{"id":28,"date":"2023-11-04T17:16:51","date_gmt":"2023-11-04T17:16:51","guid":{"rendered":"https:\/\/www-cxcp1.tifrh.res.in\/~riteshhaldar\/?page_id=28"},"modified":"2023-11-07T17:31:41","modified_gmt":"2023-11-07T17:31:41","slug":"publications","status":"publish","type":"page","link":"https:\/\/www.tifrh.res.in\/~riteshhaldar\/?page_id=28","title":{"rendered":"Publications"},"content":{"rendered":"<p>[et_pb_section fb_built=&#8221;1&#8243; _builder_version=&#8221;4.23&#8243; _module_preset=&#8221;default&#8221; custom_padding=&#8221;4px|||||&#8221; global_colors_info=&#8221;{}&#8221;][et_pb_row _builder_version=&#8221;4.23&#8243; _module_preset=&#8221;default&#8221; border_width_bottom=&#8221;1px&#8221; border_color_bottom=&#8221;#e2e2e2&#8243; global_colors_info=&#8221;{}&#8221;][et_pb_column type=&#8221;4_4&#8243; _builder_version=&#8221;4.23&#8243; _module_preset=&#8221;default&#8221; global_colors_info=&#8221;{}&#8221;][et_pb_post_title meta=&#8221;off&#8221; featured_image=&#8221;off&#8221; _builder_version=&#8221;4.23&#8243; _module_preset=&#8221;default&#8221; global_colors_info=&#8221;{}&#8221;][\/et_pb_post_title][\/et_pb_column][\/et_pb_row][et_pb_row _builder_version=&#8221;4.23&#8243; _module_preset=&#8221;default&#8221; global_colors_info=&#8221;{}&#8221;][et_pb_column type=&#8221;4_4&#8243; _builder_version=&#8221;4.23&#8243; _module_preset=&#8221;default&#8221; global_colors_info=&#8221;{}&#8221;][et_pb_code _builder_version=&#8221;4.23&#8243; _module_preset=&#8221;default&#8221; custom_css_free_form=&#8221;ol li{line-height:2;margin-bottom: 20px;}||li p{display: inline;}&#8221; hover_enabled=&#8221;0&#8243; sticky_enabled=&#8221;0&#8243;]<\/p>\n<ol reversed=\u201c\u201d><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2022<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">Z. M. Hassan, P. G. Weidler, A. Nefedov, Y. Luo, S. Heissler, M. Tsosalas, <b>R. Haldar<\/b>,* and C. Woell, <i><b>&#8220;Spectroscopic Investigation of Bianthryl-based Metal-organic Framework Thin Films and Their Photoinduced Topotactic Transformation&#8221;,<\/b><\/i><a href=\"https:\/\/onlinelibrary.wiley.com\/doi\/full\/10.1002\/admi.202102441\">Adv. Mater. Interfaces. 2022, 2102441<\/a><\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">M. Mostaghimi, C. R. C. Rego, <b>R. Haldar<\/b>, C. Woell, W. Wenzel and M. Kozlowska, <i><b>&#8220;Automated Virtual design of Organic Semiconductors Based on Metal-Organic Frameworks&#8221;,<\/b><\/i><a href=\"https:\/\/www.frontiersin.org\/articles\/10.3389\/fmats.2022.840644\/full\">Frontiers in Materials. 2022, DOI: 10.3389\/fmats.2022.840644<\/a><\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2021<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">X. Liu, A. Mazel, S. Marschner, Z. Fu, M. Muth, F. Kirchhoefer, G. Brenner-Weiss, S. Braese, S. Diring, F. Odobel, <b>R. Haldar<\/b>* and C. Woell <i><b> &#8220;Photoinduced Delamination of Metal-organic Framework Thin Films by Spatioselective Generation of Reactive Oxygen Species&#8221;,<\/b><\/i><a href=\"\"> ACS. Appl. Mater. Interfaces. 2021, DOI:10.1021\/acsami.1c16173<\/a><\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">S. Karmakar, A. Ghosh, K. Prasad, F. A. Rahimi, D. Rambabu, <b>R. Haldar<\/b>, and T. K. Maji, <i><b> &#8220;Multicolour Lanthanide(III) Porous 1D Coordination Polymers: Tunable Wide Spectrum Emission and Efficient Cu(II) Sensing&#8221;,<\/b><\/i><a href=\"\"> Dalton. Trans. 