 N. N. Adarsh, D. Krishna Kumar<\/b> and <\/b>P. Dastidar, Current Science<\/i><\/b> 2011<\/b>, 101, 869.<\/a><\/p>\n

44. Supramolecular Synthons in Designing Low Molecular Mass Gelling Agents: L-Amino Acid Methyl Ester Cinnamate Salts and their Anti-Solvent-Induced Instant Gelation, P. Sahoo, D. Krishna Kumar<\/b>, S. R.\u00a0 Raghavan and P. Dastidar Chem. Asian J.<\/i><\/b> 2011<\/b>, 6, 1038<\/a>.<\/p>\n

43. Recyclable Dirhodium Catalysts Embedded in Nanoporous Surface-Functionalized Organosilica Hosts for Carbenoid-Mediated Cyclopropanation Reactions, E. V. Dikarev, D. Krishna Kumar<\/b>, A. S. Filatov, A. Anan, Y. Xie, T. Asefa and M. A. Petrukhina, ChemCatChem<\/i>, <\/b>2010<\/b>, 2, 1461<\/a>.<\/p>\n

42. Coordination polymers derived from a bis-pyridyl-bis-amide ligand: Supramolecular structural diversities and anion binding properties, N. N, Adarsh, D. Krishna Kumar<\/b>, E. Suresh, P. Dastidar, Inorg Chim Acta<\/i><\/b>, 2010, <\/b>363, 1367<\/a>.<\/p>\n

41. 3,3'-{Ethane-1,2-diylbis[carbonylbis (azanediyl)] dipyridinium} tetra-chloridoplatinate(II), N. N, Adarsh, D. Krishna Kumar<\/b>, P. Dastiadar, Acta Cryst.<\/i>, 2010, <\/b>E66, m270<\/a>.<\/p>\n

40.\u00a0 DNA binding and cleavage properties of a newly synthesised Ru(II)-polypyridyl complex. A. Ghosh, A. Mandoli, D. Krishna Kumar,<\/b> T. Ghosh, B. Jha, J. A Thomas and A. Das, Dalton Trans,<\/i><\/b> 2009<\/b>, 9312.<\/p>\n

39.\u00a0 Microporous nanotubular selfassembly of a molecular chair. Adarsh N. N., D. Krishna Kumar<\/b> and P. Dastidar, Cryst. Growth & Des<\/i><\/b> 2009<\/b> 9, 2979.<\/p>\n

38.\u00a0 Hexa-\u03bc-chlorido-hexachlorido(\u03b76<\/sup>-hexamethylbenzene)trialuminium(III)-lanthanum(III) benzene solvate A. S. Filatov, S. N. Gifford,\u00a0 D. Krishna Kumar <\/b>and M. A. Petrukhina Acta Cryst.<\/i>, 2009,<\/b>. E65, m286.<\/p>\n

37. Metal\u2013organic frameworks derived from bis-pyridyl-bis-amide ligands: Effect of positional isomerism of the ligands, hydrogen bonding backbone, counter anions on the supramolecular structures and selective crystallization of the sulfate anion. N. N. Adarsh, D. Krishna Kumar <\/b>and P. Dastidar, CrystEngComm, <\/i>2009,\u00a0<\/b>11, 796.<\/p>\n

36. Exploring the Effect of Chain Length of Bridging Ligands in Coordination Complexes and Polymers Derived from Mixed Ligand Systems of Pyridylnicotinamides and Dicarboxylates. D. Krishna Kumar. Inorg Chim Acta<\/i><\/b>, 2009<\/b>, 362, 1767.<\/p>\n

35.\u00a0 Substitution of trans<\/i> Ligands in m-oxo-bis( m-acetato)diruthenium(III) Complexes: Synthesis and Kinetic Studies. Estimation of Rate Constants from Rate constants \u2013 pka<\/sub> Data, A. Hussain, A. K. Bhatt, D. Krishna Kumar<\/b>, R. B. Thorat, H. J. Padhiyar and R. S. Shukla Inorg Chim Acta<\/i>, 2009<\/b>, 362, 1101.<\/p>\n

34.\u00a0 Zn(II) Metal-Organic-Frameworks (MOFs) Derived from a Bis-pyridyl-bis-urea ligand: Effects of Crystallization Solvents on the Structures and Anion Binding Properties, N. N. Adarsh, D. Krishna Kumar<\/b> and P. Dastidar, CrystEngComm<\/i><\/b>, 2008<\/b>, 10, 1565.<\/p>\n

33. Ligating topology and counter anion controlled formation of discrete metallo-macrocycle and 2D corrugated sheet in coordination compounds derived from a bis-pyridyl-bis-amide ligand and Cd(II) salts, N. N. Adarsh, D. Krishna Kumar<\/b> and P. Dastidar, Inorg Chem, Comm<\/i>. 2008<\/b>, 11, 636.<\/p>\n

