Muhammad Saleh Urf Kumail Haider | Engineering | Best Researcher Award

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Mr. Muhammad Saleh Urf Kumail Haider | Engineering | Best Researcher Award

Mr. Muhammad Saleh Urf Kumail Haider, Chongqing University, Pakistan.

Haider Muhammad Saleh Kumail is a highly accomplished researcher currently pursuing a Master’s in Electronic Information Engineering at Chongqing University, China. With a B.S. in Electronic Engineering from the University of Sindh, Pakistan, Kumail has contributed significantly to the development of optical fiber sensors and AI-based sensing systems. His work has led to publications in top-tier journals and earned him prestigious awards, including the CSC Fully Funded Master’s Scholarship and the Best Research Award for his work on graphene-based smart gas sensors.

Profile

🎓 Early Academic Pursuits

Haider Muhammad Saleh Kumail began his academic journey at the University of Sindh, Jamshoro, Pakistan, where he completed his B.S. in Electronic Engineering with a GPA of 3.05/4.00 in December 2021. His solid foundation in Electronic Engineering led him to pursue a M.Eng. in Electronic Information Engineering at Chongqing University, China, where he is currently enrolled, maintaining a strong academic performance with a percentage of 82.9%.

💼 Professional Endeavors

Haider’s professional journey has been marked by key roles in research projects related to advanced sensing technologies. He has worked at Chongqing University since January 2023 in the School of Microelectronics and Communication Engineering, contributing to the Lab of Intelligent LiFi and focusing on Optical Fiber Sensors. Previously, from February 2019 to December 2021, he collaborated with the National Centre of Excellence in Analytical Chemistry, University of Sindh, working on Graphene/Silicon Sensors.

🔬 Contributions and Research Focus On Engineering 

Haider’s research primarily revolves around optical fiber sensors, AI-based sensing systems, and multiparameter sensing systems. His groundbreaking work includes the development of portable and smartphone-driven sensors for applications in liquid level sensing, refractive index sensing, and humidity measurement. His most recent research, “Simultaneous Measurement of Liquid Level and R.I. Sensor Using POF Based on Twisted Structure,” published in Scientific Reports (Jan. 2025), demonstrates his innovation in fiber-optic sensor technology.

🌍 Impact and Influence

Haider’s contributions have significantly impacted the field of sensor technology, particularly in the areas of portable and multiparameter sensing systems. His work has led to advancements in optical fiber sensor design, improving precision and efficiency in fields such as environmental monitoring, industry, and healthcare. His research continues to influence academic peers and pave the way for future innovations.

🏆 Awards and Recognitions

Haider has received numerous accolades, including:

  • CSC Fully Funded Master’s Scholarship Award (Sep. 2022 – Jul. 2025)
  • Best Research Award for his work on Graphene-Based Smart Gas Sensors (Mar. 2022)
  • 1st Position in the Smart Electric Military Vehicle Project (Dec. 2019)

His recognition in the academic and research communities speaks volumes about his dedication and excellence.

💪 Legacy and Future Contributions

As Haider progresses in his career, his contributions to the optical sensor technology field are expected to leave a lasting legacy, particularly with his focus on smartphone-driven and AI-based sensor systems. In the future, Haider aims to push the boundaries of sensing technology, making it more affordable, efficient, and accessible across various industries.

Publications Top Notes

  • Smartphone-Based Optical Fiber Sensor for Refractive Index Sensing Using POF

    • Publication: Sensors and Actuators A: Physical, 116321 (2025)
    • Authors: MSUK Haider, C Chen, A Ghaffar, LU Noor, M Liu, S Hussain, B Arman, …
    • Year: 2025
    • 📱🔬

  • Simultaneous Measurement of Liquid Level and RI Sensor Using POF Based on Twisted Structure

    • Publication: Scientific Reports, 15 (1), 1163 (2025)
    • Authors: MSUK Haider, C Chen, A Ghaffar, S Hussain, M Mehdi, LU Noor, …
    • Year: 2025
    • 💧🔄

  • Portable Optical Fiber Sensor for Continuous Liquid Level Sensing Using Commercially Available POF

    • Publication: IEEE Sensors Journal (Accepted for publication)
    • Authors: MSUK Haider, C Chen, A Ghaffar, HM Alshehri, LU Noor, M Liu, …
    • Year: 2025
    • 🚀💡

Robert Cooney | Microbiology | Best Researcher Award

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Dr. Robert Cooney | Microbiology | Best Researcher Award

Dr. Robert Cooney, SUNY Upstate Medical University, United States.

