Your search keyword '"Dash, Soumya Ranjan"' showing total 8 results

1. Exploring Unconventional σ-Hole Interactions: Computational Insights into the Interaction of XeO3 with Non-Aromatic Coordinating Solvents.

Author

Dash, Soumya Ranjan and Vanka, Kumar

Published

2024

2. Enhancing Diradical Character of Chichibabin's Hydrocarbon through Fluoride Substitution.

Author

Kundu, Gargi, Dash, Soumya Ranjan, Kumar, Ravi, Vanka, Kumar, Ghosh, Aryya, and Sen, Sakya S.

Subjects

*HYDROCARBONS, *BAND gaps, *DOUBLE bonds, *TETRAFLUOROBORATES

Abstract

In this work, 5‐SIDipp [SIDipp=1,3‐bis(2,6‐diisopropylphenyl)‐imidazolin‐2‐ylidene] (1) derived Chichibabin's hydrocarbon with an octafluorobiphenylene spacer (3) has been reported. The addition of two equivalents of 5‐SIDipp with decafluorobiphenyl in presence of BF3 gives the double C−F bond activated imidazolium salt with two tetrafluoroborate anions, 2. Further reduction of 2 gives the fluorine substituted 5‐SIDipp based Chichibabin's hydrocarbon, 3. Quantum chemical calculations suggested a singlet state of 3 with a singlet–triplet energy gap (ΔES‐T) of 3.7 kcal mol−1, which is substantially lower with respect to the hydrogen substituted NHC‐based Chichibabin's hydrocarbons (10.7 kcal mol−1, B3LYP). As a result, the diradical character (y) of 3 (y=0.62) is also noticeably higher than the hydrogen substituted CHs (y=0.41–0.43). The ▵ES‐T was found to be higher in CASSCF (22.24 kcal mol−1) and CASPT2 (11.17 kcal mol−1) for 3 and the diradical character (d) is 44.6 %. [ABSTRACT FROM AUTHOR]

Published

2023

3. Six‐Membered NHC Stabilized Monomeric Zinc Complexes.

Author

Gour, Kritika, Kundu, Gargi, Dash, Soumya Ranjan, Vanka, Kumar, Tothadi, Srinu, and Sen, Sakya S.

Subjects

ZINC compounds, DOUBLE bonds, INVESTIGATION reports

Abstract

This paper describes the rare use of a 6‐membered saturated N‐heterocyclic carbene (NHC) known as 1,3‐di(2,6‐diisopropylphenyl) tetrahydropyrimidine‐2‐ylidene (abbreviated as 6‐SIDipp) as a ligand in zinc chemistry. We report on the investigation of the reactions between 6‐SIDipp and ZnX2, which resulted in a range of new monomeric 6‐SIDipp⋅ZnX2 complexes (X=Et (1), Cl (2), Br (3), and I (4)). We also prepared a new NHC zinc complex where the two substituents of the zinc atom are different, 6‐SIDipp⋅Zn(Et)Br (7) through the reaction of the proligand [6‐SIDippH]Br with ZnEt2. We have observed that the reactions of complex 1 with sulfur and HBpin led to the removal of the ZnEt2 moiety, resulting in the formation of a C=S double bond and a B−H activation product, respectively. Lastly, the reaction of 1 with five‐membered NHCs led to the exchange of carbene and the formation of either 5‐IDipp⋅ZnEt2 (8) or 5‐SIDipp⋅ZnEt2 (9). [ABSTRACT FROM AUTHOR]

Published

2023

4. Glycerol‐Triazole Conjugated Rhodamine as Colorimetric and Fluorimetric Sensor for Cu2+.

Author

Verma, Abhishek, Gahlyan, Parveen, Bawa, Rashim, Dash, Soumya Ranjan, Prasad, Ashok K., and Kumar, Rakesh

Subjects

DETECTORS, RHODAMINE B, FAST ions, BINDING constant, RHODAMINES, METALS testing, METAL ions