32. An easy access to an organometallic low molecular weight gelator: a crystal engineering approach, P. Sahoo D. Krishna Kumar<\/b>, D. R. Trivedi and P. Dastidar, Tetrahedron<\/i><\/b> Letters<\/b><\/i>,<\/b> 2008<\/b>, 49, 3052.<\/p>\n

31.\u00a0 X-Ray Crystallographic Investigations of an Azacryptand and its Bis-Protonated Salt: Interactions of Acyclic Water Trimer and C-H\u2026\u03c0 Interactions in T-shaped Benzene Dimer,\u00a0 P. S. Lakshminarayanan, D. Krishna Kumar, I. Ravikumar, B. Ganguly, and P. Ghosh, Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry<\/i><\/b>. <\/i>2008<\/b>, 38, 2, Special Issue on Water Clusters. <\/b>(Invited article<\/b>).<\/p>\n

30. Metallo-porphyrin Based Inclusion Materials: Exploiting Ligating Topologies and Hydrogen Bonding Backbone in Generating New Supramolecular Architectures, D. Krishna Kumar<\/b>, A. Das and P. Dastidar, Inorg. Chem<\/i>.<\/b> 2007,<\/b> 46, 7351.<\/p>\n

29.\u00a0 Isomerisms in Coordination- Complexes and Polymers Derived from Bispyridylurea Ligands: Effect of Solvents, Conformational Flexibility and Positional Isomerism of the Ligands, D. Krishna Kumar<\/b>, A. Das, and P. Dastidar, Cryst. Growth & Des.<\/i> 2007<\/b>, 7, 2096.<\/p>\n

28. Role of Positional Isomers on Receptor-Anion Binding and Evidence for Resonance Energy Transfer, D. A. Jose, D. Krishna Kumar<\/b>, P. Kar, S. Verma, A. Ghosh, B. Ganguly, H. N. Ghosh and A. Das, Tetrahedron<\/b><\/i>, 2007<\/b>, 63, 12007.<\/p>\n

27. Generation of Ir\u2013Sn and Rh\u2013Sn bonds from the oxidative addition of tin(IV) halides to [Ir(\u00b5-Cl)(1,5-COD)]2<\/sub> and [Rh(\u00b5-Cl)(1,5-COD)]2<\/sub>, J. Choudhury, D. Krishna Kumar<\/b> and S. Roy, J. Organometallic Chem<\/i>.<\/b>, 2007<\/b>, 692, 5614.<\/p>\n

26. Conformation Dependent Network Structures in the Cooridnation Polymers Derived from Pyridylisonicotinamides, Carboxylates and Co(II): Entrapment of (H2<\/sub>O)14 <\/sub>Water Cluster of an Unprecedented Topology, D. Krishna Kumar<\/b>, A. Das and P. Dastidar, CrystEngComm<\/i>,<\/b> 2007<\/b>, 9, 895.<\/p>\n

25. Rugby Ball Shaped Sulfate-Water-Sulfate Adduct Encapsulated in a Neutral Molecular Receptor Capsule, D. A. Jose, D. Krishna Kumar<\/b>, B. Ganguly and A. Das, Inorg. Chem. <\/i>2007<\/b>, 46, <\/i>5817.<\/i><\/p>\n

24.\u00a0 Composites of N, N\u2032\u2013bis\u2013(pyridyl) Urea\u2013dicarobxlyic Acid as New Hydrogelators \u2013 A Crystal Engineering Approach, N. N. Adarsh, D. Krishna Kumar<\/b> and P. Dastidar <\/b>Tetrahedron \u2013 symposium in print on LMOG<\/i>, Tetrahedron<\/b>, 2007<\/b>, 63 7386\u00a0 (Invited article<\/b>).<\/p>\n

23.\u00a0 Supramolecular structural diversities in the metal\u2013organic frameworks derived from pyridylamide ligands: studying the effects of ligating topologies, hydrogen bonding backbone of the ligands and counter anions, D. Krishna Kumar<\/b>, A. Das, P. Dastidar,\u00a0CrystEngComm<\/i><\/b>, 2007<\/b>, 9, 548.<\/p>\n

22.\u00a0 Photochromism of Arylchromenes: Remarkable Modification of Absorption Properties and Lifetimes of o<\/i>-Quinonoid Intermediates, J. N. Moorthy, P. Venkatakrishnan, S. Samanta, and D. Krishna Kumar, Org. Lett., <\/i>2007, <\/b>9, <\/i>919.<\/p>\n

21.\u00a0 Preferential binding of Mg2+<\/sup> ion by easily synthesizable anthraquinone based chromogenic receptors, P. Kar, M. Suresh, D. A. Jose, D. Krishna Kumar<\/b>, B. Ganguly and A. Das. Polyhedron<\/i><\/b>, 2007<\/b> 26, <\/i>1317.<\/i><\/p>\n

