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Publications

Publications

20. Sinha, W.; Fridman, N.; Mahammed, A.; Gross, Z. Phosphorus Corroles: Tuning of Their Photophysical and Redox Properties via Axial Ligation and Macrocycle Modification. Isr. J. Chem.  2023, e202300036. [Link]

19. Mizrahi, A.; Bhowmik, S.; Manna, A. K.; Sinha, W.; Kumar, A.; Saphier, M.; Mahammed, A.; Patra, M.; Fridman, N.; Zilbermann, I; Kronik, L.; Gross, Z. Electronic Coupling and Electrocatalysis in Redox Active Fused Iron Corroles. Inorg. Chem. 202261, 20725-20733. [Link]

18. Sinha, W.; Mahammed, A.; Fridman, N.; Gross, Z., Water Oxidation Catalysis by Mono- and Binuclear Iron Corroles. ACS Catal2020, 10 (6), 3764-3772. [Link]

 

17.Sinha, W.; Mahammed, A.; Fridman, N.; Diskin-Posner, Y.; Shimon, L. J. W.; Gross, Z. Superstructured metallocorroles for electrochemical CO2 reduction. Chem. Commun. 2019, 55, 11912-11915[Link]

 

16. Sinha, W.; Mizrahi, A.; Mahammed, A.; Tumanskii, B.; Gross, Z., Reactive Intermediates Involved in Cobalt Corrole Catalyzed Water Oxidation (and Oxygen Reduction). Inorg. Chem. 2018, 57 (1), 478-485. [Link]

 

15.  Garai, A.; Sobottka, S.; Schepper, R.; Sinha, W.; Bauer, M.; Sarkar, B.; Kar, S., Chromium Complexes with Oxido and Corrolato Ligands: Metal-Based Redox Processes versus Ligand Non-Innocence. Chem. Eur. J. 2018, 24 (48), 12613-12622. [Link]

 

14. Sinha, W.; Sommer, M. G.; Hettmanczyk, L.; Patra, B.; Filippou, V.; Sarkar, B.; Kar, S., RutheniumRuthenium Bonded [Bis {corrolatoruthenium (III)}]n (n= 0,+ 1,1) Complexes: Model Compounds for the Photosynthetic Special Pair. Chem. Eur. J. 2017, 23 (10), 2396-2404. [Link]

 

13. Patra, B.; Sobottka, S.; Sinha, W.; Sarkar, B.; Kar, S. Frontispiece: Isovalent AgIII/AgIII, AgII/AgII, MixedValent AgII/AgIII, and CorrolatoBased MixedValency in β, β′Linked [Bis {corrolatosilver}] n Complexes. Chem. Eur. J. 2017, 23 (56), 13858-13863. [Link]

 

12.  Patra, B.; Patra, S. K.; Mukherjee, P.; Maurya, Y. K.; Sinha, W.; Kar, S., Grignard Reagent Mediated Demetallation of Silver Corrole Complexes. Eur. J. Inorg. Chem. 2017, 2017 (17), 2363-2368. [Link]

 

11. Sinha, W.; Sommer, M. G.; van der Meer, M.; Plebst, S.; Sarkar, B.; Kar, S., Structural, Electrochemical and Spectroelectrochemical Study on the Geometric and Electronic Structures of [(corrolato)AuIII]n (n = 0, +1, −1) Complexes. Dalton Trans. 2016, 45 (7), 2914-2923. [Link]

 

10. Sinha, W.; Sommer, M. G.; Deibel, N.; Ehret, F.; Bauer, M.; Sarkar, B.; Kar, S., Experimental and Theoretical Investigations of the Existence of CuII, CuIII, and CuIV in Copper Corrolato Complexes. Angew. Chem. Int. Ed. 2015, 54 (46), 13769-13774. (Hot Paper[Link]

 

9.  Sinha, W.; Ravotto, L.; Ceroni, P.; Kar, S., NIR-emissive iridium(III) corrole complexes as efficient singlet oxygen sensitizers. Dalton Trans. 2015, 44, 17767-17773. [Link] 

 

8.  Garai, A.; Kumar, S.; Sinha, W.; Purohit, C. S.; Das, R.; Kar, S., A comparative study of optical nonlinearities of trans-A2B-corroles in solution and in aggregated state. RSC Adv. 2015, 5 (36), 28643-28651. [Link]

 

7.   Sinha, W.; Sommer, M. G.; Deibel, N.; Ehret, F.; Sarkar, B.; Kar, S., Silver Corrole Complexes: Unusual Oxidation States and NearIRAbsorbing Dyes. Chem. Eur. J. 2014, 20 (48), 15920-15932. [Link]

 

6.  Sinha, W.; Kar, S., Reactions of Grignard Reagents with Tin-Corrole Complexes: Demetalation Strategy and σ-Methyl/Phenyl Complexes. Organometallics 2014, 33 (22), 6550-6556. [Link]

 

5.  Sinha, W.; Kumar, M.; Garai, A.; Purohit, C. S.; Som, T.; Kar, S., Semi-insulating behaviour of self-assembled tin(IV)corrole nanospheres. Dalton Trans. 2014, 43 (33), 12564-73. [Link]

 

4.   Sinha, W.; Deibel, N.; Agarwala, H.; Garai, A.; Schweinfurth, D.; Purohit, C. S.; Lahiri, G. K.; Sarkar, B.; Kar, S., Synthesis, Spectral Characterization, Structures, and Oxidation State Distributions in [(corrolato) FeIII(NO)]n (n= 0,+ 1,− 1) Complexes. Inorg. Chem. 2014, 53 (3), 1417-1429. [Link]

 

3.   Sinha, W.; Deibel, N.; Garai, A.; Schweinfurth, D.; Anwar, S.; Purohit, C. S.; Sarkar, B.; Kar, S., In-situ spectroelectrochemistry (EPR, UV–visible) and aggregation behavior of H2BDCP and Zn(II)BDCP [BDCP={5, 10, 15, 20-tetrakis [3, 4-(1, 4-dioxan) phenyl] porphyrin}2−]. Dyes Pigm. 2014, 107, 29-37. [Link]

 

2.  Garai, A.; Kumar, M.; Sinha, W.; Chatterjee, S.; Purohit, C. S.; Som, T.; Kar, S., Synthesis, electron transports, and charge storage properties of fullerene─zinc porphyrin hybrid nanodiscs. RSC Adv. 2014, 4, 64119-64127. [Link]

 

1.   Garai, A.; Nandy, P.; Sinha, W.; Purohit, C. S.; Kar, S., A New Synthetic Protocol for the Preparation of 5-Cyano-10, 15, 20-tris(alkoxyphenyl)porphyrins. Polyhedron 2013, 56, 18-23. [Link]

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