Fereydoon Gobal
Professor of Physical
Chemistry
Department of Chemistry, Sharif University of Technology
P.O.Box 11365-9516, Tehran , Iran
Email : gobal@sharif.ir fmgobal@yahoo.com
Tel: +98-21-66165304, +98-21-66005718
Fax: +98-21-66012983
Educational Background
·
Ph.D. June 1977 Physical Chemistry (Surface Chemistry)
·
B.Sc. June 1973 Chemistry, Sharif
·
Assistant Professor of Chemistry, Isfahan University of
Technology,
·
Associate Professor of Chemistry, Isfahan University of
Technology., Isfahan, Iran, 1984-1985.
·
Associate Professor of Chemistry, Sharif University of Technology,
Tehran, Iran.1985-1996.
·
Professor of Chemistry, Sharif University of Technology1996 to
date.
·
Research Interests & Facilities
Our research interests revolve around
the major areas of dynamic electrochemistry and heterogeneous catalysis at the
gas solid interfaces.
In the area of dynamic electrochemistry
we are basically engaged in the application of impedance spectroscopy and
various methods of voltammometery in the investigation of electrodic phenomena
involved in fuel cells, electrochemical sensors, photo-electrochemical solar
cells, corrosion of alloys, etc. Our laboratory is fairly well equipped with
the computerized electrochemical systems including
EG&G
electrochemical system comprising of 273A pot/gal and 5210 lock-in amplifier
capable of performing virtually all voltammometeric measurements as well as
impedance spectroscopy. The system is also equipped with
RDE616 rotating disc assembly.
Our Solartron model
1287A electrochemical interface provide capabilities for 4-probe
voltammometeric measurements which are indispensable in the study of the
electrochemistry of membranes as well as the study of the electrochemistry at
liquid-liquid interfaces.
A Radiometer
Voltalab10 provides us with the quick measurement of impedance spectra which we
employ for exploratory studies. Our laboratory is also equipped with BHP2061
pot/gal/programmer, Metrohm polarographic system and an ancient Beckmann
Electroscan30.
Our research in the
area of fuel cells covers both low temperature and solid oxide fuel cells. In
the low temperature fuel cells business we are mainly interested in developing
electrocatalysts and electrocatalytic studies for a variety of fuels as well as
the electro-chemical interaction of hydrogen with metals and alloys. In
the SOFC framework we are mainly interested in fuel electrocatalysts and the
electrochemistry of the contacts inside the cell.
Our work on membranes
and the study of liquid-liquid interfaces include the study of PVC and POAP
membranes used in ionic and molecular selective sensors and the
ionic/electronic characteristics of mixed transition metal sulfides and oxides
membranes.
In the area of
heterogeneous catalysis we currently apply the methods of BOC-MP and UBI-QEP
for the elucidation of catalytic reaction paths on the basis of the calculation
of the energetics of the reactions. Also, artificial neural networks are
being developed in this laboratory to perform catalyst design/selection.
In the experimental
front a combination of temperature programmed desorption and calorimetric
methods are employed to perform catalysts testings and screenings.
88-First principles study of oxygen adsorption on
nickel doped graphite, M. Nahali & F. Gobal, J. Molecular Phys., in the
press (2012)
87-A comparative study of sequentially
layer-deposited and co-deposited Co-Mn oxides as potential redox capacitors,
F. Gobal & S. Jafarzadeh, J. Solid State Electrochem., in the press (2012)
86-polysulfide poisoning of Ag electrocatalyst during
L-Ascorbate ion electro-oxidation in alkaline solution, F. Gobal & L.
Majari Kasmaee, Chinese J. Catal.,33,267 (2012)
85-Adsorption and dissociation of hydrogen peroxide
on small PdxM3-x (M=Pt, Cu ;x=1-3) clusters: a hybrid
density functional study, F. Gobal, M.Nahali & R. Arab, Molecular
Physics, 109,1797 (2011)
84-A comparative investigation of the
electrocatalytic oxidation of methanol on poly-NiTCPP and poly-TCPP/Ni modified
glassy carbon electrodes, M. Jafarian, M.A. Haghighatbin, F. Gobal, M.G.
