E-mail: ——————-fadeke.ojelabi@eksu.edu.ng, fadekematthew@yahoo.com, fadforgod@yahoo.com
Phone: ——————-07063184004, 08030641917, 08137861405, 08071141627

Academic Qualification:

B.Sc. Physics and Engineering Physics   — ———- 2nd Class Hons.  (Upper Division)    ———–  Ondo State University,  Ado-Ekiti    1987
M.Sc. Solid State Physics (Theory) Ph.D   ————  University of Ibadan, Ibadan. Nigeria    ———-1991
Ph.D. Theoretical Physics (Condensed Matter Physics option)    University of Benin, Benin-City, Nigeria.    2000

Professional
Diploma in Condensed Matter Physics (Theory)    International Centre for Theoretical Physics (ICTP), Trieste, Italy.    1992

Course(s) Taught:
Quantum MECH PHY 402

AREAS OF RESEARCH INTEREST:
Computational Physics, Condensed Matter Physics (Theory)

ON-GOING RESEARCH:
i.    Cohesive energy calculations using new embedded energy functional in fcc alloys
ii.    Determination of the Energetics and Structural Properties of some Metallic Solid Minerals in Ekiti State

FELLOWSHIPS AND SCHOLARSHIPS:
i.    International Centre for Theoretical Physics (ICTP), Trieste, Italy (1992-1996)
ii.    Federal Government of Nigeria Scholarship for M.Sc. (1990-1991)

CURRENT GRANT: TETFUND (2015)
Grant for  Assessment of Seasonal Variations and Radiological Health Implications of Radon Concentrations in Indoor Air And Drinking Water In Ekiti State, Nigeria

COLLABORATIONS:
i.    Quantum liquids: O. Akinlade of FUNAAB, Nigeria and F. Matthews of OSUA (1991- date)
ii.    Classical liquids: Giorgio Pastore of Università degli Studi di Trieste, Italy and F. Matthews (1995 – date)
iii.    Alkali-Metal doped C60: J. O. A. Idiodi of the University of Benin and Matthew-Ojelabi F. (1999 – date)
iv.    Embedded atom method for body-centred-cubic metal: Matthew-Ojelabi F. and Anthony Agbadaola of School of Marine Engineering, Lyon France (2014 – date).

PUBLICATIONS:
i.    Matthew F.
A Source of Error in Continuous Radio-gauging, final year project submitted to Department of Physics, Ondo State University, Ado-Ekiti, 1987.
ii.    Matthew F.
A Study of the Local Field Correction on the Electrical Properties of Liquid Metals, a thesis submitted to Department of Physics, University of Ibadan, Ibadan, 1990.
iii.    Matthew F
Variational Optimized Random Phase Approximation for Simple Liquids, a thesis submitted to the International Centre for Theoretical Physics (ICTP), Trieste, Italy, 1992.
iv.    Matthew-Ojelabi F.
Electronic Band Structure of Solid C60 and its Implications for Superconductivity in the Alkali-Metal Doped C60, a thesis submitted to Department of Physics, University of Benin, Benin-City, 2000.
v.    Ajayi I. R., Matthew-Ojelabi F. and Aduloju K. A.
Basic Electricity and Magnetism Published by Tessac Publishers Ltd., Ajilosun, Ado-Ekiti. ISBN 978-2858-60-02, 2004.
vi.    Aduloju K. A. and Matthew-Ojelabi F.
Introduction to Electromagnetism Published by Perfect Printing and Paper Converter Nig Ltd (3PC), Ibadan. ISBN 978-2858-51-X, 2005.
vii.    Matthew-Ojelabi F.
Quantum Physics of Atoms and Molecules (in progress).
viii.    Matthew-Ojelabi F.
The Book of Abstracts of the Nigerian Association of Mathematical Physics 22nd Annual Colloquium and Congress, 2011.

ix.    Matthew-Ojelabi F. (2006).
The Nigerian Woman-Scientist in the Year 2006 – That Positive Woman, Proceedings of the 1st Conference on Empowering the Girl Child in Science and Technology Through Role Modelling, Organized by Forum for African Women Educationist (FAWE), Vol. 1, pages 135-139. Nairobi, Kenya.