Abstract

A glycerol‐triazole tethered rhodamine based colorimetric and fluorimetric sensor 3′,6′‐bis(diethylamino)‐2‐(((1‐(1,3‐dihydroxypropan‐2‐yl)‐1H‐1,2,3‐triazol‐4‐yl)methylene)aminospiro [isoindoline‐1,9′‐xanthen]‐3‐one (L1) is designed and synthesized for the selective recognition of Cu2+ ion. The sensor L1 allows naked eye detection of Cu2+ ion with a fast response (<1 min). Among the various metal ions tested, the sensor L1 shows selective binding with Cu2+ through turn‐on fluorescence mechanism. The sensor shows 1 : 2 binding stoichiometry with binding constant, Ka=1.1×106 M−2 as revealed by job's plot & Benesi‐Hildebrand plot (B−H plot), respectively. The detection limit of L1 with Cu2+ ion is found to be 3.3 μM. Further, the experimental results are also validated using density functional theoretical (DFT) study. The optimized geometries indicates that the formation of the L1‐Cu2+ complex is thermodynamically favourable by ΔG=−11.7 kcal/mol. The HOMO‐LUMO gap of the ligand L1 is found to be 3.49 eV, which decreases to 1.76 eV upon complexation with copper. [ABSTRACT FROM AUTHOR]

Published

2021

5. Five concomitant polymorphs of a green fluorescent protein chromophore (GFPc) analogue: understanding variations in photoluminescence with π‐stacking interactions.

Author

Mali, Bhupendra P., Dash, Soumya Ranjan, Nikam, Shrikant B., Puthuvakkal, Anisha, Vanka, Kumar, Manoj, Kochunnoonny, and Gonnade, Rajesh G.

Subjects

*GREEN fluorescent protein, *STACKING interactions, *PHOTOLUMINESCENCE, *MOLECULAR interactions, *CELL imaging, *SMART materials, *MOLECULAR association

Abstract

The synthetically modified green fluorescent protein chromophore analogue 3,4,5‐trimethoxybenzylidene imidazolinone (1) yielded five polymorphs (I, II, III, IV, V) concomitantly irrespective of the solvent used for crystallization. The pentamorphic modification of 1 is solely due to the interplay of iso‐energetic weak intermolecular interactions in molecular associations as well as the conformational flexibility offered by a C—C single bond, which connects the electron‐deficient moiety imidazolinone with the electron‐rich trimethoxybenzylidene group. A common structural feature observed in all the polymorphs is the formation of a 'zero‐dimensional' centrosymmetric dimeric unit through a short and linear C—H...O hydrogen bond engaging phenyl C—H and imidazolinone carbonyl oxygen. However, the networking of these dimeric units showed a subtle difference in all the polymorphs. The 2D isostructurality was observed between polymorphs I, II and III, while the other two polymorphs IV and V revealed only 'zero‐dimensional' isostructurality. The different fluorescence emissions of Form I (blue) and Forms II to V (yellow) were attributed to the differences in π‐stacking interactions. It shows that one can modulate the photophysical properties of these smart materials by slightly altering their crystal structure. Such an approach will aid in developing new multi‐colour organic fluorescent materials of varying crystal structures for live‐cell imaging and fluorescent sensing applications. [ABSTRACT FROM AUTHOR]

Published

2020

6. A Tale of Biphenyl and Terphenyl Substituents for Structurally Diverse Ketiminato Magnesium, Calcium and Germanium Complexes.

Author

Kumar, Rohit, Yadav, Sandeep, Gour, Kritika, Sangtani, Ekta, Dash, Soumya Ranjan, Raja, Abhishekram, Vanka, Kumar, Gonnade, Rajesh G., and Sen, Sakya S.

Subjects

CALCIUM, GERMANIUM, MAGNESIUM, TERPHENYL, DIPHENYL, RING-opening reactions

Abstract

In this paper, we have used two N,O‐ketiminato ligands (L1 and L2) with biphenyl and terphenyl substituent on the nitrogen atom. Deprotonation of L1 with KN(SiMe3)2 and subsequent reaction with MgI2 led to a homoleptic dinuclear magnesium complex (1) with a Mg2O2 four‐membered ring. Deprotonation with nBuLi and subsequent reaction with MgI2 afforded a unusual dinuclear magnesium complex (2) with a Mg2O2 ring. Extension of the ligand for calcium resulted in a trinuclear calcium complex (3) with six four‐membered Ca2O2 rings. We could not isolate any chelating complex when L2 was used as a ligand, and only oxygen bound magnesium (4) and calcium (5) adducts were isolated. DFT studies were performed to understand this dissimilar behavior. More diverse results were obtained when lithiated L1 and L2 were treated with germanium dichloride. We were able to stabilize a monomeric germylene monochloride (7) with L1. However, with L2, an unusual ligand scrambling, and a C−C coupling take place, leading to the formation of a secondary carbocation with GeCl3‐ as a counter‐anion (8). Besides, a germanium dichloride adduct (9) bound to the oxygen center of the ligand was obtained as the minor product. [ABSTRACT FROM AUTHOR]