20. Remarkably Stable Porous Assembly of Close-ended Sticky Nanotubes Derived from a Simple Metal-organic Framework, D. Krishna Kumar<\/b>, A. Das, and P. Dastidar, Cryst. Growth & Des.<\/i> 2007<\/b>, 7, 205.<\/p>\n

19. Hydrogen-bonded microporous network, helix and 1D zigzag chains in MOFs of Zn(II): the effects of ligating topologies, hydrogen bonding backbone and counter-anions, D. Krishna Kumar, <\/b>A. Das and P. Dastidar, CrystEngComm<\/i>, 2006, <\/b>8, 805.<\/p>\n

18.\u00a0 Solid State Structural Evidence of Chloroform-Benzene-Chloroform Adduct Trapped in Hexaanthryl Octaaminocryptand Channels, P. S. Lakshminarayanan, D. Krishna Kumar <\/b>and P. Ghosh. J. Am. Chem. Soc.<\/i> 2006, <\/b>128, 9600.<\/p>\n

17.\u00a0 Exploring conformationally flexible hydrogen-bond-functionalized ligand and counter anions in metal-organic frameworks of Cu(II), D. Krishna Kumar<\/b>, A. Das and P. Dastidar New. J. Chem<\/i>. 2006 <\/b>30, 1267.<\/p>\n

16. 1D Chains, 2D Corrugated Sheets Having Cross\u2013linked Helix in Metal\u2013Organic Frameworks: Exploring Hydrogen\u2013bond Capable Backbone and Ligating topologies in Mixed Ligand Systems, D. Krishna Kumar<\/b>, A. Das, and P. Dastidar, Cryst. Growth & Des.<\/i> 2006,<\/b> 6, 1903.<\/p>\n

15. Exploring hydrogen-bond capable backbone and ligating topologies: Co(II) coordination polymers derived from mixed ligand systems, D. Krishna Kumar<\/b>, A. Das and P. Dastidar. J. Mol. Structure<\/i>. 2006<\/b>, 796 139. (Invited article)<\/b><\/p>\n

14.\u00a0 Ultrafast Dynamics and Excited State Deactivation of [Ru(bpy)2<\/sub>Sq]+<\/sup> and Its Derivatives, G. Ramakrishna, D. A. Jose, D. Krishna Kumar<\/b>, A. Das, D. K. Palit, and H. N. Ghosh. J. Phys. Chem. B<\/i><\/b>, 2006, <\/b>110, 10197.<\/p>\n

13.\u00a0 Interfacial Electron Transfer between the Photoexcited Porphyrin Molecule and TiO2<\/sub>Nanoparticles: Effect of Catecholate Binding, G. Ramakrishna, S. Verma, D. A. Jose, D. Krishna Kumar<\/b>, A. Das, D. K. Palit, and H. N. Ghosh. J. Phys. Chem. B<\/i><\/b>, 2006, <\/b>110, 9012.<\/p>\n

12.\u00a0 N-H\u2026Cl\u00ad2<\/sub>-M synthon as structure-directing tool: crystal structures of some perchlorometallates, D. Krishna Kumar, <\/b>A. Das, and <\/b>P. Dastidar. Cryst. Growth & Des.<\/i><\/b>, 2006,<\/b> 6, 216.<\/p>\n

11\u00a0\u00a0 Counteranion-Controlled Water Cluster Recognition in a Protonated Octaamino Cryptand, P. S. Lakshminarayanan, D. Krishna Kumar<\/b>, and P. Ghosh, Inorg. Chem<\/i>,<\/b> 2005<\/b>, 44, 7540.<\/p>\n

10.\u00a0 Mixed-ligand complexes of ruthenium(II) containing new photoactive or electroactive ligands: synthesis, spectral characterization and DNA interactions, T. Ghosh, B. G. Maiya, A. Samanta, A. D. Shukla, D. A. Jose, D. Krishna Kumar<\/b> and Amitava Das.\u00a0 J Biol Inorg Chem<\/i><\/b> (2005<\/b>) 10, 496.<\/p>\n

9.\u00a0\u00a0\u00a0 Strongly Coupled Ruthenium-Polypyridyl Complexes for Efficient Electron Injection in Dye-Sensitized Semiconductor Nanoparticles, G. Ramakrishna, D. A. Jose, D. Krishna Kumar<\/b>, A. Das, D. K. Palit, and H. N. Ghosh. J. Phys. Chem. B<\/i><\/b>, 2005<\/b>, 109, 15445.<\/p>\n