2021, DOI:10.1039\/D1DT01860D<\/a><\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">A. Nefedov,<b># R. Haldar<\/b>,# Z. Xu, H. Kuehner, D. Hofmann, D. Goll, B. Sapotta, S. Hecht, M. Kritic, C. Rockstuhl, W. Wenzel, S. Braese, P. Tegeder, E. Zojer and C. Woell, <i><b> &#8220;Avoiding The Center-symmetry Trap: Programmed Assembly of Dipolar Precusors into Porous, Crystalline Molecular Thin Films&#8221;,<\/b><\/i><a href=\"https:\/\/pubmed.ncbi.nlm.nih.gov\/34291511\/\">Adv. Mater. 2021, DOI:10.1002\/adma.202103287<\/a><\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"> S. Laha,<b># R. Haldar<\/b>,# N. Dwarkanath, S. Bonakala, A. Sharma, A. Hazra, S. Balasubramanian and T. K. Maji, <i><b> &#8220;A Dynamic Chemical Clip in Supramolecular Framework for Sorting Alkylaromatic Isomers using Thermodynamic and Kinetic Preferences&#8221;,<\/b><\/i>Angew. Chem., Int. Ed. 2021<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\u201cjustify\u201d><b> R.Haldar <\/b>,* H. Chen, A. Mazel, D.-H. Chen, G. Gupta, N. Dua, S. Diring, F. Odobel and C. W\u00f6ll, <i><b>\u201dAntenna Doping: The Key for Achieving Efficient Optical Wavelength Conversion in Crystalline Chromophoric Heterolayers,\u201d<\/b><\/i> Adv. Mater. Interfaces. 2021, 2100262<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\u201cjustify\u201d><b> R.Haldar <\/b>, F. A. Rahimi, A. Hazra and T. K. Maji, <i><b>\u201cCoordination Driven Self-assembly of Donor-Acceptor Linkers in 3D Supramolecular Frameworks: Ground State Charge Transfer and Tunable Porosity&#8221;<\/b><\/i> Mat. Res. Bull. 2021, 111388,<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\u201cjustify\u201d><b> R.Haldar <\/b>,M. Kozlowska, M. Ganschow, S. Ghosh, M. Jakoby, H. Chen, F. Ghalami, W. Xie, S. Heidrich, Y. Tsutsui, J. Freudenberg, S. Seki, I. A. Howard, B. S. Richards, U. H.F. Bunz, M. Elstner, W. Wenzel and C. W\u00f6ll, <i><b>\u201cInterplay of Structural Dynamics and Electronic Effects in an Engineered Assembly of Pentacene in a Metal-organic Framework\u201d<\/b><\/i> Chem. Sci. 2021, 12, 4477-4483 <\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\u201cjustify\u201d>S. Marschner, <b> R.Haldar <\/b>, O. Fuhr, C. W\u00f6ll and S. Br\u00e4se, <i><b>\u201cModular Synthesis of trans-A2B2-Porphyrins with Terminal Esters \u2013 Systematically Extending the Scope of Linear Linkers for Porphyrin-based MOFs\u201d<\/b><\/i> Chem. Eur. J. 2021, 27, 1390-1401<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\u201cjustify\u201d><b> R.Haldar <\/b> and C. W\u00f6ll, <i><b>\u201cHierarchical Assemblies of Molecular Frameworks- MOF-on-MOF Epitaxial Heterostructures\u201d<\/b><\/i>  Nano Research, 2021, 14, 355-368 <\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2020<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">B. Sen, J. Santos, <b> R.Haldar <\/b>, Q. Zhang, T. Hashem, P. Qin, Y. Li, F. Kirschh\u00f6fer, G. Brenner-Weiss, H. Gliemann, L. Heinke, C. Barner-Kowollik, A. Knebel and C. W\u00f6ll, <i><b>\u201cIntroducing Electrical Conductivity to Metal-organic Framework Thin Films by Templated Polymerization of Methyl Propiolate\u201d<\/b><\/i> Nanoscale. 