Mahjani & S. Rayati, J. Electroanal. Chem., 663, 14 (2011).
83-Silver selenide as a potential electro-catalyst
for L-ascorbic acid electro-oxidation in alkaline solution, F. Gobal &
L. Majari Kasmaee, Electrocatal.,2, 331 (2011)
82-Electrocatalytic
oxidation of 1-propanol and 2-propanol on electro-active films derived from /NiII
–( N, N’ – bis (2-hydroxy, 3-methoxy benzaldehyde)-1,2
–propandiimine ) modified glassy carbon electrode, M. Jafarian, M. Rashvand
avei, F. Gobal, S. Rayati, M.G. Mahjani, Electrocatalysis,2,42(2011).
81-A mathematical model of nano-particulate mixed
oxide pseudo-capacitors;part II:the effect of intrinsic factors, H. Farsi,
F. Gobal, J. Solid State Electrochem., 15, 115 (2011).
80-Theoretical study of nitrogen monoxide adsorption
on Six (x=3-5) small clusters, M. Nahali & F. Gobal, J.
Molecular Phys., 109, 229 (2011).
79-AC impedance
and cyclic voltammetry studies of PbS semiconducting film prepared by
electrodeposition, A. Aghassi, M. Jafarian, I. Danaee, F. Gobal & M.G.
Mahjani, J.Electroanal.Chem.,661,265 (2011).
78-Electro-oxidation
of alcohols on nickel dispersed in poly-o-aminophenol modified graphite
electrode, M. Jafarian, M. Babaee, F. Gobal & M.G. Mahjani, J.
Electroanal. Chem., 652, 8 (2011).
77-On the
significance of hydroxide ion in the electro-oxidation of methanol on Ni, F.
Gobal, Y. Valadbeigi & L.M. Kasmaee, J. Electroanal. Chem., 650, 219
(2011).
76-Electro-deposited
Rh and Rh-Cu alloys as ethanol tolerant electro-catalysts for oxygen reduction
in alkaline media, F. Gobal & R. Arab, Electrocatalysis, 2, 42 (2011).
75-Estimation
of the kinetic parameters of processes at the negative plate of lead-acid
batteries by impedance results, S.M., Rezaei Niya, M. Hejabi, & F.
Gobal, J. Power Sources, 195, 5789 (2010).
74-A comparative study of atomic and molecular oxygen
adsorption on neutral and negatively charged PdxCu3-x
(x=0-3) nano-clusters, F. Gobal, R. Arab, M. Nahali, J. Mol. Structure
(THEOCHEM), 959, 15 (2010).
73-A preliminary study of the electro-catalytic
reduction of oxygen on Cu-Pd alloys in alkaline solution, F. Gobal, R. Arab,
J. Electroanal. Chem., 647, 66 (2010).
72-Multiple reduction of oxygen on polycrystalline
silver in alkaline solution, M. Jafarian, F. Gobal, M.G. Mahjani, M.
Hosseini Aliabadi, Chinese J. Catal., 31, 541 (2010).
71-Adsorption
of carbon monoxide on SixGe4-x (x=0-4) nano-clusters:A hybrid meta density
functional study, M. Nahali & F. Gobal, J. Molecular Phys., 108, 1317
(2010).
70--Electrochemical
oxidation of saccharose on copper (hydro)oxide modified electrode in alkaline
media, M. Jafarian, M. Rashvand, I. Danaee, F. Gobal & M.G. Mahjani ,
Chinese J. Catal., 31, 1351 (2010).
69- Electro-crystallization of Al, Pb, Mn, Al-Pb and
Al-Mn from molten salt (AlCl3-
NaCl –KCl ), I. Danaee, M. Jafarian, F. Gobal, A. Maleki & M. G.
Mahjani, in “ New Topics in Electrochemistry Research “, Accepted & in the press (2010).
