Chinthapalli Dinesh Kumar scite author profile

Chinthapalli Dinesh Kumar

2Publications

28Citation Statements Received

82Citation Statements Given

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Affiliations

Indian Institute of Chemical Technology

Publications

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Investigation of Anion−π Interactions Involving Thiophene Walls Incorporated Calix[4]pyrroles

Kumar¹,

Sirisha²,

Dhaked

et al. 2015

J. Org. Chem.

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Thiophene containing "two-wall" aryl extended calix[4]pyrroles were synthesized for the first time, through acid catalyzed condensation of 2-acetylthiophenes with pyrrole. Isomeric "two-walled" calix[4]pyrroles (8a-10a and 8b-10b) were obtained in satisfactory yields and their halide anion binding strengths were investigated in the solution phase by (1)H NMR and in the gas phase by computational methods and mass spectrometry. Change in the chemical shifts of thiophene -CH-protons during the course of NMR titrations entailed participation of the thiophene rings in anion binding; this fact was further substantiated by computational methods. The α,α-(cis)-isomers (8a, 9a, and 10a) showed strong binding toward F(-) and Cl(-) anions when compared to their isomeric α,β-(trans)-isomer (8b, 9b, and 10b). In both isomers, binding with F(-) anion was found to be stronger than that with Cl(-) anion. Both the solution-phase and gas-phase results revealed that the thiophene rings stabilize the anions through anion-π interactions.

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Evaluating the cation binding strength and selectivity of calix[4]pyrroles: a computational and ESI-MS/MS study

Kumar

Sharma

Soujanya

et al. 2014

Phys. Chem. Chem. Phys.

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The cation binding strength of calix[4]pyrroles in the gas phase has been evaluated by computational studies and further substantiated by ESI mass spectrometry experiments. The DFT optimized geometries of [CP + X](+) complexes are found to be stable in a 1,3-alternate conformation through cation-π interactions and interestingly CPs are found to be better cation receptor than calix[4]arenes. The binding energy values of [CP + X](+) complexes computed at B2PLYP/TZVP//M05-2X/TZVP follows the binding order, Li(+) > Na(+) > K(+) > Rb(+) > Cs(+). The diameter of Li(+) matches very well with the cavity size of CP and thus is optimally disposed to interact simultaneously with all four pyrrole rings through multiple cation-π interactions. However, other cations, due to the increase in their size, drift away from the cavity center towards the rim of the cavity exhibiting weak cation-π interactions. Energy decomposition analysis (EDA) reveals that the electrostatic and polarization effects act as the major driving force in these interactions. The important outcome of the current study is that the stability of precursor and product ions is found to be crucial in the experimental evaluation of binding affinity of Li(+) and Na(+) complexes of CP. The ESI-MS/MS experiments on the cation complexes of different substituted CPs revealed that the binding strength of CPs towards cations is also dependant on the substituents at the meso-position.

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