Personal Information
Organização/Local de trabalho
Jurong West, Singapore
Cargo
The University of Texas at Austin
Sobre
http://maiyalagan.weebly.com/index.html
Marcadores
fuel cells
batteries
electrocatalysis
electrochemistry
and a counter electrode. the counter electrode is
oxide and sulfide materials
and cost effectiveness. a dssc consists of four pr
transition-metal nitrides and carbides
in which triiodide is reduced to iodide by electro
a photosensitizer
lifetime
we focus mainly on counter electrode materials for
because of their low cost and simple fabrication m
and composite materials. the stability of counter
conducting polymers
dye-sensitized solar cells (dsscs) have gained inc
other counter electrode materials for iodinefree r
and apart from this
but their high cost and the scarcity of platinum r
a redox electrolyte
that is
microwave synthesis
oxygen reduction
bifunctional electrocatalyst
oxygen evolution
manganese oxide
metal air batteries
polymer
methanol oxidation
zinc oxide
nano
lanthanum doping
energy applications
supercapacitors
nanostructured conducting polymers
iro2 as an anodic electrocatalyst for the oxygen e
transmission electron microscopy (tem) and x-ray d
synthesized at 400 c (designated as lt-licoo2) th
affordable electrocatalysts for the oxygen evoluti
making the spinel-type ltli0
as an inexpensive
5coo2 a potential bifunctional electrocatalyst for
efficient electrocatalyst for the oxygen evolution
the chemically delithiated lt-li1xcoo2 samples ex
development of efficient
tungsten carbide nanotubes supported platinum nano
spherical
whereas the lowest activity of the truncated octah
and truncated octahedral) has been investigated fo
octahedral
despite a larger surface area (2.9 m2 g−1) for t
the electrocatalytic activity of the spinel oxide
highly active pd and pd–au nanoparticles support
as well as doped nanocatalyst supports
by differential pulse voltammetry under optimized
n-doped graphene supported pt was demonstrated to
toward electrochemical oxidation of homocysteine (
graphene supported platinum nanoparticles (gn–pt
the detection of hcy is successful in the presence
functional carbon nanomaterials are significantly
energy storageelectrocatalysis
nitrogen doping
energy storage
field-effect transistor
graphene
Ver mais
Documentos
(29)Personal Information
Organização/Local de trabalho
Jurong West, Singapore
Cargo
The University of Texas at Austin
Sobre
http://maiyalagan.weebly.com/index.html
Marcadores
fuel cells
batteries
electrocatalysis
electrochemistry
and a counter electrode. the counter electrode is
oxide and sulfide materials
and cost effectiveness. a dssc consists of four pr
transition-metal nitrides and carbides
in which triiodide is reduced to iodide by electro
a photosensitizer
lifetime
we focus mainly on counter electrode materials for
because of their low cost and simple fabrication m
and composite materials. the stability of counter
conducting polymers
dye-sensitized solar cells (dsscs) have gained inc
other counter electrode materials for iodinefree r
and apart from this
but their high cost and the scarcity of platinum r
a redox electrolyte
that is
microwave synthesis
oxygen reduction
bifunctional electrocatalyst
oxygen evolution
manganese oxide
metal air batteries
polymer
methanol oxidation
zinc oxide
nano
lanthanum doping
energy applications
supercapacitors
nanostructured conducting polymers
iro2 as an anodic electrocatalyst for the oxygen e
transmission electron microscopy (tem) and x-ray d
synthesized at 400 c (designated as lt-licoo2) th
affordable electrocatalysts for the oxygen evoluti
making the spinel-type ltli0
as an inexpensive
5coo2 a potential bifunctional electrocatalyst for
efficient electrocatalyst for the oxygen evolution
the chemically delithiated lt-li1xcoo2 samples ex
development of efficient
tungsten carbide nanotubes supported platinum nano
spherical
whereas the lowest activity of the truncated octah
and truncated octahedral) has been investigated fo
octahedral
despite a larger surface area (2.9 m2 g−1) for t
the electrocatalytic activity of the spinel oxide
highly active pd and pd–au nanoparticles support
as well as doped nanocatalyst supports
by differential pulse voltammetry under optimized
n-doped graphene supported pt was demonstrated to
toward electrochemical oxidation of homocysteine (
graphene supported platinum nanoparticles (gn–pt
the detection of hcy is successful in the presence
functional carbon nanomaterials are significantly
energy storageelectrocatalysis
nitrogen doping
energy storage
field-effect transistor
graphene
Ver mais