68-A preliminary study of the electo-oxidation of L-ascorbic
acid on polycrystalline silver in alkaline solution, L. M. Kasmaee & F.
Gobal, J. Power Sources, 195, 165 (2010).
67- On the
pseudo-capacitive behaviour of nano-structured molybdenum oxide, H. Farsi, F. Gobal , et al, J. Solid State Electrochem.,
14, 643 (2010).
66-The pH effect
on the capacitive behaviour of nano-structured molybdenum oxide, H. Farsi, F.Gobal, et al, J. Solid State Electrochem., 14,
681 (2010).
65-A DFT study
of carbon monoxide adsorption on Si4 nano-cluster, F. Gobal & M. Nahali, J. Molecular Phys. 107, 1805
(2009).
64-Electrodeposition
of Al, Mn and Al-Mn alloy on aluminium electrodes from molten salt (AlCl3 NaCl- KCl), M. Jafarian, A.
Maleki,
63- Electro-oxidation
of methanol on NiMn alloy modified graphite electrode, M. Jafarian,
62-Electrocrystallization
of Pb and Pb assisted Al on aluminium electrode from molten salt (AlCl3-NaCl-KCl), M. Jafarian,
61-Kinetic
interpretation of a negative time constant impedance of glucose oxidation, I. Danaee, M. Jafarian, F. Forouzandeh, F. Gobal & M.
G. Mahjani, J. Phys. Chem. B, 112, 15933 (2008).
60-Electrochemical
impedance studies of methanol oxidation on GC/Ni and GC/NiCu electrodes,
59-Electro-catalytic oxidation of
glucose on Ni and NiCu alloy modified glassy carbon electrode, M. Jafarian, F. Forouzandeh,
58-Electro-catalytic oxidation of
methanol on Ni and NiCu alloy modified glassy carbon electrode,
57-Impedance spectroscopy analysis of
glucose electro-oxidation on Ni modified glassy carbon electrode, I. Danaee,
M. Jafarian, F. Forouzandeh, F. Gobal, M.G. Mahjani, Electrochimica Acta, 53,
6602 (2008).
56-A mathematical model of
nanoparticulate mixed oxide pseudo-capacitors; part I: model description and
particle size effects, H. Farsi & F. Gobal, J. Solid State Electrochem.,
13, 433 (2009) .
55-Artificial neural network aided
estimation of the electrochemical signals of monosaccharides on gold electrode,
F. Gobal & A. Sdeghpour Dilmaghani, Carbohydrate Research, 343, 1359
(2008).
54-Electrochemical studies of the
pitting corrosion of tin in citric acid solution containing Cl-, M.
Jafarian, F. Gobal, I. Danaee, R. Biabani & M.G. Mahjani, Electrochimica
Acta, 53,4528 (2008).
53-Kintics and electro-catalytic behaviour of nano-crystalline
CoNiFe alloy in hydrogen evolution reaction, M. Jafarian, O. Azizi, F. Gobal
& M.G. Mahjani, Intern. J. Hydrogen Energy, 32, 1686 (2007).
52-The invesetigation of the kinetics and mechanism of hydrogen
evolution reaction on tin, O. Azizi, M. Jafarian, F. Gobal, H. Heli & M.G.
Mahjani, Intern. J. Hydrogen Energy, 32, 1755 (2007).
51-Impedance spectroscopy study of aluminium
electrocrystallization from basic molten salts (AlCl3- NaCl- KCl),
M. Jafarian, F. Gobal, I. Danaee & M.G. Mahjani, Electrochim. Acta, 52,
5437 (2007).
50-Theoretical analysis of the performance of a model
supercapacitor consisting of metal oxide nano-particles, H. Farsi & F.
Gobal, J. Solid State Electrochem., 11, 1085 (2007).
49-Artificial neural network simulator for super-capacitor
performance prediction, H. Farsi & F. Gobal, Computational Materials
Science, 39, 678 (2007).