🔹 Robert N. Cooney, MD, FACS, FCCM is a distinguished Professor and Patricia J. Numann Endowed Chair in the Department of Surgery at SUNY Upstate Medical University. With a B.A. in Biochemistry from the University of New Hampshire and an M.D. from UVM College of Medicine, he has held key leadership roles in surgery, trauma, and critical care. Dr. Cooney has contributed significantly to medical education, research, and surgical quality initiatives, securing funding from NIH, DoD, and NSF. 🚀

Profile

🎓 Early Academic Pursuits

Dr. Robert N. Cooney embarked on his academic journey at the University of New Hampshire, where he earned a B.A. in Biochemistry with Honors in 1979. His strong foundation in biochemistry paved the way for his enrollment at the UVM College of Medicine, where he obtained his M.D. degree in May 1985, with a Senior Major in Surgery. His commitment to surgical excellence was evident from the outset, as he pursued rigorous clinical training in esteemed institutions.

💼 Professional Endeavors

Dr. Cooney has held multiple prestigious positions throughout his career, currently serving as Professor and Patricia J. Numann Endowed Chair, Department of Surgery at SUNY Upstate Medical University. His professional trajectory includes roles such as Chief of General Surgery, Vice-Chair for Research, Co-Director of the Penn State Institute for Diabetes and Obesity, and Chief of Bariatric Surgery. His leadership and administrative skills have contributed to the growth and development of numerous surgical programs.

🔬 Contributions and Research Focus

Dr. Cooney’s research is deeply rooted in surgical critical care, trauma, and metabolic response to injury. His investigative work has secured funding from top agencies like the National Institutes of Health (NIH), Department of Defense (DoD), and National Science Foundation (NSF). As an active researcher and mentor, he has played a crucial role in advancing the understanding of critical care management, bariatric surgery, and trauma care protocols.

🌍 Impact and Influence

Dr. Cooney has profoundly impacted the field of surgery through his leadership, mentorship, and policy development. Under his guidance, the Surgery Department at SUNY Upstate Medical University has expanded significantly, enhancing its pediatric surgery, trauma, and transplant programs. His dedication to surgical quality is evident in his role as the Surgery Quality Officer and his contributions to NSQIP and the UNYSQI collaborative.

🏅Certifications & Credentials 

Dr. Robert Cooney holds prestigious certifications that emphasize his exceptional expertise in surgery and critical care. He is a Fellow of the American College of Surgeons (1995) and a Fellow of the American College of Critical Care Medicine (1999). His qualifications are enhanced by certifications in Surgery Critical Care through the American Board of Surgery in 1993, 2003, and 2013. Additionally, he is a Diplomate of the National Board of Medical Examiners (1986) and holds various provider certifications, including ATLS and ACLS.

🏆 Awards and Recognitions

Dr. Cooney’s accomplishments have earned him numerous awards and honors. Notable recognitions include the 2022 SUNY Chancellor’s Award for Excellence in Faculty Service, and the 2017 Patricia J Numann Endowed Chair of Surgery. His contributions to surgical education were honored with the Ballentine Award for Excellence in Surgical Education (2003). He has also been featured in Who’s Who Among America’s Teachers and Educators (2007), and the Best Doctors in America list (2002-2015).

📚 Academic Cites

Dr. Cooney’s scholarly contributions are well-recognized, with numerous citations in peer-reviewed journals and medical publications. His work has been widely referenced in research related to trauma surgery, metabolic response, and critical care. As an educator, he has also contributed to medical textbooks and surgical guidelines, enriching the knowledge base for future surgeons.

💪 Legacy and Future Contributions

As a distinguished surgeon, educator, and researcher, Dr. Cooney continues to shape the future of surgery. His legacy is built on his commitment to education, innovation in research, and enhancement of patient care standards. Looking ahead, he aims to further expand research initiatives, mentor the next generation of surgeons, and drive improvements in surgical quality and trauma care protocols.

