Username:
*
Password:
*
Home
About Us
Research
People
Academics
Activities
Opportunities
Industry
Publications
List
Filter
Found 7 results
Sort by:
Author
Title
[
Type
]
Year
Filters:
Author
is
Leuaa, P.
[Clear All Filters]
Journal Article
Bera, B.
,
A. Chakraborty
,
T. Kar
,
P. Leuaa
, and
M. Neergat
.
"
Density of States, Carrier Concentration, and Flat Band Potential Derived from Electrochemical Impedance Measurements of N-Doped Carbon and Their Influence on Electrocatalysis of Oxygen Reduction Reaction
."
Journal of Physical Chemistry C
121 (2017): 20850-20856.
Chakraborty, A.
,
B. Bera
,
D. Priyadarshani
,
P. Leuaa
,
D. Choudhury
, and
M. Neergat
.
"
Electrochemical estimation of active site density on a metal-free carbon-based catalyst
."
RSC Advances
9 (2019): 466-475.
Leuaa, P.
,
D. Priyadarshani
,
A. K. Tripathi
, and
M. Neergat
.
"
Internal and External Transport of Redox Species across the Porous Thin-Film Electrode/Electrolyte Interface
."
Journal of Physical Chemistry C
123 (2019): 21440-21447.
Devivaraprasad, R.
,
T. Kar
,
P. Leuaa
, and
M. Neergat
.
"
Recovery of active surface sites of shape-controlled platinum nanoparticles contaminated with halide ions and its effect on surface-structure
."
Journal of the Electrochemical Society
164 (2017): H551-H560.
Leuaa, P.
,
D. Priyadarshani
,
D. Choudhury
,
R. Maurya
, and
M. Neergat
.
"
Resolving charge-transfer and mass-transfer processes of VO2+/VO2+redox species across the electrode/electrolyte interface using electrochemical impedance spectroscopy for vanadium redox flow battery
."
RSC Advances
10 (2020): 30887-30895.
Priyadarshani, D.
,
P. Leuaa
,
R. Maurya
,
A. Kottantharayil
, and
M. Neergat
.
"
Semiconductor-to-Metal-like Behavior of Si with Dopant Concentration - An Electrochemical Investigation and Illustration with Surface Hydride Formation and Hydrogen Evolution Reaction
."
Journal of Physical Chemistry C
124 (2020): 19990-19999.
Leuaa, P.
,
D. Priyadarshani
,
A. K. Tripathi
, and
M. Neergat
.
"
What decides the kinetics of V2+/V3+ and VO2+/VO2+ redox reactions – Surface functional groups or roughness?
"
Journal of Electroanalytical Chemistry
878 (2020).