2020, 12, 24419-24428<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">Y. Pramudya, M. Kozlowska, M. Jakoby, S. Heidrich, L. Pan, B. S. Richards, I. A Howard, C. W\u00f6ll, <b> R.Haldar <\/b>* and W. Wenzel, <i><b>\u201cCrystalline Assembly of Perylene in Metal-Organic Thin Film: J-Aggregate or Excimer? An insight From Electronic Structure\u201d<\/b><\/i> J. Phys: Condens. Matter. 2020, 33, 034001<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><pee>(Invited contribution in special issue as a corresponding author)<\/pee><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">A. Windischbacher, L. Steiner, <b> R.Haldar <\/b>, C. W\u00f6ll, E. Zojer and A.-M. Kelterer, <i><b>\u201cExciton Coupling and Conformational Changes Impacting the Excited State Properties of Metal organic Frameworks\u201d<\/b><\/i> Molecules. 2020, 25, 4230<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>,* M. Jakoby, M. Kozlowska, M. R. Khan, H. Chen, Y. Pramudya, B. S. Richards, L. Heinke, W. Wenzel, F. Odobel, S. Diring, I. A. Howard, U. Lemmer and C. W\u00f6ll, <i><b>\u201cTuning Optical Properties by Controlled Aggregation: Electroluminescence Assisted by Thermally-Activated Delayed Fluorescence from Thin Films of Crystalline Chromophores\u201d<\/b><\/i> Chem. Eur. J. 2020, 26, 17016-17020<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>,* Z.-H. Fu, R. Joseph, D. Herrero, L. Mart\u00edn-Gomis, B. S. Richards, I. A. Howard, A. Sastre-Santos and C. W\u00f6ll, <i><b>\u201cGuest-Responsive Polaritons in Porous Framework: Chromophoric Sponges in Optical QED Cavities\u201d<\/b><\/i> Chem. Sci. 2020, 11,7972-7978<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">N. Sikdar, A. Hazra, D. Samanta, <b> R.Haldar <\/b> and T. K. Maji,<i><b> \u201cGuest-Responsive Reversible Electron Transfer in a Crystalline Porous Framework Supported by Dynamic Building Node\u201d<\/b><\/i> Angew. Chem. Int. Ed.  2020, 59, 18479-18484<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, L. Heinke and C. W\u00f6ll, <i><b>\u201cAdvanced Photoresponsive Materials Using Metal-Organic Framework Approach\u201d<\/b><\/i> Adv. Mater. 2020, 32, 1905227 <\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, S. Bhattacharya and T. K. Maji,<i><b> \u201cLuminescent Metal-Organic Frameworks and their Potential Applications\u201d<\/b><\/i> J. Chem. Sci. 2020, 132, 99<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2019<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>,# K. Batra,# S. M. Marschner, A. B. Kuc, S. Zahn, R. A. Fischer, S. Br\u00e4se, T. Heine and C. W\u00f6ll, <i><b>\u201cBridging the Green Gap:  MOF Hetero-multilayers Assembled from Porphyrinic Linkers Identified Using Computational Screening\u201d<\/b><\/i> Chem. Eur. J. 2019, 25, 7847-7851<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"> D.-H. Chen, <b> R.Haldar <\/b>, B.L Neumeier, Z.-H. Fu, C. Feldman, C. W\u00f6ll, and E. Redel,<i><b>\u201cTunable Emission in Heteroepitaxial Ln-SURMOFs\u201d<\/b><\/i> Adv. Funct. Mater. 2019, 29, 1903086<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, A. Mazel, M. Krsti\u0107, Q. Zhang, M. Jakoby, I. A. Howard, B. S. Richards, N. Jung, D. Jacquemin, S. Diring, W. Wenzel, F. Odobel and C. W\u00f6ll, <i><b>\u201cA de novo Strategy for Predictive Crystal Engineering to Tune Excitonic Coupling\u201d<\/b><\/i> Nat. Commun. 