48-Electrodeposition fo aluminium from molten AlCl3-
NaCl- KCl mixture, M. Jafarian, M.G. Mahjani, F. Gobal &
47-Hydrogen electrosorption on TiHg alloy in acidic solution,
M. Jafarian, O. Azizi, F. Gobal & M.G. Mahjani, J. Alloys and Compounds,
432, 74 (2007).
46-Artificial neural network simulator of multicomponent
catalysts for the hydrodechlorination of dichlorodifluoromethane, Sh. Jooya
Ardakani & F. Gobal, Surface Review and Letters, in the press (2006).
45- Electro-catalytic oxidation of methanol on a Ni-Cu alloy in
alkaline medium, M. Jafarian, R.B. Moghaddam, M.G. Mahjani & F. Gobal,
J. Applied Electrochem., 36, 913 (2006).
44-Electrocatalytic oxidation of methanol in alkaline solution,
M. Jafarian, H. Heli, M.G. Mahjani & F. Gobal, in "New Topics in
Electrochemistry Research", Ch. 9, (2006).
43-Effect of potential on the early stage of nucleation and
growth during aluminium electrocrystallization from molten salt (AlCl3-NaCl-KCl),
M. Jafarian, M.G. Mahjani, F. Gobal & I. Danaee, J. Electroanal. Chem.,
588, 190 (2006).
42-Study of the electrocatalytic properties of platinum loaded
poly-ortho-aminophenol film towards methanol oxidation and hydrogen evolution,
N. Bahramipanah, M.G. Mahjani, M. Jafarian & F. Gobal, Indian J. Chem.,
44A, 2015 (2005).
41-On the rate of the oxidation of CO on La2O3
doped NiO/Al2O3 catalysts: An artificial neural network
approach, Sh. Jooya Ardakani & F. Gobal, Kinetics & Catalysis
Letters, 85, 347 (2005).
40-Artificial Neural Network aided design of a multi-component
catalyst for the steam reforming of methanol,F. Gobal & Sh.
Jooya, Indian J. Chem., 44A, 64 (2005).
39-Electro-oxidation of methanol on copper in alkaline
solution, M. Jafarian, M.G. Mahjani, H. Heli & F. Gobal, Electrochim.
Acta, 49, 4999 (2004).
38-On the dehydrogenation of 1 & 2-propanol on Cu(111)
surface: A UBI-QEP based approach, F. Gobal and A. Eftekhari, Indian
J. Chem., 43A, 2049 (2004).
37-Investigation of the energetics of the decomposition of
azomethane on Pd(111): A UBI-QEP approach, S. Azizian & F. Gobal,
Surface Review and Letters, 10, 895 (2003).
36-A study of the electro-catalytic oxidation of methanol on a
cobalt hydroxide modified glassy carbon electrode, M. Jafarian, M.G.
Mahjani, H. Heli, F. Gobal, H. Khajehsharifi & M.H. Hamedi, Electrochimica
Acta, 48, 3423 (2003).
35-Adsorption and absorption of hydrogen species on silver
electrode in alkaline solution, M. Jafarian, M.G. Mahjani, O. Azizi & F.
Gobal, Indian J. Chem., 42A, 516 (2003).
34-Percolation of cadmium across a mercury film, K. Malek
& F. Gobal, Materials Chemistry and Physics, 78, 796 (2003).
33-Electrocatalytic oxidation of methane at nickel hydroxide
modified nickel electrode in alkaline solution, M. Jafarian, M.G. Mahjani,
H. Heli, F. Gobal & M. Heydarpoor, Electrochem. Communications, 5, 184
(2003).
32-A study of the electrochemical adsorption and diffusion of
hydrogen into mercury in acidic solutions, M. Jafarian, M.G. Mahjani,
O.Azizi & F. Gobal, Indian J. Chem., 42A, 295 (2003).
31-A study of the underpotential deposition of hydrogen on the
nickel deposited electrodes in alkaline media, M. Jafarian, M.G. Mahjani, M.
Hoseini & F. Gobal, Indian J. Chem., 41A, 1208 (2002).
