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Publications

        Journal Publications

     2026

  • Kharabe, L. S.; Sahu, B.; Kumar, R.; Raghuvanshi, A., Appl. Phys. Lett. 2026, 128, 103303.

                Three-coordinated Cu(I) Complexes for Electrochromic Devices with High Coloration Efficiency

  • Pandey, D.; Chand, S.; Yadav, R. K.; Rajamalli, P.; Raghuvanshi, A., Chem. Asian J. 2026, 21, e70628.

               Diphenylpyridyl Amine Substituted Phosphorescent Cu (I)‐Halide Complexes: Reversible Mechanochromism and Aggregation‐Induced                         Emission Properties

     

     2025

  • Mishra, S.; Saini, Meena, A.; Kharabe, L. S.; Mishra, A.; Mahiya, K.; Raghuvanshi, A., Cryst. Growth Des. 2025, 25, 10346.

                Solvent- and Stoichiometry-Controlled Assembly and Mechanoresponsive Behaviour of Carbazole-pyrimidine Derived Cu(I) Coordination                         Polymers

  • Kharabe, L. S.; Pannu, J.; Viau, L.; Ghosh, S.; Raghuvanshi, A., Eur. J. Inorg. Chem. 2025, 28, e202500319.

               Three‐Coordinated Heteroleptic Cu (I) Complexes with Bulky Phosphine Ligands: Influence of Substituents on Photophysical Properties

  • Kharabe, L. S.; Chaudhari, K.; Mishra, A.; Raghuvanshi, A., J. Organomet. Chem. 2025, 1041, 123841.

               Mono- and Bimetallic Cu(I) Complexes: Ligand-directed Emission and Solvatochromism

  • Mishra, S.; Patel, C.; Pandey, D.; Ponvijaykanthan, L.; Annadata, H. V.; Jaiswal, N. K.; Mukherjee S.; Raghuvanshi, A., Small 2025, 21, 2412633.                                                                                                                                                             2D Ionic Conducting Copper(I) MOF in Chemiresistive Sensing of NO2

  • Pandey, D.; Samarth, T.; Verma, V. K.; Patel, C.; Ponvijaykanthan, L.; Jaiswal, N. K.; Mukherjee S.; Raghuvanshi, A., J. Mater. Chem. A 2025, 13, 11416.                                                                                                                           Two-dimensional Cu(i)-MOF with Mesoporous Architecture Towards Chemiresistive NO2 Sensing

  • Mishra, A.; Pandey, D.; Maurya, S. K.; Raghuvanshi, A., CrystEngComm 2025, 27, 2462.

                 Sunlight-driven Photocatalytic Degradation of Organic Dyes using Cu(i) Coordination Polymers: An Efficient and Recyclable Solution for                   Wastewater Remediation

  • Pandey, D.; Patel, C.; Mishra, S.; Yadav, L.; Halba, D.; Pakhira, S.; Mukherjee S.; Raghuvanshi, A., Small 2025, 21, 2409553.

                 Semiconducting Cu(I) Framework for NO2 sensing via efficient charge transfer

  • Kharabe, L. S.; Sahu, B.; Mishra, S.; Kumar, R.; Raghuvanshi, A. Chemphotochem 2025, e202400354.

                 Redox Dependent Color Modulating Copper(I) Complex for Flexible Electrochromic Device

 

     2024

  • Pandey, D.; Samarth, T.; Kharabe, L. S.; Mishra, A.; Raghuvanshi, A. Luminescence 2024, 39, e4876. 

           Manifesting the Multi-Stimuli Responsive Behaviour of Triazole Substituted Triphenylamine

  • Pandey, D.; Singh, M.; Mishra, S.; Rai, D.; Raghuvanshi, A. J. Mater. Chem. A 2024, 12, 27355

           2D Layered Semiconducting (LCu3I3)n Coordination Polymer for Energy Storage through Dual Ion Intercalation

  • Pandey, D.; Mishra, A.; Kharabe, L. S.; Maurya, S. K.; Raghuvanshi, A. Cryst. Growth Des. 2024, 24, 6051. 

