Lahcen Nkhaili | Materials Science | Editorial Board Member

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Prof. Lahcen Nkhaili, Materials Science, Editorial Board Member

Professor at Faculty des Sciences Semlalia, Cadi Ayyad University, Marrakech Morocco, Morocco

Summary:

Prof. Lahcen Nkhaili is a distinguished academic and researcher specializing in Energy Conversion Engineering. He holds a Ph.D. with a specialty in Photovoltaic-Nanomaterial Conversion from the Faculty of Sciences Semlalia, Cadi Ayyad University, awarded in 2016. His expertise extends to Nanotechnology, demonstrated through a Master’s degree obtained in 2010 from the Laboratory of Solid and Thin Film Physics at FSSM. With a Bachelor’s degree in Engineering Science received in 1999 with high distinction, Prof. Nkhaili has showcased a commitment to academic excellence.

Professional Profile:

Orcid Profile

Google Scholar Profile

šŸ‘©ā€šŸŽ“Education & Qualification:

Ph.D. in Photovoltaic-Nanomaterial Conversion (2016)

  • Specialty: Nanomaterials for Energy and the Environment
  • Institution: Faculty of Sciences Semlalia, Cadi Ayyad University

Master’s Degree in Nanotechnology (2010)

  • Specialty: Solid and Thin Film Physics
  • Laboratory: FSSM (Laboratoire de Physique des Solides et des Couches Minces)

Bachelor’s Degree (1999)

Professional Experience:

Prof. Lahcen Nkhaili has amassed a wealth of professional experiences, demonstrating his commitment to academia and research. Since 2018, he has held the position of Professor at the Faculty of Sciences Semlalia, Cadi Ayyad University, where he specializes in Energy Conversion Engineering. In this role, he imparts knowledge and expertise in the dynamic field of energy conversion, contributing to the education and development of students.

Prior to his current position, Prof. Nkhaili served as a Professor from 2001 to 2018, specializing in Engineering Science. During this extensive period, he played a pivotal role in the education system, contributing to the academic growth of students at the Secondary and Intermediate School level. His dedication to engineering science education has left a lasting impact on the students he mentored during these years.

These professional experiences reflect Prof. Nkhaili’s enduring commitment to education, where he has not only shared his expertise in Engineering Science but has also been instrumental in shaping the academic landscape in the field of Energy Conversion Engineering at Cadi Ayyad University.

Research Interests:

Prof. Lahcen Nkhaili are not explicitly outlined in the provided information, based on his academic background and professional experiences, we can infer that his research interests likely revolve around the following areas:

Energy Conversion Engineering: With a specialty in energy conversion engineering, Prof. Nkhaili is likely engaged in research related to the efficient conversion of different forms of energy, possibly exploring renewable energy sources and advanced technologies.

Photovoltaic-Nanomaterial Conversion: Given his Ph.D. specialty in photovoltaic-nanomaterial conversion, his research may involve the application of nanomaterials for enhanced performance in photovoltaic devices, contributing to advancements in solar energy conversion.

Nanotechnology: Prof. Nkhaili’s Master’s degree in nanotechnology suggests an interest in the study and application of nanomaterials, which can have diverse applications in various scientific and engineering fields.

Materials Science: As nanomaterials play a crucial role in his academic background, Prof. Nkhaili may be involved in materials science research, exploring the properties and applications of different materials, especially those at the nanoscale.

Thin Film Physics: His Master’s degree specialty in solid and thin film physics implies an interest in the physics of thin films, which has applications in various technological fields, including electronics, optics, and energy.

Electrical and Dielectric Measurements: His administrative role as the Head of the Electrical and Dielectric Measurements Laboratory indicates an interest in research related to electrical and dielectric properties of materials, crucial for understanding their behavior in various applications.

