His main research concerns Electrode, Differential pulse voltammetry, Cyclic voltammetry, Inorganic chemistry and Analytical chemistry. The Electrode study combines topics in areas such as Detection limit, Carbon nanotube and Biosensor. His Detection limit study incorporates themes from Nanoparticle and Nuclear chemistry.
His Differential pulse voltammetry research is multidisciplinary, incorporating perspectives in Electrocatalyst and Carbon paste electrode. The Cyclic voltammetry study which covers Electron transfer that intersects with Chronoamperometry. The study incorporates disciplines such as Overpotential and Voltammetry in addition to Inorganic chemistry.
Mohammad Mazloum-Ardakani spends much of his time researching Electrode, Inorganic chemistry, Cyclic voltammetry, Differential pulse voltammetry and Electrochemistry. His Electrode research includes elements of Detection limit, Analytical chemistry and Carbon nanotube. His biological study spans a wide range of topics, including Graphene, Overpotential, Voltammetry and Electron transfer.
His study focuses on the intersection of Cyclic voltammetry and fields such as Dielectric spectroscopy with connections in the field of Biosensor. His work in Differential pulse voltammetry addresses subjects such as Electrocatalyst, which are connected to disciplines such as Catalysis. His work deals with themes such as Nanoparticle and Aqueous solution, which intersect with Electrochemistry.
His primary areas of investigation include Cyclic voltammetry, Electrode, Electrochemistry, Nuclear chemistry and Differential pulse voltammetry. His studies in Cyclic voltammetry integrate themes in fields like Nanofiber, Dielectric spectroscopy, Supercapacitor and Colloidal gold. His work carried out in the field of Electrode brings together such families of science as Inorganic chemistry, Redox, Nanocomposite and Nanomaterials.
In his study, which falls under the umbrella issue of Electrochemistry, Graphene and Mesoporous silica is strongly linked to Nanoparticle. The various areas that he examines in his Nuclear chemistry study include Carbon paste electrode, Hematite, Carbon nanotube and Blood plasma. Differential pulse voltammetry and Detection limit are commonly linked in his work.
The scientist’s investigation covers issues in Perovskite, Graphene, Nanoparticle, Cyclic voltammetry and Electrochemistry. His research integrates issues of Capacitance, Supercapacitor, Oxide and Nanocomposite in his study of Graphene. His Nanoparticle study integrates concerns from other disciplines, such as Composite number, Chronoamperometry, Conductive polymer and Biosensor.
The Cyclic voltammetry study combines topics in areas such as Dielectric spectroscopy and Nuclear chemistry. His Electrochemistry study is concerned with Electrode in general. His studies deal with areas such as Combinatorial chemistry, Detection limit, Linear range and Organic chemistry as well as Electrode.
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Screen-printed electrodes for biosensing: a review (2008–2013)
Zahra Taleat;Alireza Khoshroo;Mohammad Mazloum-Ardakani.
Mikrochimica Acta (2014)
New strategy for simultaneous and selective voltammetric determination of norepinephrine, acetaminophen and folic acid using ZrO2 nanoparticles-modified carbon paste electrode
Mohammad Mazloum-Ardakani;Hadi Beitollahi;Mohammad Kazem Amini;Fakhradin Mirkhalaf.
Sensors and Actuators B-chemical (2010)
Electrochemical and catalytic investigations of dopamine and uric acid by modified carbon nanotube paste electrode.
Mohammad Mazloum-Ardakani;Hadi Beitollahi;Bahram Ganjipour;Hossein Naeimi.
Bioelectrochemistry (2009)
Novel nanostructure electrochemical sensor for electrocatalytic determination of norepinephrine in the presence of high concentrations of acetaminophene and folic acid
Mohammad Mazloum-Ardakani;Hadi Beitollahi;Mohammad Ali Sheikh-Mohseni;Hossein Naeimi.
Applied Catalysis A-general (2010)
A highly sensitive nanostructure-based electrochemical sensor for electrocatalytic determination of norepinephrine in the presence of acetaminophen and tryptophan
Mohammad Mazloum-Ardakani;Hadi Beitollahi;Mohammad Kazem Amini;Fakhradin Mirkhalaf.
Biosensors and Bioelectronics (2011)
Simultaneous determination of epinephrine and uric acid at a gold electrode modified by a 2-(2,3-dihydroxy phenyl)-1, 3-dithiane self-assembled monolayer
Mohammad Mazloum-Ardakani;Hadi Beitollahi;Mohammad Kazem Amini;Bibi-Fatemeh Mirjalili.
Journal of Electroanalytical Chemistry (2011)
Simultaneous determination of epinephrine and acetaminophen concentrations using a novel carbon paste electrode prepared with 2,2′-[1,2 butanediylbis(nitriloethylidyne)]-bis-hydroquinone and TiO2 nanoparticles
Mohammad Mazloum-Ardakani;Hadi Beitollahi;Mohammad Ali Sheikh Mohseni;Ali Benvidi.
Colloids and Surfaces B: Biointerfaces (2010)
Application of 2-(3,4-dihydroxyphenyl)-1,3-dithialone self-assembled monolayer on gold electrode as a nanosensor for electrocatalytic determination of dopamine and uric acid
Mohammad Mazloum-Ardakani;Hadi Beitollahi;Mohammad Kazem Amini;Fakhradin Mirkhalaf.
Analyst (2011)
Electrocatalytic oxidation and voltammetric determination of levodopa in the presence of carbidopa at the surface of a nanostructure based electrochemical sensor.
Mohammad Mazloum-Ardakani;Zahra Taleat;Alireza Khoshroo;Hadi Beitollahi.
Biosensors and Bioelectronics (2012)
Selective voltammetric determination of d-penicillamine in the presence of tryptophan at a modified carbon paste electrode incorporating TiO2 nanoparticles and quinizarine
Mohammad Mazloum-Ardakani;Hadi Beitollahi;Zahra Taleat;Hossein Naeimi.
Journal of Electroanalytical Chemistry (2010)
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