30-Investigation of the pyridinium ion transfer across the
water/nitrobenzene interface by means of cyclic voltammetry and ac-impedance
techniques, H. Heli, M.G. Mahjani, M. Jafarian, F. Gobal, M.F. Mousavi &
M. Shamsipur, Electrochimica Acta, 47, 2209.
29-On the energetics of NH3 adsorption and
decomposition on Nb(100) surface:A BOC-MP study, S. Azizian & F. Gobal,
Reaction Kinetics & Catalysis, 76, 43 (2002).
28-A UBI-QEP based study of the energetics of formic acid
decomposition on Cu85Pd15(110) surface, F. Gobal &
27-Hydrogen absorption and desorption on the platinum
electrode, M. Jafarian, M.G. Mahjani, M. Hoseini & F.Gobal, Indian J.
Chem., 40A, 1149 (2001).
26-A study of the percolation threshold potential of the
electrochemically deposited poly-ortho-aminophenol films, K. Malek & F.
Gobal, Synthetic Metals, in the press (2002).
25-A study of the mechanism of chlorine adsorption/desorption
on Pt(111) surface:A UBI-QEP approach, S. Azizian & F. Gobal, J. Chem.
Res., 520 (2000).
24-A study of the mechanism of methyl iodide decomposition on
Cu(110) surface:A UBI-QEP based approach, S. Azizian & F. Gobal,
Langmuir, 17, 583 (2001).
23-On the mechanism of the catalytic decomposition of CH3I
on Cu(111) surface: A UBI-QEP approach,
22-A study of the electrodeposition of Cu/Zn alloys: A
chemometric approach, F. Gobal & K. Malek, J. Electrochem. Soc. India,
in the press (2002).
21-Application of chaotic logistic map for the interpretation
of anion insertion in poly-ortho-aminophenol films, K. Malek & F. Gobal,
Synthetic Metals, 113, 169 (2000).
20-Investigation of the energetics of the decomposition of
methyl iodide on Ni(111) by the method of BOC-MP, S. Azizian & F. Gobal,
J. Molecular Catalysis:A, 153, 191 (2000).
19-A study of the fractal dimensions of the electrodeposited
poly-ortho-aminophenol films in presence of different anions, F. Gobal et
al, Synthetic Metals, 108, 15 (2000).
18-Electrochemical study of the slowly adsorbed H+/H
species on platinum electrodes, M. Jafarian, M.G. Mahjani & F. Gobal,
Indian J. Chem., 37A, 877 (1998).
17-On the electrochemistry of lead in acid alcohols and their
corresponding salts, F. Gobal & K. Malek, J. Electrochem. Soc. India,
47, 23 (1998).
16-A study of the thermodynamics of surface intermediates
formations in the reaction between adsorbed atoms and molecules on Pt(111) by
the method of BOC-MP, F. Gobal & S. Azizian, J. Molecular Catalysis:A,
136, 169 (1998).
15-On the investigation of the adsorption and decomposition of
NO2 on transition metals by bond order coservation-Morse potential
analysis, F. Gobal & S. Azizian, Langmuir, 13, 5999 (1997).
14-Enthalpy changes in the course of ethylamine decomposition
on Ni(111) surface, F. Gobal & S. Azizian, J. Chem. Res., 324 (1997).
13-Electrochemical impedance spectroscopy of the
poly-ortho-aminophenol films, M.G. Mahjani, F. Gobal & M. Jafarian,
Indian J. Chem., 36A, 177 (1997).
12-An exploratory study of the catalytic activities of
ruthenium supported on rare earth oxides, F. Gobal, Indian J. Chem., 35A,
873 (1996).
11-A preliminary study of a methane/oxygen solid oxide fuel
cell, F. Gobal, Indian J. Chem., 35A, 687 (1996).
9- On the passivation of tin-lead alloys, F. Gobal, Indian
J. Chem., 26A, 4424 (1987).
8-On the study of the oxidation of CO on poly-crystalline
platinum, A. Golchet & F. Gobal, Indian J. Chem., 23A, 816 (1984).