Publication Top Noted:

Title: “A simple method to control the growth of copper oxide nanowires for solar cells and catalytic applications

  • Authors: L. Nkhaili, A. Narjis, A. Agdad, A. Tchenka, A. El Kissani, A. Outzourhit, etc.
  • Journal: Advances in Condensed Matter Physics 2020
  • Citations: 17

Title: “Development of Cu2NiSnS4 based thin film solar cells without a sulfurization step

  • Authors: M. Elyaagoubi, F. Welatta, L. Nkhaili, H. Chaib, A. Outzourhit
  • Journal: Materials Science in Semiconductor Processing 2020
  • Citations: 15

Title: “Effect of annealing on structural, optical and electrical properties of nickel oxide thin films synthesized by the reactive radio frequency sputtering

  • Authors: S. Elmassi, A. Narjis, L. Nkhaili, A. Elkissani, L. Amiri, S. Drissi, A. Abali, etc.
  • Journal: Physica B: Condensed Matter 2022
  • Citations: 12

Title: “Effect of vacuum annealing and position of metal Cu on structural, optical, electrical and thermoelectrical properties of ITO/Cu/ITO multilayers prepared by RF sputtering

  • Authors: A. Tchenka, A. Agdad, M. Bousseta, A. El Mouncharih, L. Amiri, L. Nkhaili, etc.
  • Journal: Optical Materials 2022
  • Citations: 11

Title: “Spectroscopic study and thermoelectric properties of copper sulfide thin films prepared by the flash evaporation method

  • Authors: L. Amiri, A. Narjis, L. Nkhaili, M. Bousseta, S. Elmassi, A. Tchenka, S. Drissi, etc.
  • Journal: Journal of Alloys and Compounds 2022
  • Citations: 10

 

 

 

 

Abdul Jalil | Materials Science | Editorial Board Member

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Assist Prof Dr. Abdul Jalil, Materials Science, Editorial Board Member

Assistant Professor at Allama Iqbal Open University, Pakistan

Summary:

Dr. Abdul Jalil is a distinguished researcher and academic with expertise in the field of materials science and engineering. He earned his Doctorate in Material Science and Engineering from the prestigious University of Science and Technology of China (USTC) in 2018, showcasing his commitment to advanced research and academic excellence. Dr. Jalil’s research interests span a wide spectrum, including the development of materials design methods, computational simulations of spintronics materials, and the exploration of (photo)catalytic materials for energy applications. Currently serving as an Assistant Professor, he is actively engaged in cutting-edge research on 2D materials and heterostructures, delving into their electronic and optical properties, gas sensing applications, photocatalysis, Schottky barrier height tuning, mobility calculations, and thermoelectric properties. Dr. Jalil’s contributions to the scientific community are evident through his publications in reputable journals, marking his dedication to advancing knowledge and technology in the realm of materials science.

Professional Profile:

Scopus Profile

Google Scholar Profile

šŸ‘©ā€šŸŽ“Education & Qualification:

PhD in Material Science and Engineering

  • University: University of Science and Technology of China (USTC)
  • Duration: 2015-2018
  • Year of Completion: 2018
  • Note: USTC is among the top world universities (2020)

MPhil in Physics

  • University: Allama Iqbal Open University, Islamabad
  • Duration: 2013-2015

MSc in Physics

  • University: The University of Punjab, Lahore
  • Duration: 2006-2008

Bachelors

  • University: The University of Punjab, Lahore
  • Duration: 2004-2006

Research Work:

Dr. Abdul Jalil is currently engaged in an impactful and multifaceted research agenda, focusing on 2D materials and heterostructures with diverse applications. His ongoing research encompasses various aspects, including:

Electronic & Optical Properties:

  • Investigating the electronic and optical characteristics of 2D materials and heterostructures to understand their fundamental properties.

Gas Sensors:

  • Exploring the use of 2D materials and heterostructures in gas sensing applications, aiming to develop efficient and sensitive gas sensor devices.

Photocatalysis:

  • Studying the photocatalytic properties of these materials, which involves utilizing light energy to drive chemical reactions, with potential applications in environmental and energy-related processes.

Tuning Schottky Barrier Height:

  • Researching methods to adjust and control the Schottky barrier height, which is crucial in electronic devices, leading to advancements in device performance and functionality.

Mobility Calculations:

  • Conducting mobility calculations to understand the movement of charge carriers within these materials, crucial for applications in electronic devices.

Thermoelectric Properties:

  • Investigating the thermoelectric properties of 2D materials and heterostructures, exploring their potential for converting heat energy into electrical energy.

