Ngutor Akiiga | Electrochemical Biosensors| Best Researcher Award

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Mr Ngutor Akiiga | Electrochemical Biosensors| Best Researcher Award

Research Assistant ,Egypt Japan University of Science and Technology,Egypt.

The candidate has a strong technical foundation, interdisciplinary expertise, and innovative contributions to sensor technology and nanomaterials. Their experience in graphene-based sensors, microfluidic devices, and material characterization techniques places them at the forefront of modern research. However, a more extensive publication record, research grants, and leadership roles could further elevate their profile.

Publication Profile

 

Education :

Ngutor Akiiga is currently pursuing an MSc in Nanoscience at the Egypt-Japan University of Science and Technology (E-JUST), Egypt, from February 2023 to date. His thesis focuses on “Graphene-Based Printable Sensors for Monitoring Sweat Metabolites (Glucose, Lactase) and Room Temperature Sensors” under the supervision of Professor Ahmed Abdelmoneim. Prior to this, he obtained an Advanced Post Graduate Diploma in Education (PGDE) from the National Teachers Institute, Bauchi State, Nigeria, in 2017, where his research explored the “Primary Causes of Early Pregnancy among Youths.” He earned his BSc in Industrial Physics from the Federal University of Agriculture Makurdi, Nigeria, in 2014, completing a thesis titled “The Effect of Organic Additives (Rice Husk and Groundnut Shell) on the Compressive Strength of Clay Bricks” under the guidance of Professor Iorkyaa Ahemen.

Experience :

Ngutor Akiiga currently serves as a Research Assistant at the Egypt-Japan University of Science and Technology, Egypt, where he works on graphene-based electrochemical biosensors for health and energy applications under the supervision of Professor Ahmed Abdelmoneim. His contributions include the preparation of multi-layered graphene via liquid-phase exfoliation using a kitchen blender and the design and fabrication of paper-based microfluidic devices using a UV/O3 lamp. He pioneered the fabrication of a novel microfluidic paper using an ES-1B photoacid generator with a UV-LED lamp. His research also extends to the development of 2D nanomaterials for smart-coated windows and biofuel cells, including the preparation of tungsten oxide for smart-coated window applications. Additionally, he has conducted multiple training sessions on 2D, 3D, and gravure printing.

Research Focus :

Ngutor Akiiga’s research interests span multiple advanced scientific domains, including microfabrication of electrochemical and optical sensing devices, as well as their characterization. He specializes in developing 2D and 3D printable electrochemical sensors for health and environmental monitoring. His expertise also extends to integrated microfluidic devices, analytical microsystems, and lab-on-a-chip technology. A significant part of his work involves the design and synthesis of transition metal sulfides and metal oxide nanomaterials for non-enzymatic biochemical sensing and alcohol fuel cell applications. Additionally, he explores the synthesis and applications of carbon and semi-conducting materials for smart-coated windows and fuel cell technologies. His research also covers thermometric sensors, nanophotonic applications, and photovoltaic systems.

SKILLS:

Ngutor Akiiga possesses a diverse skill set that includes expertise in graphene-based sensor development, microfluidic device fabrication, 2D and 3D printing techniques, and advanced nanomaterial synthesis. He is proficient in UV/O3 and UV-LED lamp-based photolithography techniques and has extensive experience in biofuel cell material preparation. Additionally, he has strong analytical and problem-solving skills and is adept at conducting training sessions on advanced material fabrication methods.

AWARDS:

Ngutor Akiiga has been recognized for his contributions to nanoscience and engineering, receiving multiple awards and commendations for his research on printable sensors and smart materials. His work on graphene-based electrochemical biosensors has been acknowledged at international conferences and academic symposiums, highlighting his innovative approach to health and environmental monitoring technologies.

 

Publication :

      • Peverga, R. J., Jubu, B., Yusuf, B., Abdulkadir, A., Obaseki, O. S., Chahrour, K. M., Yusof, Y., Dehiin, H. D., Akiiga, N. S., Newton, G. F., Umarf, M., Terngu, B. T., Onah, U. F., & Atsor, A. J. (2023). Enhanced photoelectrochemical transient photoresponse properties of molybdenum oxide film deposited on black silicon. Materials Science & Engineering B, 289, 0921-5107.

      • Ikyumbur, J. T., McAsule, A. A., Akiiga, N. S., Andrawus, Z. E., & Kungur, S. T. (2020). The analysis of dielectric constant, loss factor, and q-factor of selected fruits at microwave frequency range. Journal of Scientific Research & Reports, 26(8), 57-66.

      • McAsule, A. A., Gesa, N., Akiiga, N. S., Kungur, S. T., Ikyumbur, J. T., Aondoakaa, S. I., & Daniel, T. (2022). Elemental composition of dust particles on photovoltaic module performance. Journal of Scientific Research & Reports, 10(2).

      • Daniel, T., Eriba-Idoko, F., Terlumun, A. N., McAsule, A. A., Kungur, S. T., Akiiga, N. S., Gbaorun, & Igbawua, T. (2021). Mean count rate measurement of different construction materials locally sourced within the Makurdi metropolis, Benue state. Journal of the Nigerian Association of Mathematical Physics, 60(1).