           Semiconducting Copper(I) Iodide 2D-Coordination Polymers for Efficient Sunlight-Driven Photocatalysis in Dye Degradation

  • Pandey, D.; Patel, C.; Mishra, S.; Mukherjee S.; Raghuvanshi, A. ACS Appl Nano mater. 2024, 13, 15833. 

           Semiconducting 2D Copper(I) Framework for Sub-ppb-Level Ammonia Sensing

  • Kharabe, L. S.; Ghosh, T.; Pandey, D.; Kumar, R.; Raghuvanshi, A. Appl. Organomet. Chem. 2024, 38, e7451.

               Heteroleptic Cu(I) Complex with Vapoluminescence and its Application as Electrochromic Material

  • Mishra, S.; Patel, C.; Pandey, D.; Mukherjee S.; Raghuvanshi, A. Small 2024, 2311448. 

              Semiconducting 2D Copper (I) Iodide coordination polymer as a potential chemiresistive sensor for methanol

  • Mishra, S.; Singh, M.; Pandey, D.; Rai D.; Raghuvanshi, A. J. Mater. Chem. A 2024, 12, 4534-4543. 

               Two-dimensional semiconducting Cu(I)-MOF coordination polymer for binder and conductive additive-free supercapattery

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     2023

               Solvatochromic behaviour of cyclic dithioether-functionalized triphenylamine ligands and their mechano-responsive Cu(I) coordination                    polymers

               Copper(I) iodide coordination polymers with triazole substituted pyridine ligands: Photophysical and electrical conductivity properties

               Mechanistic insights and comparative analysis of Ru(ii)–NNC pincer complexes with anionic-, protic-, and classical-NHCs for transfer                         hydrogenation of ketones

                Ru (II) Complexes with Protic‐and Anionic‐Naked‐NHC Ligands for Cooperative Activation of Small Molecules

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     2021

               Electron compensating fragmentation of phenylethynyl ferrocenyltelluride in reactions with homoleptic metal carbonyls of Cr, Mo, W, Fe                 and Ru: Synthesis and structure of Te stabilized clusters

               Synthesis of [(CO)5MS=CFcCH3] and Exploration of the Nature of M-S vs. M-O Bonds in [(CO)5ME=CFcCH3]; (M = Cr, Mo, W and E                = O, S) Complexes

               Scope of Ferrocene in Cathodic Materials of Lithium-Ion Batteries (LIBs): A Review

               The structural landscape of ferrocenyl polychalcogenides

               Crystal structures of 9-[bis (benzylsulfanyl) methyl] anthracene and of cyclo-dodecakis (μ2-phenylmethanethiolato-κ2S:                                         S)hexapalladium(6 Pd—Pd)–anthracene-9, 10-dione (1/1)

  • Ji, R. S.; Raghuvanshi, A.; Jha, B.; Mathur, P. J. Organomet. Chem. 2021, 938, 121755

               Reactions of [Ru6(μ6-C)(C6H5CH3)(CO)14]: Synthesis of some new Ru-Pt carbonyl clusters and diphosphine substitution

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    2012 - 2020 

                 Crystal structure of 2-[bis (benzylsulfanyl) methyl]-6-methoxyphenol

  • Raghuvanshi, A.; Knorr, M.; Knauer, L.; Strohmann, C.; Boullanger, S.; Moutarlier, V.; Viau L. Inorg. Chem. 2019, 58, 5735-5775. 

                 1,3-Dithianes as Assembling Ligands for the Construction of Copper(I) Coordination Polymers. Investigation of the Impact of the                           RC(H)S2C3H6 Substituent and Reaction Conditions on the Architecture of the 0D–3D Networks

                Coordination behaviour of  2-(Methylthio)pyrazine with Ag(I) in the presence of different counter anions and emission properties 

  • Singh, A.; Kumari, P.; Raghuvanshi, A.; Mobin, S. M.; Mathur, P. Appl. Organomet. Chem. 2018, 32, e4071.