Articles in learned journals:
i.    Akinlade O., Hussain L. A. and Matthew F. (1992)
The Effect of the Local Field Correction on the Electrical Properties of Liquid Metals, Phys. Sta. Sol. (b), Vol 169, pages 151-155. Britain.
ii.    Pastore G., Matthew F., Akinlade O. and Badirkhan Z. (1995)
Numerical Solution of the Optimized Random Phase Approximation, Molecular Physics, Vol. 84, № 4, pages 653-661, UK.
iii.    Pastore G., Akinlade O., Matthew F. and Badirkhan Z. (1998)
Optimized Random Phase Approximation for Arbitrary Reference Systems: Extremum condition and Thermodynamic consistence, Phys. Rev. E, Vol. 57, № 1, pages 460-464. USA.
iv.    Matthew-Ojelabi F. and Idiodi J. O. A. (2001)
Electronic Band Structure of Solid C60, J. Nig. Ass. Math. Phys., Vol. 5, page 200-221. Nigeria (University of Benin).
v.    Matthew-Ojelabi F. and Idiodi J. O. A. (2001)
Non-local Theory of Superconducting-Tc for the Doped Fullerenes, J. Nig. Ass. Math. Phys., Vol. 5, pages 220-232. Nigeria (University of Benin).
vi.    Ibijola E. A. and Matthew-Ojelabi F. (2002)
On the Variational Formulation of Problems in Continuous Damage Mechanics, J. Ass. For Advancement of Modelling and Simulation (AMSE), B, Vol. 71, № 6, pages 23-40. France.
vii.    Ibijola E. A. and Matthew-Ojelabi F. (2004)
Constitutive Equations in Plasticity and Damage Mechanics, J. Ass. For Advancement of Modelling and Simulation (AMSE), B, Vol. 73, № 4, pages 81-92. France.
viii.    Matthew-Ojelabi F. (2004)
The Theory of High-Tc Superconductivity in an Alkali-Metal Doped Organic Material, J. Ass. For Advancement of Modelling and Simulation (AMSE), C, Vol. 65, №1, pages 77-93. France.
ix.    Ibijola E. A. and Matthew-Ojelabi F. (2005) Linear Multi-Step Methods for Numerical Solution of Special Ordinary Differential Equations, J. Ass. For Advancement of Modelling and Simulation (AMSE), C, Vol. 65, №1, pages 35-44. France.
x.    Ibijola E. A. and Matthew-Ojelabi F. (2006)
Spatially Discrete Approximation of Problems in Damage Mechanics, J. Ass. For Advancement of Modelling and Simulation (AMSE), B, Vol. 75, №1, pages 65-75. France.
xi.    Matthew-Ojelabi F. and Isinkaye M. O. (2006)
Electrical Resistivity of Liquid Metals from a Neutral-Hard-Sphere Reference System in the Optimized Random Phase Approximation, Science Research Annals, Vol. 2, №1, pages 43-46. Nigeria (Adekunle Ajasin University).
xii.    Matthew-Ojelabi F. and Aduloju K. A. (2006)
ORPA Technique and Non-Local Potential for Liquid Metals: Thermo-electric Power, Journal of Applied and Environmental Science, B, Vol. 2, №1, pages 70-76. Africa edition (US based).
xiii.    Matthew-Ojelabi F. and Aduloju K. A. (2006)
ORPA Technique and Non-Local Potential for the Phase Diagram of C60 Material, J. Nig. Ass. Math. Phys., Vol. 10, pages 21-26. Nigeria (University of Benin).
xiv.    Matthew-Ojelabi F. (2006)
On the Optimized Random Phase Approximation Technique for Liquid Metals: Electrical Resistivity, Journal of Biological and Physical Science, Vol.4, pages 59-66. Nigeria (University of Ado-Ekiti).
xv.    Matthew-Ojelabi F. (2006)
Electrical Resistivity of Liquid Metals from a Charge-Hard-Sphere Reference System in the Optimized Random Phase Approximation, J. Ass. For Advancement of Modelling and Simulation (AMSE), B, Vol. 79, № 4, pages 1-12. France.
xvi.    Matthew-Ojelabi F. (2007)
The Effect of Ammonia Intercalation on the Density of State of the Alkali-Metal Doped Organic Fullerides, J. Nig. Ass. Math. Phys., Vol. 11, page 455-460. Nigeria (University of Benin).
xvii.    Matthew-Ojelabi F. (2007)
Calculation of the Thermodynamic Properties of Simple Liquids Using ORPA Technique J. Ass. For Advancement of Modelling and Simulation (AMSE), B, vol. 76, № 4, page 64-75. France.
xviii.    Matthew-Ojelabi F. (2007)
ORPA Investigation of Tracer Diffusion in a Simple Liquid, Science Research Annals, Vol. 3, № 2, pages 84-94. Nigeria (Adekunle Ajasin University).
 
xix.    Matthew-Ojelabi F. (2008)
Role of Inter-molecular and Intra-molecular Phonons in the Electrical Resistivity of Alkali-metal-doped Fullerenes, Science Research Annals, Vol. 4, .1, pages 21-28. Nigeria (Adekunle Ajasin University).
xx.    Matthew-Ojelabi F. (2008)
Structure Factor of Disordered C60 from the Optimized Random Phase Approximation, J. Ass. For Advancement of Modelling and Simulation (AMSE), France, C, vol. 69, № 1, pages 75-85. France.
xxi.    Matthew-Ojelabi F. (2009)
Empirical Formula for the Parameters of Metallic Monovalent Salts, J. Nig. Ass. Math. Phys., Vol. 14, page 211-216, Nigeria (University of Benin).
xxii.    Matthew-Ojelabi F. (2009)
The role of Coulomb Interaction in the structural formation of molten Ytterium Chloride, J. Nig. Ass. Math. Phys., Vol. 15, page 147-154. Nigeria (University of Benin).
xxiii.    Matthew-Ojelabi F., Idiodi J. O. A. , Ajibade I. I. and Enoch O. (2012)
On the Modified Embedded Atom Method for Strontium: A New Algorithmic Approach, J. Nig. Ass. Math. Phys. (NAMP), Vol. 22, page 35-42, Nigeria (University of Benin).
xxiv.    Matthew-Ojelabi F. and Ajibade I. I. (2013)
Embedded atom method for face centered cubic metals: A New Algorithmic Approach J. Nig. Ass. Math. Phys. (NAMP), Vol. 25, №1, page 37-42, Nigeria (University of Benin).
xxv.    Matthew-Ojelabi, A. A. Agbadaola, J. Adu, G. E. Adesakin and O. O. Odeyemi (2015)
Surface energies of Body-Centre-Cubic Metals: the Embedded Atom Method
Transactions of J. Nig. Ass. Math. Phys. (Trans JNAMP), Vol.1, 2015 page 59-66, Nigeria (University of Benin).