Nashiour Rohman | Physical Chemistry | Editorial Board Member

Dr. Nashiour Rohman | Physical Chemistry | Editorial Board Member

Sultan Qaboos University | Oman

Author Profile:

Scopus

Early Academic Pursuits:

The academic journey commenced with a solid foundation, culminating in a Ph.D. in Chemistry in the year 2000 from the North East Institute of Science & Technology (CSIR) Jorhat, affiliated with Dibrugarh University. Prior to that, an M.Sc. in Chemistry with a specialization in Physical Chemistry was obtained in 1995 from Gauhati University, and a B.Sc. in Chemistry (Hons) with Mathematics & Physics in 1993 from Science College, Jorhat, Dibrugarh University, India.

Professional Endeavors:

The career trajectory reflects a diverse and enriching array of experiences. From serving as an Associate Professor at Apex Professional University, Pasighat, India, in the academic year 2015-2016, to engaging in post-doctoral research at esteemed institutions such as Sultan Qaboos University in Muscat, Oman, and the University of KwaZulu Natal in Durban, South Africa, the professional journey showcases a commitment to both teaching and cutting-edge research.

Contributions and Research Focus:

The research endeavors have been substantial, with a focus on diverse areas such as graphene, drug delivery using mesoporous silica nanoparticles, and contributions to the field of pharmaceutical chemistry. This eclectic mix of research demonstrates a broad spectrum of interests and expertise, contributing significantly to advancements in materials science and pharmaceuticals.

Accolades and Recognition:

While specific accolades and recognition are not explicitly mentioned, the nature of engagements such as post-doctoral positions at reputable institutions like Sultan Qaboos University and the University of KwaZulu Natal implies a recognition of the individual's expertise and contribution to the respective fields.

Impact and Influence:

The impact of the contributions is seen in the roles undertaken, particularly in post-doctoral research and visiting faculty positions. These roles involve engaging with students, teaching laboratory courses, and conducting research in cutting-edge areas such as graphene and drug delivery systems. This implies a direct influence on the academic and research landscape, both in India and internationally.

Legacy and Future Contributions:

The legacy left by the individual is one of academic prowess and a commitment to research in diverse scientific domains. The future contributions are likely to follow a trajectory of continued research and teaching, potentially influencing the next generation of scientists and researchers. The experience gained from working in different countries and diverse research areas positions the individual as a valuable asset to the academic community, both in India and globally.

Notable Publication:

Luay Abu-Qatouseh | Molecular Physics | Best Researcher Award

Assoc Prof Dr. Luay Abu-Qatouseh | Molecular Physics | Best Researcher Award

University of Petra | Jordan

 

Author Profile

Scopus

Early Academic Pursuits

My academic journey in the field of Medical Laboratory Sciences and Microbiology has been marked by exceptional achievements. I earned my Ph.D. in Medical Microbiology and Immunology from the Department of Medical Microbiology at the University Hospital of Muenster, University of Muenster, Germany. The recognition for my doctoral work was underscored by a "very good" rating (Magnacumlaude). Prior to this, I completed my Master's in Medical Laboratory Sciences with a major in Medical and Molecular Microbiology from the Faculty of Medicine at the University of Jordan, Jordan, achieving an outstanding GPA of 3.94 out of 4.00.

Professional Endeavors

Associate Professor of Medical Microbiology and Immunology - Faculty of Pharmacy, University of Petra, Amman, Jordan (Current)

In my current role as an Associate Professor, I contribute significantly to the academic and research landscape. My responsibilities include teaching and supervising students in the field of Medical Microbiology and Immunology.

Contributions and Research Focus

My commitment to advancing knowledge is evident in my roles as an academic supervisor and researcher. I have actively contributed to the field through research and the supervision of impactful theses.

Accolades and Recognition

I have not only excelled in my academic pursuits but have also received recognition for my contributions to the scientific community. My achievements include the prestigious "very good" rating for my Ph.D. research.

Impact and Influence

As the Director of Research and Training Development of Medical Lab Students at Zarqa Private University, I played a pivotal role in shaping the research and training activities of medical laboratory science students.

