2025 |
Neha Thakur, Naina Rajak, Neha Garg, Pankaj Kandwal, Rampal Pandey |
Exploring dual-channel ion detection and theoretical insights: Chromone-based colorimetric receptor for Cu2+and its Zn(II)-complex as ultrasensitive fluorescent probe for Ag+ and Fe3+ |
Journal of Molecular Structure |
SCIE |
Q2 |
4.0 |
2024 |
Oumayma Abdessadak, Pankaj Kandwal, Marwa Alaqarbeh, Kamal Tabti, Abdelouahid Sbai, Mohammed Aziz Ajana, Tahar Lakhlifi & Mohammed Bouachrine |
Exploring azomethine ylides reactivity with acrolein through cycloaddition reaction and computational antiviral activity assessment against hepatitis C virus, 30 (23) |
Journal of Molecular Modeling |
SCIE |
Q3 |
2.1 |
2024 |
Aarti Sharma, Nidhi Sharotri, Pankaj Kandwal, Rakesh Kumar Sharma, Dhiraj Sud, Ritu Rai & Anna Hnydiuk-Stefan |
Exploring the twin potential of nanostructured TiO2:SeO2 as a promising visible light photocatalyst and selective fluorosensing platform, 14 (13677) |
Scientific Reports |
Scopus |
Q1 |
4.6 |
2024 |
Priti Bansal, Anju Saini, Parmjeet Kaur, Paramjeet Kaur, Santosh Kumar, Pankaj Kandwal & Valeria Ferretti |
Harnessing of non-covalent interaction in novel [Ni(en)3](2-chlorophenylacetate)2 second sphere complex: Synthesis, characterization, single crystal structural, DFT, and Hirshfeld surface analysis, |
Structural Chemistry |
SCIE |
Q3 |
2.1 |
2023 |
Neha Thakur, Pankaj Kandwal, and Rampal Pandey |
Development of a Thiophene–Thiophene π-Conjugate Ultrasensitive Fluorescent Probe for Heavy-Metal Ions via Discrete Signaling: DFT Studies and Mechanistic Insights, 62, 33, 12864–12879 |
Industrial and Engineering Chemical Research (ACS) |
SCIE |
Q1 |
3.8 |
2022 |
Gagandeep Kaur, Komal, Pankaj Kandwal, Dhiraj Sud |
Sonochemically synthesized Zn (II) and Cd (II) based metal-organic frameworks as fluoroprobes for sensing of 2,6-dichlorophenol. Vol. 319 |
Journal of Solid State Chemistry |
SCI |
Q2 |
3.656 |
2022 |
Gagandeep Kaur, Apoorva Anthwal, Pankaj Kandwal, Dhiraj Sud |
Mechanochemical synthesis and theoretical investigations of Fe (II) based MOF containing 4,4′-bipyridine with ordained intercalated p-aminobenzoic acid: Application as fluoroprobe for detection of carbonyl group. Vol.545 |
Inorganica Chimica Acta |
SCI |
Q2 |
3.118 |
2022 |
Kriti Bijalwan, Pankaj Kandwal, Jyoti Rawat, Aditi Kainthola, Mohit Sharma, Himani Sharma, Archana Mishra, Charu Dwivedi |
DFT Supported Experimental Investigation of Strain Induced Interfacial Modification in Au-Ag Bimetallic Nanoparticles Coated on Activated Sand. |
Applied Surface Science Advances |
Scopus |
Q2 |
CiteScore 1.2 |
2022 |
Asha Joshi, Zafar Iqbal, Pankaj Kandwal, Saroj Ranjan De |
Pd(II)−Catalyzed Non-Directed Benzylic C(sp3)−H Activation: Cascade C(sp3)−S Bond Cleavage to Access Benzaldehydes from Benzylphenyl Sulfides and Sulfoxides. doi.org/10.1002/ajoc.202200400 |
Asian Journal of Organic Chemistry |
SCIE |
Q1 |
3.116 |
2022 |
Shriniwas Gurjar, Sonia Ratnani, Pankaj Kandwal, Kamal Kant Tiwari, Sushil Kumar Sharma |
Experimental and theoretical studies of 1-Benzyl pyridazinium bromide as green inhibitor for mild steel corrosion. Vol. 2 |
e-Prime - Advances in Electrical Engineering, Electronics and Energy |
Other |
Q4 |
- |
2021 |
Neha Kapoor, Pankaj Kandwal, Gaurav Sharma, Lokesh Gambhir |
Redox ticklers and beyond: Naphthoquinone repository in the spotlight against inflammation and associated maladies. Vol. 174 |
Pharmacological Research |
Scopus |
Q1 |
10.334 |
2021 |
Anju Saini, Raj Pal Sharma, Parmjeet Kaur, Priti Bansal, Bal Krishan, Paramjeet Kaur, Valeria Ferretti, Pankaj Kandwal |
Synthesis, characterization, X-ray structural analysis, DFT and BSA binding study of novel Zn(II) complex, [Zn(II)Cl2(nia)2].2nia. Vol. 74(16)( |