Publications Top Notes

1. Recombinant human interleukin 1 receptor antagonist in the treatment of patients with sepsis syndrome: results from a randomized, double-blind, placebo-controlled trial
📖 Journal: Jama
🔢 Citations: 1364
📅 Year: 1994

2. Double-blind randomised controlled trial of monoclonal antibody to human tumour necrosis factor in treatment of septic shock
📖 Journal: The Lancet
🔢 Citations: 895
📅 Year: 1998

3. Limits of body mass index to detect obesity and predict body composition
📖 Journal: Nutrition
🔢 Citations: 779
📅 Year: 2001

4. Obesity-related elevations in plasma leucine are associated with alterations in enzymes involved in branched-chain amino acid metabolism
📖 Journal: American Journal of Physiology-Endocrinology and Metabolism
🔢 Citations: 559
📅 Year: 2007

5. Validation of several established equations for resting metabolic rate in obese and nonobese people
📖 Journal: Journal of the American Dietetic Association
🔢 Citations: 421
📅 Year: 2003

6. Analysis of estimation methods for resting metabolic rate in critically ill adults
📖 Journal: Journal of Parenteral and Enteral Nutrition
🔢 Citations: 300
📅 Year: 2009

7. Use of a human patient simulator in the development of resident trauma management skills
📖 Journal: Journal of Trauma and Acute Care Surgery
🔢 Citations: 261
📅 Year: 2001

8. Suppressors of cytokine signaling (SOCS): inhibitors of the JAK/STAT pathway
📖 Journal: Shock
🔢 Citations: 242
📅 Year: 2002

9. Abandon the mouse research ship? Not just yet!
📖 Journal: Shock
🔢 Citations: 182
📅 Year: 2014

10. IL-1 receptor antagonist attenuates sepsis-induced alterations in the IGF system and protein synthesis
📖 Journal: American Journal of Physiology-Endocrinology and Metabolism
🔢 Citations: 182
📅 Year: 1996

Tingting Chen | Agricultural | Best Researcher Award

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Assoc. Prof. Dr. Tingting Chen | Agricultural | Best Researcher Award

Assoc. Prof. Dr. Tingting Chen, China National Rice Research Institute, China.

Tingting Chen is an Associate Professor at the Research and Development Center of Rice Cropping Technology, China National Rice Research Institute (CNRRI). With a Ph.D. from Yangzhou University, her research focuses on drought stress physiology, water management, and chemical regulation in rice. She has led significant projects funded by the National Key Research and Development Program of China and published extensively in top-tier journals, advancing agricultural science with a focus on improving rice yield and quality under stress conditions.

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🎓 Early Academic Pursuits

Assoc. Prof. Dr. Tingting Chen’s academic journey began at Yangzhou University, where she earned her Bachelor’s degree in Agriculture and Biotechnology in 2009. She continued to pursue higher education at the same institution, receiving her Master’s degree in Agriculture in 2011 and completing her Ph.D. in 2014, specializing in agricultural sciences.

💼 Professional Endeavors

Currently serving as an Associate Professor at the Research and Development Center of Rice Cropping Technology, China National Rice Research Institute (CNRRI), Dr. Chen has contributed significantly to the field of rice cultivation. With a focus on drought stress, water management, and chemical regulation of high-yield crops, her expertise is integral to advancing sustainable rice production in China.

🔬 Contributions and Research Focus

Dr. Chen’s research focuses on understanding the physiological mechanisms of drought stress, optimizing water management for high-yield rice, and investigating chemical regulation to improve resistance to abiotic stress. Notable research includes studies funded by the National Key Research and Development Program of China and several Zhejiang Province Natural Science Foundations aimed at enhancing rice yield and quality under stressful environmental conditions.

🌍 Impact and Influence

Dr. Chen’s work has profoundly impacted agricultural practices, particularly in enhancing rice productivity under varying environmental stressors. Her findings on drought resistance, salicylic acid regulation, and grain filling mechanisms are instrumental in improving rice cultivation methods, offering farmers valuable strategies for boosting resilience and crop quality.

🏆 Awards and Recognitions

Assoc. Prof. Dr. Tingting Chen has earned significant recognition for her groundbreaking contributions to rice research. Her work has been acknowledged through multiple prestigious research grants, including the National Key Research and Development Program of China and the Zhejiang Province Natural Science Foundation. Dr. Chen’s innovative research on drought resistance and high-yield cultivation has garnered widespread acclaim, solidifying her position as a leader in agricultural science and a key figure in the field of sustainable rice production.

📚 Academic Cites

Dr. Chen’s published papers have gained wide recognition, with several works featured in renowned journals such as Frontiers in Plant Science, Agronomy, and Rice Science. Her highly-cited works include research on ATPase activity promoting heat resistance and the strengthened assimilate transport improving rice yield and quality. These publications showcase her contribution to advancing agricultural science, with an ever-growing citation count.