2019, 10, 2048<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, K. Prasad, A. Hazra and T. K. Maji, <i><b>\u201cAdaptive and Guest Responsive Supramolecular Porous Framework: Solvent Modulated Energy Transfer towards Fingerprint Sensing\u201d<\/b><\/i> Cryst. Growth. Des. 2019, 19, 1514-1517<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">M. Adams, M. Kozlowska, N. Baroni, M. Oldenburg, R. Ma, D. Busko, A. Turshatov, G. Emandi, M. Senge, <b> R.Haldar <\/b>, C. W\u00f6ll, G. U. Nienhause, B. S. Richards and I. A. Howard, <i><b>\u201cHighly Efficient 1D Triplet Exciton Transport in a Palladium-porphyrin Based Surface-anchored Metal-organic Framework\u201d<\/b><\/i> ACS Appl. Mater. Interfaces. 2019, 11, 15688-15697<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2018<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"> <b> R.Haldar <\/b>,# B. Sen,# S. Hurrle, T. Kitao, R. Sankhla, B. K\u00fchl, A. Welle, S. Heissler, G. B.-Wei\u00df, P. Thiessen, T. Uemura, H. Gliemann, C. B.-Kowollik, and C. W\u00f6ll, <i><b>\u201cOxidative Polymerization of Terthiophene and a Substituted Thiophene Monomer in Metal-Organic Framework Thin Films\u201d<\/b><\/i> Eur. Poly. J. 2018, 109, 162-168<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">Y. Y. Wang, S. M. Chen, <b> R.Haldar <\/b>, C. W\u00f6ll, Z. G. Gu and J. Zhang, <i><b>\u201cvan der Waals Epitaxial Growth of 2D Metal-Porphyrin Framework Derived Thin Films for Dye-Sensitized Solar Cells\u201d<\/b><\/i> Adv. Mater. Interfaces. 2018, 5, 1800985<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>,*# M. Jakoby,# A. Mazel, Q. Zhang, A. Welle, T. Mohamed, P. Krolla, W. Wenzel, S. Diring, F. Odobel, B. S. Richards, I. A. Howard and C. W\u00f6ll,<i><b> \u201cAnisotropic Energy Transfer in Crystalline Chromophore Assemblies\u201d<\/b><\/i> Nat. Commun. 2018, 9, 4332<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>,* S. Diring, P. K. Samanta, M. Muth, W. Clancy, A. Mazel, S. Schlabach, F. Kirchh\u00f6fer, G. B.-Wei\u00df, S. K. Pati, F. Odobel and C. W\u00f6ll, <i><b>\u201cEnhancing Selectivity and Kinetics in Oxidative Photocyclization by Supramolecular Control\u201d<\/b><\/i> Angew. Chem. Int. Ed.  2018, 57, 13662-13665<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">K. Prasad, D. Samanta, <b> R.Haldar <\/b> and T. K. Maji,<i><b>\u201cExcitation Energy Transfer Supported Amplified Charge-Transfer Emission in an Anthracenedicarboxylate-and Bipyridophenazine-based Coordination Complex\u201d<\/b><\/i> Inorg. Chem. 2018, 57, 2953-2956<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">M. Adams, N. Baroni, M. Oldenburg, F. Kraffert, J. Behrends, R. W. MacQeen, <b> R.Haldar <\/b>, D. Busko, A. Turshatov, G. Emandi, M. O. Senge, C. W\u00f6ll, K. Lips, B. S. Richards and I. A. Howard, <i><b>\u201cReaction of Porphyrin-based Surface Anchored Metal-organic Frameworks Caused by Prolonged Illumination\u201d <\/b><\/i>Phys. Chem. Chem. Phys. 2018, 20, 29142-29151<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">W. Guo, Z. M. Hasan, C. K\u00fcbel, <b> R.Haldar <\/b>, P. Weidler, S. Heissler, K. Peikert, M. Fr\u00f6ba, E. Redel and C. W\u00f6ll, <i><b>\u201cMOF-Templated Synthesis of 3D Bi2O3 Supracrystals with BCC Packing\u201d<\/b><\/i> Nanoscale. 