Journal of Coordination Chemistry |
SCI |
Q3 |
1.869 |
2021 |
Charu Negi, Pankaj Kandwal, Himani Sharma, Gautam Dalapati, Charu Dwivedi |
Carbon-doped Titanium Dioxide Nanoparticles for Visible Light Driven Photocatalytic Activity. Vol. 554 |
Applied Surface Science |
SCI |
Q1 |
7.392 |
2021 |
Rohit Kumar, Seraj A. Ansari, Pankaj Kandwal, P.K. Mohapatra |
Europium(III) permeation through a flat sheet supported liquid membrane containing CMPO with iso-decanol phase modifier: Experimental and modeling studies. Vol. 168 |
Chemical Engineering Research and Design |
Scopus |
Q1 |
4.119 |
2021 |
Rohit Kumar, S.A. Ansari, Pankaj Kandwal, P.K. Mohapatra |
Selective permeation of 90Y from a mixture of 90Y/90Sr through diglycolamide impregnated supported liquid membranes. Vol. 170 |
Applied Radiation and Isotopes |
SCIE |
Q3 |
1.787 |
2020 |
Deepshikha Painuly, R. Singhal, P. Kandwal, I. M. Nagpure |
Structural, Optical and Decay Properties of Zinc(II) 8-Hydroxyquinoline and Its Thin Film. Vol. 49 |
Journal of Electronic Materials |
SCI |
Q3 |
2.047 |
2020 |
Rohit Kumar, Seraj A. Ansari, Pankaj Kandwal, Prasanta K. Mohapatra |
Pertraction of U(VI) through liquid membranes using monoamides as carrier ligands: experimental and theoretical studies. Vol. 323 |
Journal of Radioanalytical and Nuclear Chemistry |
SCI |
Q2 |
1.754 |
2019 |
Lokesh Gambhir, Vineet Sharma, Pankaj Kandwal, Sanjai Saxena |
Perturbation in cellular redox homeostasis: Decisive regulator of T cell mediated immune responses. Vol. 67 |
International Immunopharmacology |
SCI |
Q2 |
5.714 |
2018 |
Deepshikha Painuly, Navin Kumar Mogha, R. Singhal, P. Kandwal, Dhanraj T. Masram, María Eugenia Rabanal, I.M. Nagpure |
The modification in the photo–physical properties via transformation of synthetic dihydrated Znq2 to anhydrous (Znq2)4 tetramer by sublimation process. Vol. 82 |
Optical Materials |
Scopus |
Q2 |
3.754 |
2016 |
Seraj A. Ansari, Prasanta K. Mohapatra, Pankaj Kandwal, and Willem Verboom |
Diglycolamide-Functionalized Calix[4]arene for Am(III) Recovery from Radioactive Wastes: Liquid Membrane Studies Using a Hollow Fiber Contactor. Vol. 55 |
Ind. Eng. Chem. Res. |
SCI |
Q1 |
4.326 |
2016 |
S.A. Ansari, N. Kumari, D.R. Raut, P. Kandwal, P.K. Mohapatra |
Comparative dispersion-free solvent extraction of Uranium (VI) and Thorium (IV) by TBP and dialkyl amides using a hollow fiber contactor. Vol. 159 |
Separation and Purification Technology |
SCI |
Q1 |
9.136 |
2014 |
Pankaj Kandwal, Prasanta Kumar Mohapatra |
A highly efficient solvent system containing chlorinated cobalt dicarbollide in NPOE-Dodecane mixture for effective transport of radio-cesium from acidic wastes. Vol. 469 |
Journal of Membrane Science |
SCI |
Q1 |
10.53 |
2014 |
Pankaj Kandwal and Prasanta Kumar Mohapatra |
Evaluation of a novel and efficient solvent system containing chlorinated cobalt dicarbollide for radio-cesium recovery from acidic wastes. Vol. 102(9) |
Radiochim. Acta |
SCI |
Q3 |
2.083 |
2013 |
D.N. Ambare, S.A. Ansari, M. Anitha, P. Kandwal, D.K.Singh, H.Singh |
Non-dispersive solvent extraction of neodymium using a hollow fiber contactor: Mass transfer and modelling studies. Vol. 446 |
Journal of Membrane Science |
SCI |
Q1 |
10.53 |
2013 |
Ajay B. Patil, Pankaj Kandwal, V. S. Shinde, P. N. Pathak, P.K.Mohapatra |
Evaluation of DMDOHEMA based supported liquid membrane system for high level waste remediation under simulated conditions. Vol. 442 |
Journal of Membrane Science |
SCI |
Q1 |
10.53 |
2013 |
Pankaj Kandwal and P. K. Mohapatra |
A Novel Liquid Emulsion Membrane Containing TODGA as the Carrier Extractant for Am Recovery from Acidic Wastes. Vol. 48 |
Sep. Sci. Technol. |
SCI |
Q1 |
2.799 |
