Publications on "Gas Storage & Gas Separations"
[20] "A Chemically Robust Microporous Zn-MOF for C2H2 Separation from CO2 and Industrially Relevant Four Component Gas Mixtures"
B. Pramanik, R. Sahoo, R. Krishna, and M. C. Das* (‖equally contributed)
[19] "Remarkable C2H4 Separation at Ambient Condition with a Chemically Sturdy Porous MOF through Pore Confinement"
S. C. Pal,‖ J. X. Wang,‖ D. Mukherjee, B. Li*, and M. C. Das* (‖equally contributed)
Chemical Engineering Journal 2024, 500, 157054 (Impact Factor: 13.3)
[18] "A Microporous Water Stable MOF for Consistent and Selective C2H2/C2H4 Separation"
A. Pal,‖ S. C. Pal,‖ H. Cui,‖ R.-B. Lin, D. Singha, M. K. Rana, B. Chen*, and M. C. Das* (‖equally contributed)
Separation and Purification Technology 2023, 320, 124208 (Impact Factor: 8.6)
[17] "Highly Scalable Acid-Base Resistant Cu-Prussian Blue Metal-Organic Framework for C2H2/C2H4, Bio Gas, and Flue Gas Separations"
S. C. Pal, R. Krishna* and M. C. Das*
Chemical Engineering Journal 2023, 460, 141795 (Impact Factor: 15.1)
[16] "Potential of a pH-Stable Microporous MOF for C2H2/C2H4 and C2H2/CO2 Gas Separations under Ambient Conditions"
S. C. Pal, R. Ahmed, A. K. Manna, and M. C. Das*
[15] "MOFs for CO2 Separation from Flue and Biogas Mixtures"
R. Sahoo, S. Mondal,‖ D. Mukherjee,‖ and M. C. Das* (‖equally contributed)
Advanced Functional Materials 2022, 32, 2207197. (Impact Factor: 19.92)
[14] "C2s/C1 Hydrocarbon Separation: The Major Step towards Natural Gas Purification by Metal-Organic Frameworks (MOFs)"
R. Sahoo and M. C. Das*
[13] "Immobilization of a Polar Sulfone Moiety onto the Pore Surface of a Humid Stable MOF for Highly Efficient CO2 Separation under Dry and Wet Environment through Direct CO2-Sulfone Interactions"
A. Pal, S. Chand, D. G. Madden, D. M. Franz, L. Ritter, B. Space, T. Curtin, S. C. Pal and M. C. Das*
ACS Appl. Mater. Interface. 2020, 12, 41177-41184. (Impact Factor: 9.5)
[12] "A ‘Thermodynamically Stable’ 2D Ni‐MOF over a Wide pH Range with Scalable Preparation for Efficient C2s over C1 Hydrocarbon Separations"
R. Sahoo, S. Chand, M. Mondal, A. Pal, S. C. Pal, M. K. Rana and M. C. Das*
[11] "Two Closely Related Zn(II)-MOFs for Their Large Difference in CO2 Uptake Capacities and Selective CO2 Sorption"
S. Chand‖, A. Pal‖, R. Saha, P. Das, R. Sahoo, P. K. Chattaraj* and M. C. Das* (‖equally contributed)
[10] "A Microporous Co-MOF for Highly Selective CO2 Sorption in High Loadings Involving Aryl C–H...O=C=O Interactions: Combined Simulation and Breakthrough Studies"
A. Pal, S. Chand, D. Madden, D. Franz, L. Ritter, A. Johnson, B. Space, T. Curtin and M. C. Das*
[9] "Three Co(II)-MOFs with Diverse Architectures for Selective Gas Sorption and Magnetic Studies"
A. Pal, S. Chand, J. C. Boquera, F. Lloret, J.-B. Lin, S. C. Pal and M. C. Das*
[8] "Two 2D Microporous MOFs based on Bent Carboxylates and Linear Spacer for Selective CO2 Adsorption"
A. Pal, A. Mitra, S. Chand, J.-B. Lin and M. C. Das*
CrystEngComm, 2019, 21, 535-543. (Impact Factor: 3.1)
[7] “A Moisture‐Stable 3D Microporous Co(II)‐Metal–Organic Framework with Potential for Highly Selective CO2 Separation under Ambient Conditions”
S. Chand, A. Pal and M. C. Das*
Chem. Eur. J. 2018, 24, 5982-5986. (Impact Factor: 5.02)
[6] "A Trifunctional Luminescent 3D Microporous MOF with Potential for CO2 Separation, Selective Sensing of a Metal Ion, and Recognition of a Small Organic Molecule"
S. Chand, A. Pal, S. C. Pal and M. C. Das*
Eur. J. Inorg. Chem. 2018, 2785-2792. (Impact Factor: 2.55)
[5] “A 3D Microporous MOF with mab Topology for Selective CO2 Adsorption and Separation”
A. Pal, J.-B. Lin, S. Chand and M. C. Das*
Chemistry Select 2018, 3, 917-921. (Impact Factor: 2.30)
[4] “A Water Stable Two-Fold Interpenetrating Microporous MOF for Selective CO2 Adsorption and Separation”
A. Pal, S. Chand and M. C. Das*
Inorg. Chem. 2017, 56, 13991-13997. (Impact Factor: 4.6)
[3] “A Microporous MOF with Polar Pore Surface Exhibiting Excellent Selective Adsorption of CO2 from CO2-N2 and CO2-CH4 Gas Mixture with High CO2 Loading”
A. Pal, S. Chand, S. M. Elahi and M. C. Das*
Dalton Trans. 2017, 46, 15280-15286. (Impact Factor: 4.0)
[2] “A New Set of Cd(II)˗Coordination Polymers with Mixed Ligand of Dicarboxylate and Pyridyl Substituted Diaminotriazine: Selective Sorption Towards CO2 and Cationic Dye”
S. Chand, S. M. Elahi, A. Pal and M. C. Das*
Dalton Trans. 2017, 46, 9901-9911. (Impact Factor: 4.0)
[1] “Structural Variation of Transition Metal Coordination Polymers Based on Bent Carboxylate and Flexible Spacer Ligand: Polymorphism, Gas Adsorption and SC-SC Transmetallation”
A. Pal, S. Chand, S. Senthilkumar, S. Neogi* and M. C. Das*
CrystEngComm. 2016, 18, 4323-4335. (Impact Factor: 3.1)