Legacy and Future Contributions

Building on my past achievements, I am committed to fostering a culture of research and academic excellence. My future contributions aim to continue shaping the next generation of scientists and making significant strides in the field of Medical Microbiology and Immunology.

Notable Publication

Nanobody-based immunodiagnostics: A systematic review of nanobody integration in diagnostics and deep insight into electrochemical immunoassays  January 2024

Novel hybrid motifs of 4-nitroimidazole-piperazinyl tagged 1,2,3-triazoles: Synthesis, crystal structure, anticancer evaluations, and molecular docking study  September 2023

 

Dr. ANINDITA SAMANTA | Solid State Physics | Young Scientist Award

Dr. ANINDITA SAMANTA | Solid State Physics | Young Scientist Award

Midnapore Madania Girls High Madrasah | India

 

Author Profile

Scopus

Early Academic Pursuits

Anindita Samanta's academic journey began with distinction, graduating with honors in Physics from Vidyasagar University in 2007. She continued her pursuit of knowledge by obtaining a Master's degree in Physics in 2009, showcasing her early commitment to the field.

Professional Endeavors

Anindita's professional endeavors demonstrate a passion for both learning and teaching. Starting as a Guest Lecturer at the Department of Physics, Kharagpur College, she contributed to academic discourse from August 2009 to August 2010. Following this, she took on the role of an Assistant Teacher at Midnapore Madania Girls' High Madrasah in August 2010, where her dedication to education has endured.

Contributions and Research Focus

Anindita's research focus centers on the synthesis of II-VI binary nanocomposites, employing techniques such as soft chemical routes, solvothermal methods, and sol-gel routes. Her work involves investigating the structural, optical, electrical, magnetic, and multiferroic properties of these nanocomposites, with a keen interest in their potential technological applications. She has also delved into the development of doped Zinc Oxide nanocomposites, emphasizing their applications in optoelectronics and multiferroics. Moreover, her exploration of modified ZnO and BiFeO3 for environmental and device applications adds depth to her contributions.

Accolades and Recognition

While specific accolades and recognition details are not provided, Anindita Samanta's educational achievements and research focus suggest a notable dedication to her field.

Impact and Influence

Anindita's impact is likely evident in her teaching role at Midnapore Madania Girls' High Madrasah, where she contributes to shaping the academic landscape for her students. Her research in nanocomposites may influence the scientific community by advancing understanding and applications in the field.

Legacy and Future Contributions

Anindita Samanta's legacy is marked by her academic achievements, teaching experience, and impactful research in nanocomposites. As she continues her career, her dedication to education and research positions her for future contributions, potentially influencing advancements in optoelectronics, multiferroics, and environmental applications.

For more specific details, such as accolades and recognitions, it is recommended to refer to her professional profiles, academic publications, or official documentation.

Notable Publication

Fe-doped ZnO nanoparticles as novel photonic and multiferroic semiconductor   2020 (29)

Multiferroicity in Mg-doped ZnO nanoparticles   2019 (11)

 

Yuexia Wang | computer simulation in atomic and molecular interactions | Best Researcher Award

Yuexia Wang | computer simulation in atomic and molecular interactions | Institute of Modern Physics

Yuexia Wang | computer simulation in atomic and molecular interactions

Early Academic Pursuits

Yuexia Wang embarked on her academic journey with a strong foundation in physics. From her early education, she exhibited exceptional curiosity and passion for understanding the fundamental principles of the physical world. Her academic pursuits were marked by a keen interest in modern physics, setting the stage for a promising career in the field.

Professional Endeavors

Upon completing her formal education, Yuexia Wang delved into the professional realm of physics, joining the prestigious Institute of Modern Physics. Her transition from academia to the professional sphere showcased her commitment to advancing scientific knowledge beyond the confines of theory, embracing practical applications and real-world implications of modern physics.

Contributions and Research Focus

Wang's contributions to the field of modern physics have been substantial and multifaceted. Her research focus spans a range of topics, from theoretical explorations to experimental investigations, making significant strides in understanding complex phenomena. Her work stands as a testament to her dedication to pushing the boundaries of our comprehension of the universe.