2013 |
Prasanta K. Mohapatra, Pankaj Kandwal, Mudassir Iqbal, Jurriaan Huskens, Mallekav S. Murali and Willem Verboom |
A novel CMPO-functionalized task specific ionic liquid: Synthesis, extraction and spectroscopic investigations of actinide and lanthanide complexes. Vol. 42 |
Dalton Transaction |
SCI |
Q1 |
4.569 |
2013 |
S.A. Ansari, P.K. Mohapatra, M. Iqbal, P. Kandwal, J. Huskens, W. Verboom |
Novel diglycolamide-functionalized calix[4]arenes for actinide extraction and supported liquid membrane studies: Role of substituents in the pendent arms and mass transfer modeling. Vol. 430 |
Journal Membrane Science |
SCI |
Q1 |
10.53 |
2012 |
S. Panja, P.K. Mohapatra, P. Kandwal, S.C. Tripathi |
Uranium(VI) pertraction across a supported liquid membrane containing a branched diglycolamide carrier extractant: Part III Mass transfer modeling. Vol. 285 |
Desalination |
SCI |
Q1 |
11.211 |
2012 |
D.R. Raut, P. Kandwal, G. Rebello, P.K. Mohapatra |
Evaluation of polymer inclusion membranes containing calix[4]-bis-2,3-naptho-crown-6 for Cs recovery from acidic feeds: Transport behavior, morphology and modeling studies. Vol. 407– 408 |
Journal of Membrane Science |
SCI |
Q1 |
10.53 |
2010 |
S. Panja, P.K. Mohapatra, P. Kandwal, S.C. Tripathi, V.K. Manchanda |
Pertraction of plutonium in the +4 oxidation state through a supported liquid membrane containing TODGA as the carrier. Vol. 262 |
Desalination |
SCI |
Q1 |
11.211 |
2011 |
S. A. Ansari, R. B. Gujar, P. K. Mohapatra, P. Kandwal, A. Sengupta, S. K. Thulasidas and V. K. Manchanda |
A ‘cold’ actinide partitioning run at 20 L scale with hollow fibre supported liquid membrane using diglycolamide extractants. Vol. 99 |
Radiochim. Acta |
SCI |
Q3 |
2.083 |
2011 |
A. Bhattacharyya, S. A. Ansari, P. Kandwal, P. K. Mohapatra, and V. K. Manchanda |
Selective Recovery of Am(III) over Eu(III) by Hollow Fiber Supported Liquid Membrane Using Cyanex 301 in the Presence of Synergists as the Carrier. Vol.46 |
Sep. Sci. Technol. |
SCI |
Q2 |
2.799 |
2012 |
P. Kandwal, S.A. Ansari and P.K. Mohapatra |
A Highly Efficient Supported Liquid Membrane System for Near Quantitative Recovery of Radio-strontium from Acidic Feeds: Part II. Scale up and Mass Transfer Modeling in Hollow Fiber Configuration. Vol. 405-406 |
Journal of Membrane Science |
SCI |
Q1 |
10.53 |
2011 |
P. Kandwal, S.A. Ansari and P.K. Mohapatra |
Transport of cesium using hollow fiber supported liquid membrane containing calix[4]arene-bis(2,3-naphtho)crown-6 as the carrier extractant: Part II. Recovery from simulated high level waste and mass transfer modeling. Vol. 384 |
Journal of Membrane Science |
SCI |
Q1 |
10.53 |
2011 |
P. Kandwal, S. Dixit, S. Mukhopadhyay, and P.K. Mohapatra |
Mass transport modeling of Cs(I) through hollow fiber supported liquid membrane containing calix-[4]-bis(2,3-naptho)-crown-6 as the mobile carrier. Vol. 174 |
Chemical Engineering Journal |
SCI |
Q1 |
16.744 |
2011 |
P. Kandwal, S. Dixit, S. Mukhopadhyay, P.K. Mohapatra, V.K. Manchanda |
Mathematical modeling of Cs(I) transport through flat sheet supported liquid membrane using calix-[4]-bis(2,3-naptho)-18-crown-6 as the mobile carrier. Vol. 278 |
Desalination |
SCI |
Q1 |
11.211 |
2011 |
P. Kandwal, S.A. Ansari, P.K. Mohapatra and V.K. Manchanda |
Separation of carrier free 90Y from 90Sr by hollow fiber supported liquid membrane containing bis(2-ethylhexyl) phosphonic acid. Vol. 46(6) |
Sep. Sci. Technol. |
SCI |
Q2 |
2.799 |
2010 |
P. Kandwal, P.K. Mohapatra, S.A. Ansari and V.K. Manchanda |
Selective cesium transport using hollow fibre supported liquid membrane containing calix[4]arene-bis-napthocrown-6 as the carrier extractant. Vol. 98 |
Radiochim. Acta |
SCI |
Q3 |
2.083 |