2018, 10, 17099-17104<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">M. Oldenburg, A. Turshatov, D. Busko, M. Jakoby, <b> R.Haldar <\/b>, K. Chen, G. Emandi, M. O. Senge, C. W\u00f6ll, J. M. Hodgkiss, B. S. Richards and I. A. Howard, <i><b>\u201cEnhancing The Photoluminescence of Surface Anchored Metal-organic Frameworks: Mixed-linkers and Efficient Acceptors\u201d<\/b><\/i> Phys. Chem. Chem. Phys. 2018, 20, 11564-11576<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2017<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, A. Mazel, R. Joseph, M. Adams, I. A. Howard, B. S. Richards, M. Tsotsalas, E. Redel, S. Diring, F. Odobel and C. W\u00f6ll, <i><b>\u201cExcitonically Coupled States in Crystalline Coordination Networks\u201d<\/b><\/i> Chem. Eur. J. 2017, 23, 14316-14322<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">N. Baroni, A. Turshatov, M. Oldenburg, M. Adams, D. Busko, <b> R.Haldar <\/b>, A. Welle, E. Redel, C. W\u00f6ll, B. S. Richards and I. A. Howard, <i><b>\u201cFacile Loading of a Thin-Film Surface-Anchored Metal-organic Frameworks with Lewis-base Guest Molecules\u201d<\/b><\/i> Mater. Chem. Front. 2017, 1, 1888-1894<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2016<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">P. Kanoo,# <b> R.Haldar <\/b>,# S. K. Reddy,# A. Hazra,# S. Bonakala, R. Matsuda, S. Kitagawa, S. Balasubramanian and T. K. Maji. <i><b>\u201cCrystal Dynamics in Multi-stimuli Responsive Entangled Metal-Organic Frameworks\u201d<\/b><\/i> Chem. Eur. J. 2016, 22, 15864-15873<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">N. Sikdar, D. Dutta, <b> R.Haldar <\/b>, T. Ray, A. Hazra, A. J. Bhattacharya and T. K. Maji, <i><b>\u201cCoordination-driven Fluorescent J-aggregates in a Perylenetetracarboxylate-based MOF: Permanent Porosity and Proton Conductivity\u201d<\/b><\/i> J. Phys. Chem. C. 2016, 120, 13622-13629<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">N. Sikdar, S. Bonakala, <b> R.Haldar <\/b>, S. Balasubramanian and T. K. Maji, <i><b>\u201cDynamic Entangled Porous Framework for Hydrocarbon (C2-C3) Storage, CO2 Capture and Separation\u201d<\/b><\/i> Chem. Eur. J. 2016, 22, 6059-6070<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, M. Inukai, S. Horike, K. Uemura, S. Kitagawa and T. K. Maji, <i><b>\u201c113Cd NMR as a Probe of Structural Dynamics in a Flexible Porous Framework Showing Selective O2\/N2 and CO2\/N2 Adsorption\u201d<\/b><\/i> Inorg. Chem. 2016, 55, 4166-4172<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">K. V. Rao, <b> R.Haldar <\/b>, T. K. Maji and S. J. George, <i><b>\u201cDynamic, Conjugated Microporous Polymers&#8221;: Visible Light Harvesting via Guest Responsive Reversible Swelling\u201d<\/b><\/i> Phys. Chem. Chem. Phys. 2016, 18, 156-163<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">Y. Kim, <b> R.Haldar <\/b>, H. Kim, J. Koo and K. Kim, <i><b>\u201cThe Guest-Dependent Thermal Response of The Flexible MOF Zn2(BDC)2(DABCO)\u201d<\/b><\/i> Dalton Trans. 2016, 45, 4187-4192<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">G. Kumari, N. R. Patil, V. S. Bhadram, <b> R.Haldar <\/b>, S. Bonakala and T. K. Maji, <i><b>\u201cUnderstanding Guest and Pressure Induced Porosity Through Structural Transition in Flexible Interpenetrated MOF by Raman Spectroscopy\u201d<\/b><\/i> J. Raman. Spectroscopy. 