Ramchandra Gawas
Drexel University
H-index: 5
North America-United States
Top articles of Ramchandra Gawas
Top‐Down Electrochemical Synthesis of Nanoporous Metal Nanosheets from Nonlayered Alloy Precursors
Advanced Engineering Materials
2024/3
Swarnendu Chatterjee
H-Index: 5
Ramchandra Gawas
H-Index: 3
Scalable, inexpensive, one-pot, facile synthesis of crystalline two-dimensional birnessite flakes
Matter
2022/7/6
Serendipitous formation of photoluminescent carbon quantum dots by mere immersion of a polymer in an organic solvent
Carbon Trends
2022/7/1
Interfacial water manipulation with ionic liquids for the oxygen reduction reaction
ACS Catalysis
2022/12/16
Modifying the Cathode Catalyst Layer in PEM Fuel Cells with Ionic Liquids for Improved Oxygen Reduction Reaction
Electrochemical Society Meeting Abstracts 242
2022/10/9
Ramchandra Gawas
H-Index: 3
Maureen Tang
H-Index: 17
Improved Oxygen Reduction Reaction (ORR) Kinetics Via Interfacial Engineering
Electrochemical Society Meeting Abstracts 242
2022/10/9
Ramchandra Gawas
H-Index: 3
Maureen Tang
H-Index: 17
Modifying interface solvation and oxygen reduction electrocatalysis with hydrophobic species
The Journal of Physical Chemistry C
2022/8/19
Ramchandra Gawas
H-Index: 3
Maureen Tang
H-Index: 17
Characterization of a Sulfonated Poly (Ionic Liquid) Block Copolymer as an Ionomer for Proton Exchange Membrane Fuel Cells using Rotating Disk Electrode
Journal of the Electrochemical Society
2021/12/24
Ionic Liquid Composite Electrocatalysts for the Oxygen Reduction Reaction in PEM Fuel Cells
Electrochemical Society Meeting Abstracts 240
2021/10/19
Ramchandra Gawas
H-Index: 3
Nanoporous multimetallic Ir alloys as efficient and stable electrocatalysts for acidic oxygen evolution reactions
Journal of catalysis
2021/1/1
Co-solvent exfoliation of layered titanium diboride into few-layer-thick nanosheets
Ceramics International
2020/12/15
Modifying the electrocatalyst–ionomer interface via sulfonated poly (ionic liquid) block copolymers to enable high-performance polymer electrolyte fuel cells
ACS Energy Letters
2020/4/29