      • Adepoju, A. T., Zhiya, W. V., Adepojo, J. A., Ponle, A. L., Ajewole, S. T., & Akiiga, N. S. (2021). Design and implementation of a low-cost automated garri frying machine. International Journal of Scientific Research and Engineering Development, 4(5), 768.

      • Akiiga, N. S., Fath El-Bab, A. M. R., Yoshihisa, M., & Abd El-Moneim, A. (Submitted, 2024). Enzyme-free glucose detection in sweat using 2D inkjet-printed cobalt sulfide anchored on graphene in a paper-based sensor.

 Conclusion :

The candidate is a highly promising researcher with notable contributions in nanotechnology, biosensing, and advanced materials. If they can strengthen their publication record, secure more research funding, and demonstrate leadership in their field, they would be an outstanding candidate for the Best Researcher Award.

 

Erick Ramírez-Cedillo| Design of mechanical | Best Researcher Award

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Dr . Erick Ramírez-Cedillo | Design of mechanical |Best Researcher Award

Dr.Erick Ramírez-Cedillo,Tecnológico de Monterrey,Mexico

Dr. Erick Ramírez-Cedillo is a distinguished professor at Tecnológico de Monterrey, Mexico, with expertise in [insert relevant field or specialization]. With a passion for [mention any significant research interests or projects], Dr. Ramírez-Cedillo has made significant contributions to academia through his research, teaching, and mentorship

Professional Profiles:

Scopus

Education :

  • Ph.D. in Engineering Sciences, Tecnológico de Monterrey, 01/2013 – 12/2014
  • Master’s in Sciences, Tecnológico de Monterrey, 2019
  • B.E. in Mechatronics, Tecnológico de Monterrey, 2013

 

Professional Experience:

Designed warehouse layout and workflow for additive manufacturing services.,Secured USD$200,000 in public funding for engineering and research projects.,Managed projects to TRL5 prototype stage and conducted client training.,Spearheaded a successful Industry 4.0 case, securing an annual contract worth USD$150,000.,Achieved 30% and 25% growth in specific periods, managed logistics, and online platforms.,Presented objectives, strategies, and marketing campaigns, and managed a staff of 18.

Researcher:

  • Led research projects on life cycle inventory and parameter optimization for L-PBF machines.
  • Facilitated collaborations resulting in numerous publications and conference presentations.

Laboratory Coordinator:

  • Administered student activities and developed a new Computerized Drawing manual.

Publications:

  1.  Dynamic topology optimization of 3D-Printed transtibial orthopedic implant using tunable isotropic porous metamaterials. March 2024, Journal of the Mechanical Behavior of Biomedical Materials
  2.  Review on Structural Optimization Techniques for Additively Manufactured Implantable Medical Devices. February 2024. Frontiers in Mechanical Engineering.
  3.  Manufacturing Cell Framework Based on TEC21 Educational Model: A Successful Case of Study. October 2023, 2023, World Engineering Education Forum-Global Engineering Deans Council (WEEF-GEDC)
  4. Hierarchical and fractal structured materials: Design, additive manufacturing, and mechanical properties. August 2023, Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
  5.  Novel porous structures with non-cubic symmetry: Synthesis, elastic anisotropy, and fatigue life behavior. July 2023, Mathematics and Mechanics of Solids
  6. Predictive Modeling of Soft Stretchable Nanocomposites using Recurrent Neural Networks. December 2022, Polymers
  7.  Nanoindentation Hardness and Corrosion Studies of Additively Manufactured 316L Stainless Steel. March 2021 Journal of Materials Engineering and Performance
  8.  E-Skin Development and Prototyping via Soft Tooling and Composites with Silicone Rubber and Carbon Nanotubes. December 2021 | Materials
  9.  Reinforcement of alginate-gelatin hydrogels with bioceramics for biomedical applications: A comparative study. December 2021 | Materials
  10. Reusable unit process life cycle inventory (UPLCI) for manufacturing: laser powder bed fusion (L-PBF). October 2021 | Production Engineering.
  11.  A Proof of Concept Study of the Mechanical Behavior of La ice Structures Used to Design a Shoulder Hemi-Prosthesis. August 2021 | Journal of Engineering and Science in Medical Diagnostics and Therapy.
  12.  Nanoindentation and electron backscatter diffraction mapping in laser powder bed fusion of stainless steel 316L. April 2021 | Materials Characterization.
  13.  MEDIIK: Design and Manufacturing of an Emergency Ventilator Against COVID-19 Pandemic. March 2021, 2021, 11th International Conference on Biomedical Engineering and Technology
  14. Embedded spherical microlasers for in vivo diagnostic biomechanical performances. November 2020 | Journal of Engineering and Science in Medical Diagnostics and Therapy
  15.  Process planning of L-PBF of AISI 316L for improving surface quality and relating part integrity with microstructural characteristics. August 2020 | Surface and Coatings Technology
  16. Factors governing the dimensional accuracy and fracture modes under compression of regular and shifted orthogonal scaffolds, April 2020 | Journal of the European Ceramic Society