2016, 47, 149-155<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2015<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, K. Prasad, P. K. Samanta, S. Pati and T. K. Maji, <i><b>\u201cLuminescent Metal-Organic Complexes of Pyrene or Anthracene Chromophores: Energy Transfer Assisted Amplified Exciplex Emission and Al3+ Sensing\u201d<\/b><\/i> Cryst. Growth. Des.  2015, 16, 82-91<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">J. Goura, J. P. S. Walsh, F. Tuna, <b> R.Haldar <\/b>, T. K. Maji and V. Chandrasekhar, <i><b>\u201cP-C Bond Cleavage-Assisted Lanthanide Phosphate Coordination Polymers\u201d<\/b><\/i> Cryst. Growth. Des. 2015, 15, 2555-2560<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, N. Sikdar and T. K. Maji,<i><b> \u201cInterpenetration in Coordination Polymers: Structural Diversities Toward Porous Functional Materials\u201d<\/b><\/i> Materials Today. 2015, 18, 97-116<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">K. Prasad, <b> R.Haldar <\/b> and T. K. Maji, <i><b>\u201cRational Design of a Pyrene Based Luminescent Porous Supramolecular Framework: Excimer Emission and Energy Transfer\u201d<\/b><\/i> RSC Advances. 2015, 5, 74986-74993<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">B. Bhattacharya, <b> R.Haldar <\/b>, D. K. Maity, T. K. Maji and D. Ghoshal, <i><b>\u201cPillared-Bilayer Porous Coordination Polymers of Zn(II): Enhanced Hydrophobicity of Pore Surface by Changing The Pillar Functionality\u201d<\/b><\/i> CrystEnggComm. 2015, 17, 3478-3486<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, K. L. Gurunatha, N. Sikdar and T. K. Maji, <i><b>\u201c1D Chains, 2D Networks and 3D Interdigitated Frameworks of Isorotic Acid or 4,4&#8242;-Bipyridyl and Isorotic Acid: Syntheses, Structures and Sorption Properties\u201d<\/b><\/i> Inorg. Chem. Front. 2015, 2, 278-289<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2014<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, R. Matsuda, S. Kitagawa, S. J. George and T. K. Maji, <i><b>\u201cAmine Responsive Adaptable Nanospaces: Fluorescent Porous Coordination Polymers for Molecular Recognition\u201d<\/b><\/i> Angew. Chem. Int. Ed. 2014, 53, 11772-11777<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, S. Bonakala, P. Kanoo, S. Balasubramanian and T. K. Maji, <i><b>\u201cTwo 3D Metal-Organic Frameworks of Cd(II): Modulation of Structures and Porous Properties Based on Linker Functionalities\u201d<\/b><\/i> CrystEngComm. 2014, 16, 4877-4885<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">K. V. Rao, <b> R.Haldar <\/b>, T. K. Maji and S. J. George,<i><b> \u201cPorous Polyimides from Polycyclic Aromatic Linkers: Selective CO2 Capture and Hydrogen Storage\u201d <\/b><\/i>Polymer. 2014, 55, 1452-1455<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, S. K. Reddy, V. M. Suresh, S. Mohapatra, S. Balasubramanian and T. K. Maji,<i><b> \u201cFlexible and Rigid Amine-Functionalized Microporous Frameworks Based on Different Secondary Building Units: Supramolecular Isomerism, Selective CO2 Capture, and Catalysis\u201d<\/b><\/i> Chem. Eur. J. 2014, 20, 4347-4356   <\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b> and T. K. Maji, <i><b>\u201cSynthesis and Structural Characterization of 1D and 2D Coordination Polymers Based on Flexible 1,3-Admantanediacetic Acid and Exo-bidentate Organic Linkers\u201d<\/b><\/i> Z. Anorg. Allg. Chem. 2014, 640, 1102-1108<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2013<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">B. Bhattacharya, <b> R.Haldar <\/b>, R. Dey, T. K. Maji and D. Ghoshal,<i><b> \u201cPorous Coordination Polymers Based on Functionalized Schiff Base Linkers: Enhanced CO2 Uptake by Pore Surface Modification\u201d<\/b><\/i> Dalton Trans. 