7-A kinetic & transient study of the oxidation of CO on
poly-crystalline platinum,A.Golchet & F. Gobal, Indian J. Chem., 22A, 6
(1983).
6-On the state of the dispersion of rhodium on tundsten oxide,
F. Gobal, Indian J. Chem., 21A, 649 (1982).
5-Chemisorption & decomposition of substituted alcohols on
tungsten oxides, F. Gobal, J. Chem. Res., 248 (1981).
4-On the state of the dispersion of rhodium on zinc oxide and
its catalytic activities, F. Gobal, J. Chem. Res., 118 (1981).
3-Chemisorption & decomposition of ethanol on tungsten
oxides, F. Gobal, J.Chem. Res., 322 (1980).
2-Surface acidity of reduced tungsten oxides, F. Gobal, J.
Chem. Res., 182 (1980).
1- The catalytic properties of lanthanide oxides and the
application of the inclined W theory, S.P. Sinha & F. Gobal, Inorg. Chim.
Acta, 415 (1979).
Courses taught
1-General Chemistry (undergraduate)
2- Physical Chemistry (undergraduate)
3-Corrosion Technology (undergraduate)
4- Introductions to Industrial
Chemistry (undergraduate)
5- Surface Chemistry (graduate, MSc)
6-Advanced Electrochemistry (graduate,
MSc)
7- Colloid Chemistry (graduate, MSc)
8- Modern Methods of Surface and
Electrochemistry (graduate, PhD)
9- Semiconductors Electrochemistry
(graduate, PhD)
10- Solid Electrolytes (graduate, PhD)
MSc Thesis Supervised
27-Afrashteh,
M.,Shelf life and self discharge prediction of some electrochemical energy
converters, Dept. of Chem.,Sharif University of Technology, 2012-02-14
26-Mirzanezhad,
A., A study of B-halogenated alcohols decomposition on Ni, Cu, and Ni-Cu alloys
by the method of UBI-QEP, Dept. of Chem., Sharif University of Technology,2011
25-Valad- Beigi, Y., The poisoning
effect of sulfur –containing compounds on the electro-oxidation of methanol and
ethanol on Ni and Cu electrods, Dept. of Chem., Sharif University of Technology, 2010.
24-Sharifi, M., Theoretical analysis of
the electrochemistry and power generation in thermally activated batteries,
Dept. of Chem., Sharif University of Technology,
2010.
23-Oghbaee, Sh., A study of effect of
halids on electro-oxidation on silver electrode in alkaline medium, Dept. of
Chem., Sharif University of Technology, 2010.
22-Zeinaghaji, M. , Experimental & theoretical investigation
of the electro-oxidation of C1 compounds on Ni & Cu surfaces, Dept. of
Chem., Sharif University of Technology,2009.
21-Safarkalachaee, L.,
20-Badrkhani, P.,
Dissolution and passivation of Pb & Pb-Sn alloys in citric acid
& citrate solutions, Dept. of Chem., Sharif University of Technology, 2008.
19-Teymoori, Gh.,
Modification of lead electrode with bismuth, Dept. of Chem., Sharif
University of Technology, 2008.
18-Jafarzadeh, S.,
Study of the kinetics & mechanism of the electrodeposition of Bi, Bi2Se3
& Sb2Se3 semiconductors, Dept. of Chem., Sharif
University of Technology, 2007.
17-Kasmaee, L.,
Ethanol electro-oxidation on Ni-Rh/Cu electrodes & its application
as anode in ethanol consuming fuel cells, Dept. of Chem., Sharif University of Technology, 2007.
16-Pazhand, F.,
Catalyst design for the low temperature decomposition & steam
reforming of alcohols and their kinetics studies, Dept. of Chem., Sharif
University of Technology, 2007.
15-Arab, R., Study
of the kinetics & mechanism of the electro-deposition of W-X ( X=Ni, Co, Fe
) alloys, Dept. of Chem., Sharif University of
Technology, 2006.
14-Sadeghpour, A.,
Investigation of the electro-oxidation of N-phenyl thiobenzamides by the
methods of CV & CP, Dept. of Chem., Sharif University of Technology, 2006.