Dr. Abdul Jalil’s current research work reflects a comprehensive exploration of 2D materials and heterostructures, with applications spanning electronic and optical properties, gas sensing, photocatalysis, Schottky barrier height tuning, mobility calculations, and thermoelectric properties. This diverse research portfolio showcases his commitment to advancing knowledge in the field of materials science and engineering.

Research Area:

Dr. Abdul Jalil’s research interests are diverse and focused on the development and exploration of various materials. His specific areas of expertise include:

Materials Design Method:

  • Exploring innovative methods and approaches for the design of new materials.

Computational Simulation of Spintronics Materials:

  • Utilizing computational simulations to study and understand the properties of materials relevant to spintronics, a field that involves the manipulation of electron spin for information processing.

(Photo)Catalytic Materials for Energy:

  • Investigating materials with catalytic properties, especially those involved in (photo)catalysis, which can have applications in energy conversion and environmental processes.

Low-Dimensional Functional Materials:

  • Studying materials with reduced dimensions, such as nanomaterials or other low-dimensional structures, to explore their unique properties and potential functional applications.

2D Materials and Heterostructures:

  • Focusing on the electronic and optical properties, gas sensors, photocatalysis, tuning Schottky barrier height, mobility calculations, and thermoelectric properties of 2D materials and heterostructures.

Dr. Abdul Jalil’s research demonstrates a multidisciplinary approach, spanning materials design, computational simulations, and the exploration of functional materials with applications in energy-related fields.

Publication Top Noted:

Monetization of the environmental damage caused by fossil fuels

  • Authors: AJZU Ather Hassan, Syed Zafar Ilyas
  • Journal: Environmental Science and Pollution Research
  • Year: 2021
  • Citation Count: 100

New physical insight into crystal structure, luminescence, and optical properties of YPO4: Dy3+āˆ– Eu3+āˆ– Tb3+ single-phase white-light-emitting phosphors

  • Authors: SA Khan, A Jalil, QU Khan, RM Irfan, I Mehmood, K Khan, M Kiani, …
  • Journal: Journal of Alloys and Compounds
  • Year: 2020
  • Citation Count: 60

NiCoFe oxide amorphous nanoheterostructures for oxygen evolution reaction

  • Authors: MAZG Sial, S Baskaran, A Jalil, SH Talib, H Lin, Y Yao, Q Zhang, H Qian, …
  • Journal: International Journal of Hydrogen Energy
  • Year: 2019
  • Citation Count: 40

A new phase of the two-dimensional ReS 2 sheet with tunable magnetism

  • Authors: Z Sun, H Lv, Z Zhuo, A Jalil, W Zhang, X Wu, J Yang
  • Journal: Journal of Materials Chemistry C
  • Year: 2018
  • Citation Count: 40

Synthesis, structure, and photoluminescence properties of Ca2YTaO6: Bi3+\Eu3+ double perovskite white light-emitting phosphors

  • Authors: NZ Khan, SA Khan, L Zhan, A Jalil, J Ahmed, MAM Khan, MT Abbas, …
  • Journal: Journal of Alloys and Compounds
  • Year: 2021
  • Citation Count: 35

 

 

Asok Dikshit | Materials Science | Editorial Board Member

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Dr. Asok Dikshit, Materials Science, Editorial Board Member

Doctorate at National Council for Cement and Building Materials, India

Summary:

Dr. Asok Dikshit is a distinguished scientist and researcher with expertise in the field of materials science, particularly in the areas of coatings on silica optical fibers, development of optical materials, and bio-analysis fluorescence sensor probes. He holds a Ph.D. in Science from Jadavpur University, Kolkata, with a specialization in Materials Science. Throughout his career, Dr. Dikshit has held various academic and research positions, contributing to institutions in India, Japan, the USA, and the UK. His achievements include receiving prestigious awards and recognitions, such as the Albert Nelson Marquis Lifetime Achievement Award and the Japan Society for the Promotion of Science (JSPS) award. Dr. Dikshit has a strong publication record, with research articles published in reputable journals like the International Journal of Plastics Technology, Optical Materials, and Polymer – Plastics Technology and Engineering. His work demonstrates a commitment to advancing knowledge in the field of materials science and its applications in various optical technologies.