2013, 43, 2272-2282 <\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">A. Chakraborty, <b> R.Haldar <\/b> and T. K. Maji,<i><b> \u201cBifunctional Co(II)-Ag(I) and Ni(II)-Ag(I) Frameworks: Modulation of Magnetic Property and CO2 Uptake Based on Organic pillars\u201d <\/b><\/i>Cryst. Growth Des. 2013, 13, 4968-4976<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">K. Jayaramulu, <b> R.Haldar <\/b> and T. K. Maji,<i><b> \u201cSelf-assembly of Tetrabromoterephthalic Acid with Different Metal System: Diversity in Dimensionalities, Structures and Gas Adsorption\u201d<\/b><\/i> Polyhedron, 2013, 52, 553-559<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b> and T. K. Maji, <i><b>\u201cMetal-organic frameworks (MOFs) Based on Mixed Linker Systems: Structural Diversities Towarsd Functional Materials\u201d<\/b><\/i> CrystEngComm. 2013, 15, 9276-9295 <\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2012<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b>, R. P. Narayan and T. K. Maji, <i><b>&#8220;Selective CO2 Uptake in a Bi-pillared Layer 3D Metal-organic Framework of ZnII,&#8221;<\/b><\/i> Indian J Chem, Sec A. 2012, 51A, 1231<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"> <b> R.Haldar <\/b>, K. V. Rao, S. J. George and T. K. Maji, <i><b>\u201cExciplex Formation and Energy Transfer in a Self-assembled Metal-Organic Hybrid System\u201d<\/b><\/i> Chem. Eur. J. 2012, 18, 5848-5852<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">K. V. Rao, <b> R.Haldar <\/b>, T. K. Maji and S. J. George, <i><b>\u201cPerylene Based Porous Polyimides: Tunable, High Surface area with Tetrahedral and Pyramidal Monomers\u201d<\/b><\/i> Chem. Mater. 2012, 24, 969-971<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"> P. Kar, <b> R.Haldar <\/b>, C. J. Gomez-Garcia and A. Ghosh, <i><b>\u201cAntiferromagnetic Porous Metal-organic Framework Containing Mixed Valance [MnII4MnIII2(\u03bc4-O)2]10+ Units with Catecholase Activity and Selective Gas Adsorption\u201d<\/b><\/i> Inorg. Chem. 2012, 51, 4265-4273<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">C. M. Nagaraja, <b> R.Haldar <\/b>, T. K. Maji and C. N. R. Rao <i><b>\u201cChiral Porous Metal-Organic Frameworks of CoII and NIII: Synthesis, Structure, Magnetic Properties and CO2 uptake\u201d<\/b><\/i> Cryst. Growth Des. 2012, 12, 975-981<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">P. Kanoo,# S. K. Reddy,# G. Kumari,# <b> R.Haldar <\/b>,# C. Naryana, S. Balasubramanian and T. K. Maji, <i><b>\u201cUnusual Room Temperature CO2 Uptake in a Fluoro-functionalized MOF: Insight From Raman Spectroscopy and Theoritical Studies\u201d<\/b><\/i> Chem. Commun. 2012, 48, 8487-8489<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"> <b> R.Haldar <\/b> and T. K. Maji <i><b>\u201cSelective Carbon Dioxide Uptake and Crystal-to-Crystal Transformation: Flexible Porous 3D Framework to 1D Chain Triggered by Conformational Change of the Spacer\u201d<\/b><\/i> CrystEngComm. 