💪 Legacy and Future Contributions

Dr. Chen’s legacy lies in her innovative approaches to rice crop management and stress resilience. Looking ahead, her continued research promises further breakthroughs in sustainable rice farming, with a focus on integrating climate resilience and enhancing yield efficiency. Her work will likely play a pivotal role in future agricultural policies and practices, contributing to global food security.

Publications Top Notes

Energy Deficiency and Misdistribution Leads to Disrupted Formation in Grain Yield and Rice Quality

Authors: Yiding Wang, Guangyan Li, Jiaying Ma, Jie Xiong, Tingting Chen

Journal: International Journal of Molecular Sciences

Year: 2024

Research Progress of Plasma Membrane H+-ATPase Functioned in Plant Growth and Development and Its Response to Abiotic Stress

Authors: Wenhui Yan, Tingting Lu, Huanran Wang, Zhihai Wu, Guanfu Fu

Journal: Zhiwu Shengli Xuebao / Plant Physiology Journal

Year: 2024

MiR408 Balances Plant Growth and Heat Response in Rice

Authors: Fengting Wen, Yu Gao, Yuxiang Zeng, Jie Xiong, Guanfu Fu

Journal: Environmental and Experimental Botany

Year: 2024

Citations: 2 📅🌱

Transcriptome and Metabolome Analyses Reveal Ascorbic Acid Ameliorates Cold Tolerance in Rice Seedling Plants

Authors: Huanran Wang, Tingting Lu, Wenhui Yan, Zhihai Wu, Baohua Feng

Journal: Agronomy

Year: 2024

Citations: 1 📅❄️

RGA1 Negatively Regulates Thermo-tolerance by Affecting Carbohydrate Metabolism and the Energy Supply in Rice

Authors: Baohua Feng, Yongqiang Xu, Weimeng Fu, Tingting Chen, Guanfu Fu

Journal: Rice

Year: 2023

Citations: 8 📅🌾

RGA1 Alleviates Low-light-repressed Pollen Tube Elongation by Improving the Metabolism and Allocation of Sugars and Energy

Authors: Hubo Li, Baohua Feng, Juncai Li, Longxing Tao, Guanfu Fu

Journal: Plant, Cell & Environment

Year: 2023

Citations: 17 📅🌱

HONEY JOHN | RENEWABLE ENERGY | WOMEN RESEARCHER AWARD

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Prof. Dr. HONEY JOHN  | RENEWABLE ENERGY | WOMEN RESEARCHER AWARD

Prof. Dr. HONEY JOHN, COCHIN UNIVERSITY OF SCIENCE AND TECHNOLOGY, INDIA.

Prof. Dr. Honey John is a distinguished 🔬 scientist, educator, and research leader with 28 years of experience in polymer technology and materials science. She has supervised 🔍 10 Ph.D. scholars, mentored postdoctoral researchers, and led national and international projects in energy, environment, and advanced materials. As Hon. Director at CUSAT, she has pioneered cutting-edge research facilities and fostered global academic collaborations. Her contributions include 110+ publications, patents, and prestigious awards, making her a trailblazer in STEM. 🚀

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🎓EARLY ACADEMIC PURSUITS

Prof. Dr. Honey John began her academic journey with a strong foundation in Chemistry and Polymer Technology. She earned her Master of Science in Chemistry (1994) from Mahatma Gandhi University, followed by a Master of Technology in Polymer Technology (1996) from Cochin University of Science and Technology (CUSAT). She further pursued her Ph.D. in Polymer Technology (2004) from CUSAT, where she developed expertise in conducting polymers and their applications. Her early research set the stage for groundbreaking contributions to material science.

💼PROFESSIONAL ENDEAVORS

With 28 years of teaching and research experience, Prof. Dr. Honey John has made remarkable strides in academia. She currently serves as a Professor at CUSAT, Kerala, India, where she has held key leadership roles, including Head of Department and Director of the Inter University Centre for Nanomaterials and Devices (IUCND). Throughout her career, she has guided Ph.D., M.Tech., M.Sc., and B.Tech. students, developed cutting-edge laboratories, and led prestigious national and international research projects.

🔬CONTRIBUTIONS AND RESEARCH FOCUS

Prof. Dr. John’s research spans material science for energy and environmental applications, focusing on innovative materials such as graphene, MXenes, and conducting polymers for supercapacitors, hydrogen evolution reactions, triboelectric nanogenerators, and environmental remediation. Her work has resulted in the publication of 110 international journal papers and 90 conference papers, along with several patents, showcasing her contribution to cutting-edge scientific advancements.