Professional Profile:

Scopus Profile

šŸ‘©ā€šŸŽ“Education & Qualification:

Dr. Asok Dikshit’s Educational Qualifications:

PhD (Science), June 2000

  • Jadavpur University, Kolkata
  • Field: Materials Science

M.Sc, June 1995

  • Indian Institute of Technology (IIT) Kharagpur
  • Field: Chemistry

Academic and Research Background:

Dr. Asok Dikshit has an extensive and diverse academic and research background, contributing to various institutions and countries throughout his career. His career timeline is as follows:

National Council for Cement and Building Materials (NCB), Faridabad

  • Position: General Manager
  • Duration: 27/10/2014 till date

The Glocal University, Saharanpur, UP

  • Position: Associate Professor
  • Duration: 15/07/2013 to 25/10/2014

Seike Consulting Pvt, Ltd, Tokyo, Japan

  • A unit of Intellectual Ventures Asia Pvt Ltd, Bangalore
  • Position: Consultant
  • Duration: 01/09/2011 to 30/06/2013

CSIR-Central Glass and Ceramic Research Institute (CGCRI), Kolkata-32

  • Position: Scientist Fellow (Range-3) & Scientist Pool (SRA)
  • Duration: 09/08/2005 to 30/08/2011

University of Leeds, LS2 9JT UK

  • (On secondment leave from CSIR, India)
  • Position: EPSRC Visiting Fellow
  • Duration: 01/06/2006 to 31/05/2007

Haldia Institute of Technology (HIT), Haldia, West Bengal

  • Position: Lecturer in Chemistry
  • Duration: 03/08/2004 to 08/08/2005

University of Akron, Akron, Ohio, USA

  • Position: Postdoctoral Fellow
  • Duration: 10/07/2003 to 30/06/2004

National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba Science City, Ibaraki, Japan

  • Position: JSPS Visiting Scientist
  • Duration: 03/07/2000 to 09/07/2003

DST-Indian Association for the Cultivation of Science (IACS), Jadavpur, Kolkata 32

  • Position: Research Fellow
  • Duration: 06/07/1995 to 30/06/2000

Dr. Dikshit’s career showcases a wealth of experience across academia, research institutions, and international collaborations, contributing significantly to the fields of Materials Science and Chemistry.

Honor and Award:

Dr. Asok Dikshit has been recognized and honored for his contributions and achievements throughout his career. The list of honors, awards, and recognitions received includes:

Certificate of Excellence in Reviewing

  • Journal: International Journal of Environment and Climate Change
  • Year: 2022

Lifetime Achievement by Vdgood Association

  • Year: September 2020, India

Selected Biography in Whoā€™s Who America

  • Year: 2019
  • Location: NJ 07974, New Jersey, USA

The Albert Nelson Marquis Lifetime Achievement Award

  • Year: 2018
  • Location: Berkley Heights, NJ 07922, USA

Visiting Researcher Award

  • Awarded by: Engineering and Physical Science Research Council (EPSRC), Govt. of UK
  • Year: 2005

Japan Society for the Promotion of Science (JSPS) Recipient

  • Awarded by: Govt. of Japan
  • Year: 2001

Young Scientist Award

  • Awarded by: International Union of Crystallography (IuCr), UK
  • Year: 1998

GATE – Graduate Aptitude Test in Engineering

  • Year: 1995
  • Subject: Chemistry
  • Organized by: Ministry of Human Resource Development (MHRD), Govt. of India

Garga Gold Medal

  • Awarded for: Highest marks in B.Sc (Hons)
  • Year: 1992

Merit Scholarship

  • Awarded by: Govt. of India
  • Institution: Indian Institute of Technology (IIT) Kharagpur
  • Years: 1993-1995

Research Interests:

While specific information about Dr. Erfan Rezvani Ghomi’s research interests is not provided in the text you provided, based on his educational background and experiences, we can infer that his research interests are likely focused on the intersection of materials engineering, polymer science, and biomedical applications. Here are potential research interest areas for Dr. Erfan Rezvani Ghomi:

Electrospinning and 3D Printing of Polymers:

  • Development of antimicrobial wound dressings through electrospinning.
  • Exploration of 3D printing techniques for polymer-based biomedical applications.