13-Akhshi, P., On
the performance of electro-chemical cells as predicted by ANN, Dept of Chem.,
Sharif University of Technology, 2006.
12-Eftekhari Befrooei, A.,
Theoretical & experimental study of Cu and its alloys catalysts in
alcohol oxidation & dehydrogenation reactions, Dept. of Chem., Sharif
University of Technology, 2004.
11-Behroozirad, I.,
Modeling & the impedance characteristics of the self discharge
behavior of Zn-MnO2 battery, Dept. of Chem., Sharif University of Technology, 2004.
10-Darbandi, M.,
Modeling & the impedance
characteristics of capacity fading in lead- acid battery, Dept. of
Chem., Sharif University of Technology,
2003.
9-Rajabi, Kh.,
Theoretical & practical investigation of Ag & its alloys in the
oxidation & dehydrogenation reactions of alcohols, Dept. of Chem., Sharif
University of Technology, 2004.
8-Amini, N., A study
of the electrochemistry of sulfide membranes, Dept. of chem.., Sharif University
of Technology, 2002.
7-Khezri, B.,
Catalyst desigh for CO2/H2O reaction under thermal
, electrocatalytic & photocatalytic regimes, Dept. of Chem., Sharif
University of Technology, 2001.
6-Hejabi, M.,
Modeling & study of the impedance of some ideal electro-chemical
cells, Dept. of Chem., Sharif University of
Technology, 2001.
5-Azizian, S.,
Application of BOC-Mp for the prediction of the kinetics & mechanism
of some heterogeneous catalytic processes, Dept. of Chem., Sharif University of Technology, 1999.
4-Malek, K., A study
of the electrochemistry of lead in aqueous solutions of acid alcohols &
their salts, Dept. of Chem., Sharif University of
Technology, 1999.
3-Shabani, M., Study
of the poisoning effect of CH4, CO2 & Co in the hydration
reaction of ethene on alumina catalysts, Dept. of Chem., Sharif University of Technology, 1998.
2-Farsi, H.,
Preparation & study of Ni-W catalysts for the HDS process, Dept of
Chem., Sharif University of Technology,
1998.
1-Hosseini, M., Preparation
& characterization of vanadyl pyrophosphate catalysts for the oxidation of
butane & pentane, dept of Chem., Sharif University of
Technology, 1998.
MSc
Thesis in Progress; current MSc. Students
Javadi,
N.,
Seydabadi,
H.,
Zhyani,
M.,
PhD Thesis Supervised
1-
1-Mahjani,
M. G., Study of the electrochemistry of pure & doped electro-polymerized
poly-o-aminophenol and compatible co-polymers, Tarbiyat-e-Modarres University,
1999.
2-
Azizian,
S., Astudy of the reaction pathways in methyl iodide decomposition and
reactions of some simple molecules on the surfaces of transition metals, Dept.
of Chem., Sharif University of Technology,
2000.
3-
Malek,
K. Electrochemistry of composite electrodes and materials, Dept. of Chem.,
Sharif University of Technology, 2001.
4-
Jooya
Ardakani, Sh., Design of Catalysts for some important industrial reactions
using artificial neural networks, Dept. of Chem., Sharif University of Technology, 2006.
5-
Farsi,
H., Theoretical & experimental study of mixed oxides super-capacitors,
Dept. of Chem., Sharif University of Technology,
2007.
6-
Arab,
R., Experimental study of oxygen reduction reaction (ORR) on Cu-alloy,
electro-catalysis in alkaline solution and theoretical investigation of oxygen
adsorption on Cu-alloy nano-clusters, Dept. of Chem., Sharif University of Technology, 2010.
7-
Kasmaee,
L.,A study of ascorbic acid electro-oxidation process on silver electrode and
its alloys, Dept of Chem., Sharif University of Technology, 2011
8-
Jafarzadeh,
S., PhD thesis in progress.
9-
Nahali,
M., PhD thesis in progress.