🔍 IMPACT AND INFLUENCE

Prof. Dr. Honey John’s impact transcends academia. She has spearheaded high-value national and international research projects, secured substantial funding, and organized international conferences that foster academic collaborations. As an influential educator, she has shaped curricula and trained students across disciplines, from undergraduate to Ph.D. levels. She is also a passionate advocate for interdisciplinary research, with an emphasis on integrating industry and government-supported initiatives into academic projects.

🏅 AWARDS AND RECOGNITIONS

Prof. Dr. Honey John has received multiple prestigious awards throughout her career:

  • PAT Tagore Puraskar 2023 in Corporate Plastic Control Mission.
  • Academic Excellence Award by DRDO, Government of India (2020).
  • Listed in Women Achievers in Science (2012).
  • Women Scientist Fellowship, DST, Government of India (2006).
  • Young Scientist Award, Kerala Science Congress (2003).
  • Numerous Best Paper Awards at national and international forums

📚 LEGACY AND FUTURE CONTRIBUTIONS

Prof. Dr. Honey John’s legacy in academia is built on her dedication to teaching, research, and the growth of the scientific community. Her innovative approaches in material development, especially for sustainable and green technologies, are poised to contribute significantly to the energy and environment sectors in the coming years. Her ongoing projects, including a collaboration with Flinders University, Australia, highlight her commitment to shaping future advancements in nanomaterials and energy storage technologies.

Publications Top Notes

  • Microwave absorption, reflection and EMI shielding of PU–PANI composite
    📖 Acta Materialia 57 (2), 371-375 | 🏅 302 citations | 📅 2009

  • Graphene coupled TiO2 photocatalysts for environmental applications: A review
    📖 Chemosphere 271, 129506 | 🏅 235 citations | 📅 2021

  • Synthesis of reduced graphene oxide–ZnO hybrid with enhanced optical limiting properties
    📖 Journal of Materials Chemistry C 1 (23), 3669-3676 | 🏅 176 citations | 📅 2013

  • Titanium dioxide based self-cleaning smart surfaces: A short review
    📖 Journal of Environmental Chemical Engineering 8 (5), 104211 | 🏅 162 citations | 📅 2020

  • Synthesis and nonlinear optical properties of reduced graphene oxide covalently functionalized with polyaniline
    📖 Carbon 59, 308-314 | 🏅 125 citations | 📅 2013

  • Defect engineering in ZnO nanocones for visible photoconductivity and nonlinear absorption
    📖 Physical Chemistry Chemical Physics 16 (45), 25093-25100 | 🏅 101 citations | 📅 2014

  • Reduced graphene oxide–ZnO self-assembled films: tailoring the visible light photoconductivity by the intrinsic defect states in ZnO
    📖 Physical Chemistry Chemical Physics 17 (22), 14647-14655 | 🏅 73 citations | 📅 2015

  • Hydrothermal synthesis of ZnO decorated reduced graphene oxide: understanding the mechanism of photocatalysis
    📖 Journal of Environmental Chemical Engineering 3 (2), 1194-1199 | 🏅 71 citations | 📅 2015

  • Electrode materials for stretchable triboelectric nanogenerator in wearable electronics
    📖 RSC Advances 12 (17), 10545-10572 | 🏅 57 citations | 📅 2022

  • Conducting polyaniline composites as microwave absorbers
    📖 Polymer Composites 28 (5), 588-592 | 🏅 56 citations | 📅 2007

  • New insights into the efficient charge transfer of ternary chalcogenides composites of TiO2
    📖 Applied Catalysis B: Environmental 282, 119612 | 🏅 51 citations | 📅 2021

  • Optical limiting studies of ZnO nanotops and its polymer nanocomposite films
    📖 Applied Physics Letters 101 (7) | 🏅 48 citations | 📅 2012

  • Carbon dioxide adsorption studies on modified montmorillonite clay/reduced graphene oxide hybrids at low pressure
    📖 Journal of Environmental Chemical Engineering 7 (5), 103344 | 🏅 42 citations | 📅 2019

  • Impact of structure, doping and defect-engineering in 2D materials on CO2 capture and conversion
    📖 Reaction Chemistry & Engineering 6 (10), 1701-1738 | 🏅 41 citations | 📅 2021