                Ferrocene-substituted bis(ethynyl)-anthracene compounds as anticancer agents

  • Raghuvanshi, A.; Strohmann, C.; Tissot, J.-B.; Clement, S.; Mehdi, A.; Richeter, S.; Viau, L.; Knorr, M. Chem. Eur. J. 2017, 23, 16479-16483. 

                 Assembly of Coordination Polymers using Thioether-Functionalized Octasilsesquioxanes. Occurrence of (CuX)n Clusters (X = Br and I)                    within 3D-POSS Networks

  • Raghuvanshi, A.; Singh, A. K.; Mobin, S. M.; Mathur, P. Chemistry Select 2017, 2, 9245-9248.

                 Fe(CO)5 catalyzed [2+2+1] cycloaddition of alkyne, carbodiimide and CO for the synthesis of 5-iminopyrrolones

  • Raghuvanshi, A.; Nakaw, H.; Knorr, M.; Viau, L.; Knauer, L.; Strohmann, C. J. Inorg. Organomet. Polym. Mat. 2017, 27, 1501-1513.

                1,3-Dithiolane and 1,3-Ferrocenyl-dithiolane as assembling ligands for the construction of Cu(I) clusters and coordination polymers

  • Jha, B.; Raghuvanshi, A.; Joshi, R. K.; Mobin, S. M.; Mathur, P. Appl. Organomet. Chem. 2017, 31, e3805. 

               A photochemical route to the synthesis of ferrocenyl substituted ferrapyrrolinone and its conversion to maleimides.

  • Mathur, P.;Ji, R. S.; Raghuvanshi, A.; Tauqeer, M.; Mobin, S. M. J. Organomet. Chem. 2017, 835, 31-38. 

                Cleavage of phosphorus-sulfur bond and formation of (μ4-S)Fe4 core from photochemical reactions of Fe(CO)5 with [(RO)2PS2]2; (R =                  Me, Et, iPr)

  • Mishra, V.; Raghuvanshi, A.; Saini, A. K.; Mobin, S. M. J. Organomet. Chem. 2016, 813, 103-109.

                Anthracene derived dinuclear gold(I) diacetylide complexes: synthesis, photophysical properties and supramolecular interaction

  • Mathur, P.; Raghuvanshi, A.; Mobin, S. M. J. Organomet. Chem. 2015, 794, 266-273.

                Reactivity of 1,2,3-triselena[3]ferrocenophane towards transition metal carbonyls

  • Torubaev, Yu. V.; Pavlova, A. V.; Pasynskii, A. A.; Raghuvanshi, A.; Mobin, S. M. Russ. J. Coord. Chem. 2015, 41, 638-643.      Oxidation of ferrocene and 1,1’-ferrocene triselenide by bromine and phenyltellurium tribromide

  • Mathur, P.; Raghuvanshi, A.; Ji, R. S.; Mobin, S. M. J. Organomet. Chem. 2013, 731, 55-60.

                 Reaction of ruthenium phenyl acetylide with iron-chalcogen clusters and iron pentacarbonyl

  • Mathur, P.; Jha, B.; Raghuvanshi, A.; Joshi, R. K.; Mobin, S. M. J. Organomet. Chem. 2012, 712, 7-14.

                 Photolytic reaction of substituted (ethynyl)benzaldehyde and Fe(CO)5: Formation of indenone and chelated iron complexes

  • Mathur, P.; Ji, R. S.; Rai, D. K.; Raghuvanshi, A.; Mobin, S. M. J. Cluster Sci. 2012, 23, 615-625. 

                 Role of Sulfur in Influencing Contrasting Reactivity of Acetylene Bonds in 1-Ferrocenyl-4-phenyl-1,3-butadiyne in Cluster Forming                          Reaction

        Book Chapter

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