8.\u00a0\u00a0\u00a0 From diamondoid network to (4,4\u2019) net: Effect of ligand topology on the supramolecular structural diversity. D. Krishna Kumar<\/b>, D. A. Jose, A. Das, and P. Dastidar. Inorg. Chem<\/i><\/b>, 2005, <\/b>44, 6933.<\/p>\n

7\u00a0\u00a0\u00a0\u00a0 First Snapshot of A Nonpolymeric Hydrogelator Interacting with its Gelling solvents. D. Krishna Kumar,\u00a0 <\/b>D. A. Jose, A. Das and P. Dastidar. Chem. Comm.<\/i> 2005, <\/b>4059.<\/p>\n

6.\u00a0\u00a0\u00a0 Urea and thiourea based efficient colorimetric sensors for oxyanions, D. A. Jose, D. Krishna Kumar<\/b>, B. Ganguly and A. Das Tetrahedron Letters<\/i><\/b>,<\/i> 46 (2005<\/b>) 5343.<\/p>\n

5.\u00a0\u00a0\u00a0 Synthesis, Characterization, Physicochemical, and Photophysical Studies of Redox Switchable NIR Dye Derived from a Ruthenium-Dioxolene-Porphyrin System, D. A. Jose, A. D. Shukla, D. Krishna Kumar<\/b>, B. Ganguly, A. Das. <\/b>G. Ramakrishna, D. K. Palit, and H. N. Ghosh\u00a0 Inorg. Chem<\/i><\/b>.<\/i> 2005<\/b>, 44, 2414.<\/p>\n

4.\u00a0\u00a0\u00a0 How Robust is N-H\u2026.Cl2\u2014<\/sub>Cusynthon? Crystal structures of some perchlorocuprates, D. Krishna Kumar,<\/b> A. Ballabh, A. Jose, P. Dastidar and A. Das, Cryst. Growth. Des.<\/b>,<\/i> 2005,<\/b> 5, 651.<\/p>\n

3.\u00a0\u00a0\u00a0 Efficient And Simple Colorimetric Fluoride Ion Sensor Based On Receptors Having Urea And Thiourea Binding Sites D. A. Jose, D. Krishna Kumar<\/b>, B. Ganguly and A. Das. Org. Lett<\/i><\/b>., 2004<\/b>, 6, 3445.<\/p>\n

2.\u00a0\u00a0\u00a0 A Nonpolymeric Hydrogelator Derived from N-(4-Pyridyl) isonicotinamide, D. Krishna Kumar<\/b>, D. A. Jose, P. Dastidar <\/b>and A. Das Langmuir<\/i><\/b> <\/i>2004, <\/b>20, <\/i>10413.<\/p>\n

1.\u00a0\u00a0\u00a0 Nonpolymeric Hydrogelators Derived from Trimesic Amides D. Krishna Kumar<\/b>, D. A. Jose, P. Dastidar, and A. Das, Chem. Mater<\/i><\/b>. <\/i>2004, <\/b>16, <\/i>2332.<\/p>\n

In media<\/strong><\/p>\n

For ISRAPS bulletin, July 2005 Issue. Article title: Colorimetric sensors for fluoride ion. Authors: D. Amilan Jose, D. Krishna Kumar, Bishwajit Ganguly and Amitava Das<\/p>\n","protected":false},"excerpt":{"rendered":"

87. Designing Stimuli-Responsive Supramolecular Gels by Tuning the Non-Covalent Interactions of the Functional Groups, G. Kuppadakkath, I. Volkova and Krishna K. Damodaran Gels, 2024, 10(9), 584. 86. Single Crystal to Single Crystal Transformation of Porous Materials based on Zinc Nodes and Mercaptobenzoic Acid, B. Kristinsson, M. Janiw, Krishna K. Damodaran ChemPlusChem, 2024, e202400351. 85. Analysing […]<\/p>\n","protected":false},"author":1273,"featured_media":0,"parent":614,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-133","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/uni.hi.is\/krishna\/wp-json\/wp\/v2\/pages\/133","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/uni.hi.is\/krishna\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/uni.hi.is\/krishna\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/uni.hi.is\/krishna\/wp-json\/wp\/v2\/users\/1273"}],"replies":[{"embeddable":true,"href":"https:\/\/uni.hi.is\/krishna\/wp-json\/wp\/v2\/comments?post=133"}],"version-history":[{"count":83,"href":"https:\/\/uni.hi.is\/krishna\/wp-json\/wp\/v2\/pages\/133\/revisions"}],"predecessor-version":[{"id":695,"href":"https:\/\/uni.hi.is\/krishna\/wp-json\/wp\/v2\/pages\/133\/revisions\/695"}],"up":[{"embeddable":true,"href":"https:\/\/uni.hi.is\/krishna\/wp-json\/wp\/v2\/pages\/614"}],"wp:attachment":[{"href":"https:\/\/uni.hi.is\/krishna\/wp-json\/wp\/v2\/media?parent=133"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}