2012, 14, 684-690  <\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<h4>2011<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">P. Kanoo, <b> R.Haldar <\/b>, S. T. Cyriac and T. K. Maji, <i><b>\u201cCoordination Driven Axial Chirality in a Microporus Solid Assembled from an Achiral Linker via In Situ C-N Coupling\u201d<\/b><\/i> Chem. Commun. 2011, 47, 11038-11040  <\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\">R. Dey, <b> R.Haldar <\/b>, T. K. Maji and D. Ghoshal <i><b>\u201cThree-Dimensional Robust Porous Coordination Polymer with Schiff Base Site on the Pore Wall: Synthesis, Single-Crystal-to-Single-Crystal Reversibility, and Selective CO2 Adsorption\u201d<\/b><\/i> Cryst. Growth. Des., 2011, 11, 3905-3911<\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li><!-- [et_pb_line_break_holder] --><pee align=\"justify\"><b> R.Haldar <\/b> and T. K. Maji, <i><b>\u201cA Two-fold Interpenetrated Flexible bi-pillared-layer Framework of Fe(II) with Interesting Solvent Adsorption Property\u201d<\/b><\/i> J. Chem. Sci. 2011, 123, 883-890 <\/pee><!-- [et_pb_line_break_holder] --><\/li>\n<p><!-- [et_pb_line_break_holder] --><\/ol>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<ol><!-- [et_pb_line_break_holder] --><\/p>\n<h4>Book Chapter<\/h4>\n<p><!-- [et_pb_line_break_holder] --><\/p>\n<li>P. Kanoo, R. Haldar, P. Sutar, A. Chakraborty and T. K. Maji, Chapter 12: \u201cGated and Stepwise Sorption in Functional Metal-organic Frameworks\u201d in Functional Supramolecular Materials: From Surfaces to MOFs, Royal Society of Chemistry, 2017, 412-453<\/li>\n<p><!-- [et_pb_line_break_holder] --><\/ol>\n<p>[\/et_pb_code][\/et_pb_column][\/et_pb_row][\/et_pb_section]<\/p>\n","protected":false},"excerpt":{"rendered":"<p>2022Z. M. Hassan, P. G. Weidler, A. Nefedov, Y. Luo, S. Heissler, M. Tsosalas, R. Haldar,* and C. Woell, &#8220;Spectroscopic Investigation of Bianthryl-based Metal-organic Framework Thin Films and Their Photoinduced Topotactic Transformation&#8221;,Adv. Mater. Interfaces. 2022, 2102441M. Mostaghimi, C. R. C. Rego, R. Haldar, C. Woell, W. Wenzel and M. Kozlowska, &#8220;Automated Virtual design of Organic [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_et_pb_use_builder":"on","_et_pb_old_content":"","_et_gb_content_width":"","footnotes":""},"class_list":["post-28","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/www.tifrh.res.in\/~riteshhaldar\/index.php?rest_route=\/wp\/v2\/pages\/28","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.tifrh.res.in\/~riteshhaldar\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.tifrh.res.in\/~riteshhaldar\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.tifrh.res.in\/~riteshhaldar\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.tifrh.res.in\/~riteshhaldar\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=28"}],"version-history":[{"count":3,"href":"https:\/\/www.tifrh.res.in\/~riteshhaldar\/index.php?rest_route=\/wp\/v2\/pages\/28\/revisions"}],"predecessor-version":[{"id":45,"href":"https:\/\/www.tifrh.res.in\/~riteshhaldar\/index.php?rest_route=\/wp\/v2\/pages\/28\/revisions\/45"}],"wp:attachment":[{"href":"https:\/\/www.tifrh.res.in\/~riteshhaldar\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=28"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}