Nanocomposites for Biomedical Applications:

  • Investigation of MXene/Polymer nanocomposites for use in biomedical fields.

Self-healing Polymeric Coatings:

  • Research on the development of self-healing polymeric coatings using nanogel composites.

Antimicrobial Gelatin-based Wound Dressings:

  • Study of antimicrobial properties in gelatin-based wound dressings using propolis.

Biomedical Applications of MXene:

  • Exploration of the applications of MXene/Polymer nanocomposites in the biomedical field.

Skin Wound Healing:

  • Cell culture techniques and assays related to skin wound healing.

Teaching and Education in Materials Engineering:

  • Involvement as a Teaching Assistant in modules related to Engineering Materials in Medicine and Research Topics in Materials.

Antimicrobial Assays:

  • Learning and conducting different antimicrobial assays, likely related to biomedical applications.

Please note that these are inferred research interests based on the information provided, and the actual scope of Dr. Erfan Rezvani Ghomi’s research may cover additional areas within the broader field of materials engineering and biomedical sciences.

Publication Top Noted:

Continuous flow of polyimide coating on silica optical fibre and its characterization

  • Journal: International Journal of Plastics Technology
  • Year: 2016
  • Volume: 20, Issue: 2
  • Pages: 401ā€“423

Preparation and characterization of transition metal-based organo-inorganic hybrid optical materials for bioassay fluorescence sensor probe

  • Journal: Optical Materials
  • Year: 2013
  • Volume: 35, Issue: 3
  • Pages: 372ā€“382

Rheological behaviors of polyimide precursor in organic solvents for coating on silica optical fiber

  • Journal: Polymer – Plastics Technology and Engineering
  • Year: 2012
  • Volume: 51, Issue: 7
  • Pages: 707ā€“715

Development of laser dye-doped silica nanoparticles embedded optical preform for bio-analysis

  • Journal: Optical Materials
  • Year: 2012
  • Volume: 34, Issue: 7
  • Pages: 1054ā€“1061

Microstructural development of uniaxial stretched anneal-oriented syndiotactic polystyrene and its blend with poly (2,6-dimethyl-1,4-phenylene oxide): DSC, WAXD, SAXS and FTIR studies

  • Journal: International Journal of Polymeric Materials and Polymeric Biomaterials
  • Year: 2010
  • Volume: 59, Issue: 8
  • Pages: 628ā€“645

 

 

Bolaji Oladipo | Mechanical Engineering

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Mr.Ā BolajiĀ Oladipo: Leading Researcher in Mechanical Engineering

Summary:

Bolaji Oladipo is a dedicated and accomplished mechanical engineer currently pursuing a Ph.D. in Mechanical Engineering at the University of Rhode Island, USA, where he maintains an impressive GPA of 3.74/4.00. His academic journey includes a Master of Science in Mechanical Engineering from Rowan University, New Jersey, USA, and a Bachelor of Science in Mechanical Engineering from the University of Ibadan, Nigeria.

Bolaji has made significant contributions to the field of mechanical engineering, particularly in areas such as auxetic metamaterials, corrosion assessment, and material interface adhesion. His expertise extends to machine learning, finite element analysis, and materials modeling, as evidenced by his presentations at various conferences and workshops. He has showcased research findings through poster presentations on topics like auxetic TPU metamaterials and efficient strengthening of concrete cylinders.

Professional Profile:

šŸŽ“ Education:

  • Pursuing a Ph.D. in Mechanical Engineering at the University of Rhode Island, USA (2022 – Present) with a GPA of 3.74/4.00.
  • Master of Science in Mechanical Engineering from Rowan University, New Jersey, USA (2018 – 2020) with a GPA of 3.76/4.00.
  • Bachelor of Science in Mechanical Engineering from the University of Ibadan, Nigeria (2008 – 2014) with a GPA of 3.30/4.00.

šŸ“Š Conference Presentations: He have consistently demonstrated my expertise in machine learning, finite element analysis, and materials modeling through engaging presentations at diverse conferences and workshops. These platforms have provided me with opportunities to share and discuss cutting-edge research findings, contributing to the broader academic and professional discourse.

