(*) denotes the corresponding author; (#) denotes equal contribution ; h-index (google scholar): 8
University of Massachusetts Amherst (Saha, post Ph.D. work)
13. “Influence of chain flexibility through grafting density control on morphologies of block bottlebrush copolymers ” (Co-Author)
Yu, H-J; Saha, D; Uchiyama, T; Ribbe, A; Carter, K and Watkins, J. J* (2024, under review)
12. “Opportunities in Bottlebrush Block Copolymers for Advanced Materials ” (Co-First Author)
Saha, D#; Witt, C#; Fatima, R; Uchiyama, T; Pande, V; Song, DP; Fei, HF; Yavitt, Benjamin and Watkins, J. J* ACS Nano, 2024 (Link)
11. “Probing Electrocatalytic Synergy in Graphene/MoS2/Nickel Networks for Water Splitting through a Combined Experimental and Theoretical Lens ” (First Author)
Saha, D; Bhardwaj, A; Wang, J; Pande, V; Hengstebeck, R; Bai, P*; and Watkins, J. J*, ACS Appl. Mater. Interfaces, 2024. (Link)
10. “Mesoporous Single Atom-Cluster Fe-N/C Oxygen Evolution Electrocatalysts Synthesized with Bottlebrush Block Copolymer-Templated Rapid Thermal Annealing ” (Co-First Author)
Saha, D#; Yu, H-J#; Wang, J; Prateek; Chen, X; Tang, C; Senger, C; Pagaduan, N. J; Katsumata, R; Carter, K; Zhou, G; Bai, P; Wu, N*; and Watkins, J. J*
ACS Appl. Mater. Interfaces, 16, (2024), 13729-13744. (Link)
9. “Surface Modified MXenes: Simulation to Potential Applications ”(First & Corresponding Author)
Saha, D*; Dalmeida, J; and Patel, V*.
ACS Appl. Electron. Mater., 5, (2023), 2933-2955. (Link) (Invited article)
McMaster University (Saha, Ph.D. work)
8. “Tuning the Chemical and Mechanical Properties of Conductive MoS2 Thin Films Using Aryl Diazonium Functionalization” (First Author)
Saha, D; Angizi, S; Darestani-Farahani, M; Dalmeida, J; Selvaganapathy R P and Kruse P*.
Langmuir, 38, (2022), 3666-3675. (Link) (open access)
7. “Reagent-Free Hydrogen Peroxide Sensing Using Carbon Nanotube Chemiresistors with Electropolymerized Crystal Violet ” (Co-Author)
Patel, V; Saha, D; Kruse, P and Selvaganapathy, R P*.
ACS Appl. Nano Mater., 5, (2022), 3957-3966. (Link)
6. “Facile Fabrication of Conductive MoS2 Films by Sonication in Hot Water and Evaluation of Their Electrocatalytic Performance in the Hydrogen Evolution Reaction” (First Author)
Saha, D; Patel, V; Selvaganapathy, R P and Kruse, P*.
Nanoscale Adv., 4, (2022), 125-137. (Link) (open access)
Selected for inclusion in the 2021 popular advances collection (including articles which have been very well received by the community)
5. “Defect Engineering of Graphene to Modulate pH Response of Graphene Devices” (Co-Author)
Angizi, S; Chun, E; Dalmeida, J; Saha, D; Selvaganapathy, R P and Kruse, P*.
Langmuir, 37, (2021), 12163-12178. (Link) (open access)
4. “Impact of Surface Adsorption on Metal-Ligand Binding of Phenanthrolines” (Co-Author)
Dalmeida, J; Zubiarrain-Laserna A, Saha, D; Selvaganapathy, R P and Kruse, P*.
J. Phys. Chem. C, 125, (2021), 21112-21123. (Link) (open access)
3. “Peroxide-Induced Tuning of the Conductivity of Nanometer-Thick MoS2 Films for Solid State Sensors” (First Author)
Saha, D; Selvaganapathy, R P and Kruse, P*.
ACS Appl. Nano Mater. 3, (2020), 10864-10877. (Link) (open access)
2. “Editors' Choice - Review - Conductive Forms of MoS2 and Their Applications in Energy Storage and Conversion” (First Author)
Saha, D and Kruse, P*.
J. Electrochem. Soc. 167, (2020), 126517. (Editors’ choice). (Link) (open access)
“System and Method for the Production of Tunable Molybdenum Disulfide Thin Films”
Saha, D; Selvaganapathy, R P and Kruse, P.
U.S. patent, April 2024, 11, 964, 880. (Link) (granted)