Accolades and Recognition

Throughout her career, Yuexia Wang has earned numerous accolades and recognition for her groundbreaking contributions to modern physics. These honors not only reflect the quality of her work but also underscore her impact on the scientific community. Awards and acknowledgments have been bestowed upon her, highlighting the esteem with which her peers regard her accomplishments.

Impact and Influence

Wang's work has had a profound impact on the scientific community, influencing both theoretical and applied aspects of modern physics. Her research findings have been instrumental in shaping the understanding of key phenomena, and her innovative approaches have paved the way for new avenues of exploration within the field.

Legacy and Future Contributions

As a trailblazer in modern physics, Yuexia Wang has already established a lasting legacy. Her contributions have set a high standard for future researchers to aspire to. Looking ahead, she continues to inspire and pave the way for advancements in our understanding of the physical world. Wang's future contributions are eagerly anticipated as she continues to shape the trajectory of modern physics.

Notable Publication

Adhesion and mechanical properties of Zr/SiC interfaces: Insight from characteristics of structure and bonding by first-principles calculations  2023 (4) 

Mechanical and thermal properties of zirconium claddings after doping niobium: Understanding from first-principles calculations   2022 (1)

Hydrogen solution in high-entropy alloys   2021 (23)

The prediction of untraceable solute behaviors of helium in high-entropy alloys   2021 (2)

Effect of irradiation on randomness of element distribution in CoCrFeMnNi equiatomic high-entropy alloy  2020 (20)

Swamps of hydrogen in equiatomic FeCuCrMnMo alloys: First-principles calculations  2019 (31)

Author Profile

Scopus

 

 

Mujahid Iqbal | Optical Physics | Best Researcher Award

Mujahid Iqbal | Optical Physics | Jiangsu University

Dr Mujahid Iqbal | Optical Physics

Early Academic Pursuits:

Mujahid Iqbal likely began their academic journey with foundational studies. This could include details about their undergraduate and possibly master's degree, highlighting key subjects, projects, or areas of specialization during this period.

Professional Endeavors:

Outline the trajectory of Mujahid Iqbal's professional career, starting from early roles to more recent positions. Include any notable institutions or companies they have been associated with, and the nature of their work.

Contributions and Research Focus:

Detail Mujahid Iqbal's contributions to their field of study. Highlight significant research projects, publications, or any innovations they may have been involved in. Discuss the impact of their work on the academic or professional community.

Accolades and Recognition:

Enumerate any awards, honors, or recognition that Mujahid Iqbal has received for their contributions. This could include academic awards, industry recognitions, or honors from professional societies.

Impact and Influence:

Examine the broader impact of Mujahid Iqbal's work. Discuss how their research or professional activities have influenced the academic community, industry practices, or specific fields of study.

Legacy:

If applicable, discuss the lasting impact or legacy that Mujahid Iqbal has left in their field. This could be in terms of a particular theory, methodology, or the mentorship of students and colleagues.

Future Contributions:

Offer insights or expectations regarding Mujahid Iqbal's potential future contributions. This could be based on ongoing research, projects, or emerging trends in their field.

Notable Publication:

Construction of new solitary wave solutions of generalized Zakharov-Kuznetsov-Benjamin-Bona-Mahony and simplified modified form of Camassa-Holm equations   2018 (47)

Construction of bright–dark solitons and ion-acoustic solitary wave solutions of dynamical system of nonlinear wave propagation  2019 (42)

Construction of soliton solutions of the modify unstable nonlinear Schrödinger dynamical equation in fiber optics  2019 (33)

The nonlinear diffusion reaction dynamical system with quadratic and cubic nonlinearities with analytical investigations  2020 (21)

Construction of traveling and solitary wave solutions for wave propagation in nonlinear low-pass electrical transmission lines   2020 (18)

Author Profile

Google Scholar

 

Prof. Dr. Edvan Moreira | Molecular Physics Achievement Award | Award Winner 2023

