Madina Telkhozhayeva | Ion beam analysis | Best Researcher Award

Dr. Madina Telkhozhayeva | Ion beam analysis | Best Researcher Award

Bar-Ilan University | Israel

Author Profile:

Google Scholar

Early Academic Pursuits:

Madina Telkhozhayeva's academic journey reflects a commitment to excellence and diverse international experiences. She obtained her Ph.D. in Chemistry from Bar-Ilan University, Israel, investigating the exfoliation of 2D layered nanomaterials and their photocatalytic activity for organic pollutant degradation. Her M.Sc. in Chemistry from Al-Farabi Kazakh National University in Kazakhstan focused on modified sorbents of toxic metal ions for pharmaceutical production.

Professional Endeavors:

Madina's professional experiences include roles as a Chemistry Lab Assistant at Al-Farabi Kazakh National University and internships at institutions like Kazatomprom – Sorbent Ltd. and the Center of Physical-Chemical Methods of Research and Analysis. She conducted research, synthesized materials, and explored the properties of ion exchange resins and composite materials during her internships.

Contributions and Research Focus:

Madina's international research engagements as a visiting researcher in Spain and Italy, and collaborations with renowned professors, showcase her dedication to expanding her scientific horizons. Her research spans areas such as materials science, photocatalytic activity of nanomaterials, and plasmonic dynamics of inorganic nanostructures, demonstrating a multidisciplinary approach.

Accolades and Recognition:

Madina has been the recipient of several prestigious awards, including the Erasmus+ ICM scholarship for Staff Mobility and Training, the Nanotechnology Scholarship for outstanding Ph.D. students, and the Presidential Fellowship from Bar-Ilan University for Ph.D. studies. Her excellence is further evident through the Government Excellence Scholarship for outstanding master's students and the First Place for the Best Presentation at the International Conference of Students and Young Scientists.

Impact and Influence:

Madina's diverse international experiences, scholarships, and achievements indicate her influence in the academic and research community. Her contributions to conferences and collaborations with experts across the globe showcase her impact on the broader scientific landscape.

Legacy and Future Contributions:

Madina's legacy includes her significant contributions to the field of Chemistry, particularly in nanomaterials and catalysis. As a scholar with a multidisciplinary approach, she is poised to continue making valuable contributions to the scientific community. Her focus on materials science and environmental applications indicates a commitment to addressing global challenges through innovative research.

Madina's journey is marked by academic excellence, international collaborations, and a dedication to advancing scientific knowledge. Her future contributions are anticipated to further enrich the fields of Chemistry and Materials Science.

Notable Publication:

Graphene Oxide-Doped Gellan Gum–PEGDA Bilayered Hydrogel Mimicking the Mechanical and Lubrication Properties of Articular Cartilage   2021 (34)

Higher Ultrasonic Frequency Liquid Phase Exfoliation Leads to Larger and Monolayer to Few-Layer Flakes of 2D Layered Materials   2021 (15)

Scalable Synthesis of Few-Layered 2D Tungsten Diselenide (2H-WSe2) Nanosheets Directly Grown on Tungsten (W) Foil Using Ambient-Pressure Chemical Vapor Deposition for Reversible Li-Ion Storage   2020 (20)

2D TiS2 flakes for tetracycline hydrochloride photodegradation under solar light  2022 (20)

Phase-Dependent Photocatalytic Activity of Bulk and Exfoliated Defect-Controlled Flakes of Layered Copper Sulfides under Simulated Solar Light  2021 (6)

Manuel Freire | Medical Physics | Best Researcher Award

Manuel Freire | Medical Physics | Universidad de Sevilla

Manuel Freire | Medical Physics

Early Academic Pursuits:

Manuel Freire began his academic journey at the Universidad de Sevilla, where he exhibited a keen interest in [specify field or discipline]. During his early academic years, he demonstrated exceptional intellectual curiosity and a passion for [mention any specific subjects or projects]. His commitment to academic excellence and thirst for knowledge laid the foundation for his future accomplishments.

Professional Endeavors:

After completing his academic journey, Manuel Freire ventured into the professional realm, [describe the nature of his professional endeavors, such as industry positions, collaborations, or projects]. His transition from academia to the professional world showcased his adaptability and the application of theoretical knowledge to real-world scenarios, marking the beginning of a distinguished career.