Published

2020

7. A Multifunctional Biomimicking Oxidovanadium(V) Complex: Synthesis, DFT Calculations, Bromo‐peroxidation and DNA Nuclease Activities.

Author

Palmajumder, Eshita, Dash, Soumya Ranjan, Mitra, Joyee, and Mukherjea, Kalyan K.

Subjects

*DNA, *GEL electrophoresis, *MEASUREMENT of viscosity, *GLYCINE, *BROMINATION, *DENSITY functional theory, *BINDING constant

Abstract

An oxidovanadium(V) complex [VO(SGly)(bpy)]ClO4 (H2SGly=N‐(2‐hydroxybenzyl)‐L‐glycine; bpy=2,2′‐bipyridine) was synthesized and characterized by spectroscopic studies (IR, UV‐vis, ESI‐MS). The theoretical structure of the complex was optimized by density functional theory (DFT) calculations. The multifunctionality of this oxidovanadium complex was demonstrated by the application of it as a catalyst in peroxidative bromination of single‐pot conversion of phenol red to bromophenol blue, whereas its nuclease activity was established by DNA cleavage. The interaction of this oxidovanadium complex with DNA was studied by various physicochemical tools like UV‐vis, fluorescence, and viscosity measurement studies. The intrinsic binding constant of the complex with DNA was determined spectrophotometrically and calculated to be (2.3 ± 0.02) x 104 M−1. The spectroscopic studies and the viscosity measurements indicate that the complex binds to the groove of CT‐DNA, but whether to the major or minor groove that was not established. The extent of vanadium complex induced DNA cleavage was studied by gel electrophoresis techniques. The complex was found to promote cleavage of pUC19 plasmid DNA from the super coiled (SC DNA) form I to nicked coiled (NC DNA) relaxed form II. [ABSTRACT FROM AUTHOR]

Published

2018

8. Glycerol‐Triazole Conjugated Rhodamine as Colorimetric and Fluorimetric Sensor for Cu2+.

Author

Verma, Abhishek, Gahlyan, Parveen, Bawa, Rashim, Dash, Soumya Ranjan, Prasad, Ashok K., and Kumar, Rakesh

Subjects

*DETECTORS, *RHODAMINE B, *FAST ions, *BINDING constant, *RHODAMINES, *METALS testing, *METAL ions

Abstract

A glycerol‐triazole tethered rhodamine based colorimetric and fluorimetric sensor 3′,6′‐bis(diethylamino)‐2‐(((1‐(1,3‐dihydroxypropan‐2‐yl)‐1H‐1,2,3‐triazol‐4‐yl)methylene)aminospiro [isoindoline‐1,9′‐xanthen]‐3‐one (L1) is designed and synthesized for the selective recognition of Cu2+ ion. The sensor L1 allows naked eye detection of Cu2+ ion with a fast response (<1 min). Among the various metal ions tested, the sensor L1 shows selective binding with Cu2+ through turn‐on fluorescence mechanism. The sensor shows 1 : 2 binding stoichiometry with binding constant, Ka=1.1×106 M−2 as revealed by job's plot & Benesi‐Hildebrand plot (B−H plot), respectively. The detection limit of L1 with Cu2+ ion is found to be 3.3 μM. Further, the experimental results are also validated using density functional theoretical (DFT) study. The optimized geometries indicates that the formation of the L1‐Cu2+ complex is thermodynamically favourable by ΔG=−11.7 kcal/mol. The HOMO‐LUMO gap of the ligand L1 is found to be 3.49 eV, which decreases to 1.76 eV upon complexation with copper. [ABSTRACT FROM AUTHOR]

Published

2021