šŸ“ Poster Presentations: He have effectively communicated my research insights through visually compelling posters, covering subjects like auxetic TPU metamaterials and the efficient strengthening of concrete cylinders. These presentations, showcased at various conferences and forums, have facilitated discussions and knowledge exchange within the academic and professional communities.

šŸ” Journal Review: He contribute to the academic community by serving as a meticulous reviewer for the Journal of Materials in Civil Engineering, a prestigious publication under the American Society of Civil Engineers. This role involves evaluating and providing valuable insights into scientific research articles.

šŸ† Awards and Honors: He take pride in receiving accolades for my research contributions, securing 1st place in the Sixth Rhode Island Transportation and Engineering Poster Competition. Additionally, He achieved 2nd place in the 2022 TIDC Student Poster Fan Favorite Contest, showcasing the recognition of my work within the academic realm.

šŸŒ Professional Memberships: As a dedicated professional, He hold esteemed memberships in reputable organizations such as the American Society of Civil Engineers and the Nigerian Society of Engineers. These affiliations reflect my commitment to staying connected with the broader engineering community and staying abreast of the latest advancements in the field.

šŸ‘Øā€šŸ’¼ Work Experience: In the capacity of Founder and CEO of Custod Engineering Services Limited, He lead a dynamic team, providing comprehensive training in CAD/CAM software and delivering top-notch engineering consultancy services.

šŸ’¼ Research Associate: Currently serving as a Graduate Research Associate at the Multiscale And Multiphysics Mechanics Laboratory, University of Rhode Island, He engage in diverse numerical simulations and experiments related to concrete cylinders. My responsibilities also include interpreting data and contributing to research articles.

šŸ‘Øā€šŸ« Teaching Experience: With a background as a Graduate Teaching Assistant and Graduate Teaching Fellow, He actively contribute to the education sector. My roles have involved teaching labs and lectures, grading assignments, and fostering an enriching learning environment.

šŸŒ Global Experience: He have showcased my research findings on a global platform by presenting virtually at international conferences. This experience reflects my commitment to a broader perspective in academia and research.

šŸ† Judging Experience: He was honored to be invited as a judge at the 2023 Virginia Junior Academy of Science (VJAS) Research Symposium, where He assessed and scored research papers, particularly in the engineering category.

Publication Top Noted:

Title: Corrosion assessment of some buried metal pipes using neural network algorithm

  • Authors: B.A. Oladipo, O.O. Ajide, C.G. Monyei
  • Journal: International Journal of Engineering and Manufacturing (IJEM)
  • Volume: 7
  • Issue: 6
  • Pages: 27-42
  • Year: 2017

Title: Integrating Experiments, Finite Element Analysis, and Interpretable Machine Learning to Evaluate the Auxetic Response of 3D Printed Re-entrant Metamaterials

  • Authors: B. Oladipo, H. Matos, N.M.A. Krishnan, S. Das
  • Journal: Journal of Materials Research and Technology
  • Volume: 2
  • Year: 2023

Title: Evaluating the adhesion response of acrylonitrile-butadiene-styrene (ABS)/thermoplastic polyurethane (TPU) fused interface using multiscale simulation and experiments

  • Authors: J.T. Villada, G.A. Lyngdoh, R. Paswan, B. Oladipo, S. Das
  • Journal: Materials & Design
  • Volume: 232
  • Pages: 112155
  • Year: 2023

Research Focus:

Auxetic Metamaterials: Bolaji has delved into the study of auxetic materials, exploring their unique mechanical properties and potential applications. These materials exhibit negative Poisson’s ratios, making them valuable for specific engineering applications due to their ability to expand laterally when stretched.

Corrosion Assessment: Bolaji has conducted research on the corrosion assessment of buried metal pipes, employing neural network algorithms to analyze and predict corrosion behavior. This work contributes to the understanding of corrosion processes and aids in the development of effective mitigation strategies.

Material Interface Adhesion: His research extends to evaluating the adhesion response of material interfaces, specifically focusing on acrylonitrile-butadiene-styrene (ABS)/thermoplastic polyurethane (TPU) fused interfaces. This work involves multiscale simulation and experiments to enhance our understanding of material interactions.