Contributions and Research Focus:

Manuel Freire's contributions to [field of research or industry] have been substantial. His research focus, [highlight specific areas of research], has significantly advanced our understanding of [relevant topic]. Through a series of impactful studies and publications, Freire has played a pivotal role in shaping the discourse within his field.

Accolades and Recognition:

Freire's exemplary work has not gone unnoticed, as evidenced by the numerous accolades and recognitions bestowed upon him. [List specific awards, honors, or recognitions received by Manuel Freire]. These acknowledgments underscore the significance of his contributions and highlight his standing as a respected figure in the academic and professional communities.

Impact and Influence:

The impact of Manuel Freire's work extends beyond the confines of academia, reaching into broader societal and industrial spheres. His innovative ideas and groundbreaking research have influenced [describe how his work has influenced the field, industry, or society at large]. Freire's influence can be observed in [provide examples of tangible outcomes or applications resulting from his work].

Legacy and Future Contributions:

As a trailblazer in his field, Manuel Freire has established a lasting legacy. His body of work continues to inspire future generations of researchers and professionals. Looking ahead, Freire remains committed to [describe his current or future research goals], ensuring that his contributions will endure and evolve in the ever-changing landscape of [specify the relevant field or industry].

Notable Publication:

Magnetoinductive metasurface of capacitively-loaded split rings for local field homogenization in a 7 T MRI birdcage: A simulation study  December 2023

Metasurfaces of capacitively loaded metallic rings for magnetic resonance imaging surface coils 

Direct Measurement of the Electric Field Induced by a Transcranial Magnetic Stimulator  15 May 2023

Improving Performance of Compact EMI Filters by Using Metallic and Ferrite Sheets  04 February 2021

Author Profile:





International Research Awards on Atomic, Molecular and Optical Physics | Award Winners


Moletlanyi tshipa | Best Researcher Award -Award Winner 2023🏆

Dr. Moletlanyi tshipa  | Optical Physics

Congratulations to Moletlanyi Tshipa on your outstanding achievement at the University of Botswana! Your hard work, dedication, and commitment have truly paid off. This accomplishment is a testament to your excellence and passion. We are incredibly proud of your success and the positive impact you are making. Keep reaching for the stars, and may this be just the beginning of a journey filled with even more remarkable achievements. Well done!"

Moletlanyi, your journey at the University of Botswana has undoubtedly left an indelible mark, and we are honored to share in your success. May this achievement be a stepping stone to even more extraordinary feats. Congratulations once again, and may your future endeavors be as bright and fulfilling as this momentous occasion!"


PhD in Physics (University of Botswana, 2009-2018)
Master’s Degree in Physics (University of Botswana, 2004-2008).
Completed Bachelor of Science, Single Major in Physics (University of
Botswana 1999-2003).
O’level (Cambridge) Certificate (Gaborone Secondary School, 1995-


Senior Lecturer (University of Botswana, 2022-persent)
Lecturer (University of Botswana, 2009-2022)
Demonstrator (University of Botswana, 2005-2009)
Teaching Assistant (University of Botswana, 2004-2005)
Seismology, with Dr. King (University of Botswana, 2001).
Princess Marina Hospital Laboratory (National service, 1998-1999)

Early Academic Pursuits:

Moletlanyi Tshipa began his academic journey with a strong foundation in physics, earning a Bachelor of Science with a Single Major in Physics from the University of Botswana in 2003. His commitment to excellence was evident even during his O'level studies at Gaborone Secondary School, where he obtained a Cambridge Certificate in 1997.

Professional Endeavors:

Embarking on a path of continuous learning, Tshipa pursued a Master's Degree in Physics from 2004 to 2008 and achieved the pinnacle of academic accomplishment with a Ph.D. in Physics from the University of Botswana, completing this substantial endeavor from 2009 to 2018.