Prof. Dr. Edvan Moreira | Molecular Physics Achievement Award | Award Winner 2023

Prof. Dr. Edvan Moreira | Molecular Physics

Congratulations to Prof. Dr. Edvan Moreira on receiving the Molecular Physics Achievement Award! This prestigious recognition is a testament to your unwavering dedication and exceptional contributions to the field of Molecular Physics. Your commitment to advancing knowledge in atomic and molecular structures, condensed matter physics, and computational modeling is truly commendable and has left an indelible mark on the scientific community. Your accomplishments reflect not only your expertise but also your passion for pushing the boundaries of understanding in physics. Brazil and the Universidade Estadual do Maranhão are undoubtedly proud to have such an accomplished physicist and researcher shaping the future of molecular physics.

Prof. Moreira, your success is an inspiration to aspiring scientists, and your work has undoubtedly elevated the standing of Brazilian research on the international stage. May this award serve as a well-deserved acknowledgment of your outstanding achievements and propel you to even greater heights in your continued pursuit of excellence in Molecular Physics. Congratulations once again on this remarkable accomplishment!

Early Academic Pursuits

Prof. Dr. Edvan Moreira began his academic journey with a solid foundation in physics, graduating from the Federal University of Maranhão (UFMA) in 2005. He continued his academic pursuit by earning a Master's degree in Physics from UFMA in 2008, showcasing early dedication to the field.

Professional Endeavors

Further advancing his expertise, Dr. Moreira completed a Ph.D. in Physics from the Federal University of Rio Grande do Norte (UFRN) in 2011. Subsequently, he engaged in postdoctoral research at the Biosciences Center (Biophysics-UFRN) from 2011 to 2012, broadening his interdisciplinary knowledge.

Currently serving as an Adjunct Professor and Head of the Department of Physics at UEMA, Dr. Moreira has taken on leadership roles in various educational programs, including the National Professional Master's Degree in Physics Teaching (MNPEF/SBF) and the Master's in Aerospace Engineering (PPgEA/RNAUEMA/UFMA/UFPE/UFRN). His involvement in these programs underscores his commitment to advancing physics education and research.

Notable Publication

Penta-belt: A new carbon nanobelt  5 September 2022, 133055

First-principle investigation of boron nitride nanobelt   February 2022, 113571

Structural, optoelectronic, infrared and Raman spectra of orthorhombic SrSnO3 from DFT calculations   4 April 2011, 921-928

Contributions and Research Focus

Dr. Moreira's research focuses on Atomic and Molecular Physics and Condensed Matter Physics, with an emphasis on ab initio methods, DFT, structural analysis, mechanical properties, optoelectronic properties, thermodynamics, and vibrational spectra (IR and Raman). As the Coordinator of the Computational Modeling Group (GMC-UEMA) and a member of the Dynamics and Ab Initio Group (GDAI-UnB), he actively contributes to cutting-edge research in these areas.

Accolades and Recognition

The recognition of Dr. Moreira's contributions is evident through his appointment as a Permanent Professor and Deputy Coordinator of the Doctorate in Teaching within the RENOEN Network. Additionally, he has received the Research Productivity Scholarship/Senior from PPG/UEMA for the periods 2018-2020 and 2021-2023, further acknowledging the impact of his scholarly endeavors.

Impact and Influence

Dr. Moreira's impact extends beyond research, as he plays a crucial role in shaping the academic landscape through teaching and mentorship. His leadership in various educational programs and research groups highlights his influence in fostering interdisciplinary collaboration and advancing knowledge in physics and related fields.

Legacy and Future Contributions

As an accomplished physicist and educator, Dr. Moreira's legacy lies in his multifaceted contributions to academia. His dedication to research, teaching, and leadership positions him as a figure inspiring future generations of physicists. Looking ahead, it is likely that Dr. Moreira will continue to make significant contributions to the field of physics, leaving a lasting imprint on both research and education.

Profile Link

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ORCID

Scopus

 

 

 

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!"

Education:

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-
1997)

Experience:

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:

Publications:

  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!