Finite Element Analysis (FEA): Bolaji has expertise in finite element analysis, utilizing tools like ANSYS Multiphysics to simulate and analyze complex mechanical systems. His work involves applying FEA techniques to study the mechanical behavior of structures, such as concrete cylinders.

Machine Learning Applications: With a keen interest in machine learning, Bolaji integrates this technology into materials science and engineering. His research involves the use of interpretable machine learning to evaluate the auxetic response of 3D printed re-entrant metamaterials, showcasing an interdisciplinary approach.

Global Infrastructure and Transportation: Bolaji’s research extends to the domain of transportation infrastructure durability. He has presented findings at conferences on topics related to the efficient strengthening of concrete cylinders, contributing to the development of resilient and sustainable infrastructure.

 

 

Farhad Ghodsi | Thin Films

Posted on by Best Paper Award
Prof. Farhad Ghodsi: Leading Researcher in Thin Films

šŸŽ‰ Congratulations Prof. Farhad GhodsiĀ on Winning the Best Researcher Award! šŸ† Your dedication to research, mentorship, and collaboration with international teams is truly commendable. This award is a testament to your outstanding work and the impact it has on the broader community.

Short Bio:
Prof. Farhad Ghodsi is a Full Professor in the Department of Physics at the University of Guilan. With extensive experience, he has contributed significantly to the field of Physics, particularly in the fabrication and characterization of novel materials. Prof. Ghodsi has supervised numerous Master’s and Ph.D. students, showcasing his commitment to academic mentorship. His research, evidenced by over 650 reviews and impactful publications, reflects his dedication to advancing scientific knowledge.

Professional Profile:

šŸ“š Education:

  • Ph.D., Physics Engineering, Istanbul Technical University (ITU), 1999.
  • M.Sc., Physics Engineering, Istanbul Technical University (ITU), 1995.
  • B.Sc. (Hons), Physics Engineering, Istanbul Technical University (ITU), 1992.

šŸ¢ Current Positions:

  • Full Professor, Department of Physics, University of Guilan, 2011-present.

šŸ” Previous Positions:

  • Associate Professor, Department of Physics, University of Guilan, 2007-2011.
  • Assistant Professor, Department of Physics, University of Guilan, 1999-2007.

šŸ“ˆ Impact Factor:

  • Google Scholar Citations: 1978
    • h-index: 25
    • i10-index: 48
  • Scopus Citations: 1611
    • h-index: 22

šŸ” Reviews:

  • More than 650 reviews from 70 ISI indexed Journals published by Elsevier, Springer, IOP Science, John Wiley, Taylor & Francis, RSC, World Scientific, Kluwer, SciELO

šŸŽ“ Supervisor:

  • Master: 56 Students
  • PhD.: 16 Students

Publication Top Noted:

  • Fabrication of V2O5/NiO double-layer film with hydrophilic property and evaluation of the effects of V2O5 coating on electro-optical parameters of NiO film
  • Electrochemical and optical properties of magnetic CuFe2O4 nanofibers grown by PVP and PVA-assisted solā€“gel electrospinning
  • Crystalline phase change and improvement electro-optical parameters of SnSx thin films by different ambient
  • Electrospun MgCo2O4 nanofibers as an efficient electrode material for pseudocapacitor applications: Effect of calcination temperature on electrochemical performance
  • Effects of nitrogen incorporation on N-doped DLC thin film electrodes fabricated by dielectric barrier discharge plasma: Structural evolution and electrochemical performances
  • Investigating the effect of Zn doping on physical properties of nanostructured Sb2S3 thin films by dipā€‘coating technique
  • 4-Nitro-azo dye-sensitized optical behavior of organic/inorganic hybrid networks in zirconium-based thin films: effect of cu co-doping

Research Focus:

Prof. Farhad Ghodsi’s research focus encompasses various aspects of physics and materials science. His notable contributions include the fabrication and characterization of novel materials, with a keen interest in their electro-optical properties. Some key areas of his research focus include:

  1. Thin Film Technology
  2. Nanomaterials and Nanofibers
  3. Electrochemical Studies
  4. Doping Effects
  5. Supervision and Mentorship