Contributions and Research Focus:

Tshipa's dedication to advancing knowledge in physics is highlighted by his diverse and impactful research projects. Notable among these is his work on solar radiation, where he conducted a comparative investigation of solar radiation parameters at synoptic stations in Botswana and Namibia. His expertise extends to areas such as semiconductor quantum well qubits, electron-phonon scattering rates, and harmonic generation in quantum dots, as evidenced by numerous publications in prestigious journals.

Accolades and Recognition:

Tshipa's contributions have been recognized through his peer-reviewed publications in esteemed journals, including the American Journal of Modern Physics, Expert Opinion on Astronomy and Astrophysics, and more. His work has not only expanded the scientific understanding of various phenomena but has also demonstrated his ability to navigate complex topics in physics.

Impact and Influence:

As a Senior Lecturer at the University of Botswana, Tshipa has played a pivotal role in shaping the academic landscape. His influence extends beyond the classroom, evident in the diverse range of student projects he has supervised. These projects cover topics ranging from space-time geometry to the intricate details of quantum mechanics, showcasing Tshipa's commitment to fostering the next generation of scientists.

Legacy and Future Contributions:

Looking ahead, Moletlanyi Tshipa's legacy is characterized by a profound impact on the field of physics, both through his research contributions and the knowledge he imparts to students. His dedication to excellence, evident throughout his academic and professional journey, serves as inspiration for aspiring physicists. As he continues his journey, one can anticipate further groundbreaking research and continued contributions to the academic and scientific community.

JournalPeer review: 

American Journal of Modern Physics.
Expert Opinion on Astronomy and Astrophysics.
Characterization and Application of Nanomaterials
Physical Science & Biophysics Journal (PSBJ)

He has been an active peer reviewer for esteemed journals and has presented his research at numerous international conferences across various countries.

Moletlanyi Tshipa's citation metrics and indices from Google Scholar are as follows:

  • Cited by: All: 63, Since 2018: 56
  • Citations: 63 (All), 56 (Since 2018)
  • h-index: 5 (All), 5 (Since 2018)
  • i10-index: 2 (All), 1 (Since 2018)

These metrics showcase the impact of Hussain's work within the academic community, demonstrating the number of citations his publications have received and the influence of his research output.

Professional Profiles:


  1. "Probing semiconductor quantum well qubits and associated Shannon entropy using semi-relativistic quantum mechanics"
    • Published in Optical and Quantum Electronics (2023) 55(10): 925.
  2. "Electron-LO-phonon intrasubband scattering rates in a hollow cylinder under the influence of a uniform axial applied magnetic field"
    • Published in Optical and Quantum Electronics (2021) 53: 691.
  3. "Second and third harmonic generation in linear, concave and convex conical GaAs quantum dots"
    • Published in Superlattices and Microstructures (2021) 159: 107031.
  4. "Optical transition rates in a cylindrical quantum wire with parabolic and inverse parabolic electric confining potentials in a magnetic field"
    • Published in Optical and Quantum Electronics (2021) 53: 622.
  5. "Photoionization cross-section in a GaAs spherical quantum shell: the effect of parabolic confining electric potentials"
    • Published in European Physical Journal B (2021) 94: 129.
  6. "Approximating electron states in a cylindrical quantum wire with an intrinsic inverse parabolic potential"
    • Published by Galeboloke Gasenna, Lefika Knight Maphage, Moletlanyi Tshipa in To Physics Journal 6, 2020.
  7. "Obtaining subatomic particle sizes from creation-annihilation processes"
    • Published in International Journal of Physics and Applications 2 (1), 2020.
  8. "Donor binding energies in a spherical core-shell quantum dot: parabolic and shifted parabolic shell potential"
    • Published by M. Tshipa and G. A. Nkoni in Indian Journal of Physics, 94, 633–638 (2020).
  9. "Optical properties of GaAs nanowires with an electric potential that varies inversely with the square of the radial distance"
    • Published in Advances in Condensed Matter Physics 2019, 3478506, 2019.
  10. "Diamagnetic susceptibility and optical properties of a spherical quantum dot: effects of the parabolic and the shifted parabolic potentials"
  • Published in Optical and Quantum Electronics 51(7), 2019, 225.

These are just the highlights, and each publication contains detailed research findings in the field of quantum mechanics and related topics. If you have any specific questions about a particular publication or topic, feel free to ask!