Publications on "Proton Conduction"
[14] "Proton Conduction via Water and Ammonia Coordinated Metal Cationic Species in MOF and MHOF Platforms"
B. Pramanik,‖ R. Sahoo,‖ Y. Yoshida,‖ A. K. Manna, H. Kitagawa*, and M. C. Das* (‖equally contributed)
[13] "Room Temperature Superprotonic Conductivity beyond 10–1 S cm–1 in a Co(II) Coordination Polymer"
S. C. Pal,‖ D. Mukherjee,‖ Y. Oruganti,‖ B. G. Lee,‖ D.-W. Lim, B. Pramanik, A. K. Manna and M. C. Das* (‖equally contributed)
J. Am. Chem. Soc. 2024, 146, 14546-14557 (Impact Factor: 15.0)
[12] "pH-stable MOFs: Design Principles and Applications"
B. Pramanik,‖ R. Sahoo,‖ and M. C. Das* (‖equally contributed)
[11] "Coordinated Water Molecules Induced Solid-State Superprotonic Conduction by a Highly Scalable and pH-Stable Coordination Polymer (CP)"
R. Sahoo,‖ S. Luo,‖ N. K. Pendyala,‖ S. Chand, Z.-H. Fu, and M. C. Das* (‖equally contributed)
[10] "Solid-State Proton Conduction Driven by Coordinated Water Molecules in Metal-Organic Frameworks and Coordination Polymers"
R. Sahoo, S. C. Pal, and M. C. Das*
ACS Energy Letters 2022, 7, 4490-4500. (Impact Factor: 22.0)
[9] "Proton Conducting Hydrogen-bonded Organic Frameworks (HOFs)"
S. C. Pal‖, D. Mukherjee‖, R. Sahoo‖, S. Mondal‖, and M. C. Das* (‖equally contributed)
[8] "Covalent-Organic Frameworks (COFs) as Proton Conductors"
R. Sahoo‖, S. Mondal‖, S. C. Pal‖, D. Mukherjee‖, and M. C. Das* (‖equally contributed)
Advanced Energy Materials 2021, 11, 2102300. (Impact Factor: 27.8)
[7] "Superprotonic Conductivity of MOFs and Other Crystalline Platforms beyond 10-1 S cm-1"
S. C. Pal and M. C. Das*
Advanced Functional Materials 2021, 31, 2101584. (Impact Factor: 19.92)
[6] "A 2D Mg(II)-MOF with High Density of Coordinated Waters as Sole Intrinsic Proton Sources for Ultrahigh Superprotonic Conduction"
S. Chand‖, S. C. Pal‖, D.-W. Lim, K. Otsubo, A. Pal, H. Kitagawa* and M. C. Das* (‖ equally contributed)
ACS Materials Lett. 2020, 2, 1343-1350. (Impact Factor: 11.4)
[5] "A Co(II)-Coordination Polymer for Ultrahigh Superprotonic Conduction: An atomistic Insight through Molecular Simulations and QENS Experiments"
S. C. Pal, S. Chand, A. G. Kumar, P. G. M. Mileo, I. Silverwood, G. Maurin, S. Banerjee, S. M. Elahi and M. C. Das*
J. Mater. Chem. A 2020, 8, 7847 - 7853. (Impact Factor: 11.9)
[4] "A Phosphate-based Silver-bipyridine 1D Coordination Polymer with Crystallized Phosphoric acid as Superprotonic Conductor"
A. Pal, S. C. Pal, K. Otsubo, D.-W. Lim, S. Chand, H. Kitagawa and M. C. Das*
Chem. Eur. J. 2020, 26, 4607-4612. (Selected as HOT Paper) (Impact Factor: 5.02)
[3] "Metal Organic Frameworks and Other Crystalline Materials for Ultrahigh Superprotonic Conductivities of 10-2 S cm-1 or Higher"
S. Chand, S. M. Elahi, A. Pal and M. C. Das*
Chem. Eur. J. 2019, 25, 6259-6269. (Selected as Reviews Showcase) (Impact Factor: 5.02)
[2] "Metalo Hydrogen-Bonded Organic Frameworks (MHOFs) as New Class of Crystalline Materials for Protonic Conduction"
S. Chand, S. C. Pal, A. Pal, Y. Ye, Q. Lin, Z. Zhang, S. Xiang and M. C. Das*
Chem. Eur. J. 2019, 25, 1691-1695. (Selected as HOT Paper) (Impact Factor: 5.02)
[1] “Polycarboxylates Templated Coordination Polymers: Role of Templates for Superprotonic Conductivities up to 10-1 S cm-1”
S. M. Elahi‖ , S. Chand‖ , W.-H. Deng‖, A. Pal and M. C. Das* (‖equally contributed)
Angew. Chem., Int. Ed. 2018, 57, 6662-6666. (Impact Factor: 16.6)