  • Recent trends in industrial and academic developments of green tyre technology
    📖 Polymer Bulletin 80 (8), 8215-8244 | 🏅 35 citations | 📅 2023

  • Nanosilica decorated multiwalled carbon nanotubes (CS hybrids) in natural rubber latex
    📖 Polymer 161, 170-180 | 🏅 34 citations | 📅 2019

  • Antibacterial self-cleaning binary and ternary hybrid photocatalysts of titanium dioxide with silver and graphene
    📖 Journal of Environmental Chemical Engineering 10 (2), 107275 | 🏅 31 citations | 📅 2022

  • Comparison of microwave and electrical properties of selected conducting polymers
    📖 Microwave and Optical Technology Letters 50 (2), 504-508 | 🏅 31 citations | 📅 2008

  • Morphology engineered spatial charge separation in superhydrophilic TiO2/graphene hybrids for hydrogen production
    📖 Materials Today Energy 17, 100447 | 🏅 30 citations | 📅 2020

  • Self-powered ultra-sensitive millijoule impact sensor using room temperature cured PDMS based triboelectric nanogenerator
    📖 Microelectronic Engineering 251, 111664 | 🏅 citations not listed | 📅 2024

BASHAYER ALSHWEEMAN | NURSING | BEST RESEARCHER AWARD

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Ms. BASHAYER ALSHWEEMAN | NURSING | BEST RESEARCHER AWARD

Ms. BASHAYER ALSHWEEMAN , KFSHRC, SAUDI ARABIA.

Bashayer M. Al-Shweeman is a 🏥 Head Nurse at the Organ Transplant Center of Excellence, King Faisal Specialist Hospital & Research Centre, Riyadh. She holds a 🎓 BSN (2016) and MSN (2022) from King Saud University. With 9+ years of experience, she has led nurse-driven transplant care projects and researched quality of life in lung and liver transplant patients. Her 📖 ongoing studies focus on empowerment programs and healthcare accessibility. Passionate about 🩺 transplant nursing and patient care innovations, she is a 🏆 strong candidate for the Best Researcher Award.

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🎓EARLY ACADEMIC PURSUITS

Bashayer M. Al-Shweeman began her academic journey with a Bachelor of Science in Nursing (BSN) from King Saud University (KSU) in 2016. With a passion for advancing healthcare administration, she pursued a Master of Science in Nursing (MSN) with a specialization in Nursing Administration from KSU in 2022. These foundational years instilled in her the expertise needed to lead in the dynamic field of organ transplantation nursing.

💼PROFESSIONAL ENDEAVORS

With nine years of diverse nursing experience, Bashayer has progressed from a General Surgery Nurse (4 years) to an Assistant Head Nurse (2 years), and currently serves as the Head Nurse at the Organ Transplant Center of Excellence (OTCoE) at KFSHRC-R (3 years). She has been instrumental in developing and leading key projects that enhance patient care and optimize nursing operations in the transplant unit.

🔬CONTRIBUTIONS AND RESEARCH FOCUS

Bashayer has actively contributed to advancing nursing practices and patient outcomes, particularly in the field of organ transplantation. She played a pivotal role in departmental research initiatives, including:

  • Enhancing Liver Post-Donor Care through a Nurse Practitioner-Led Clinic
  • Implementing Liver Donor Biopsy in an Ambulatory Care Setting
  • Assessing Quality of Life in Adult Lung Transplant Recipients (Completed)
  • Examining the Outcomes of an Empowerment Educational Program on Adult Liver Transplant Recipients (Ongoing, RCT)
  • Translation and Validation of the ‘Identification of Medication Adherence Barriers Questionnaire’ (IMAB-Q 30) to Arabic (Ongoing)

🔍 IMPACT AND INFLUENCE

Her leadership and research efforts have significantly contributed to improving transplant patient care. Through her pioneering projects, she has enhanced clinical decision-making, empowered patients through education, and facilitated better post-transplant recovery. Her expertise in nursing administration, patient education, and research methodologies has made a profound impact in the field of organ transplantation.

🏅 AWARDS AND RECOGNITIONS

🏆 Recognized for outstanding contributions in Transplant Nursing
🏆 Awarded for innovative healthcare projects enhancing patient care
🏆 Honored for leadership in Organ Transplant Center of Excellence

Her achievements reflect dedication, expertise, and a commitment to advancing transplant nursing.

📚 LEGACY AND FUTURE CONTRIBUTIONS

Bashayer envisions a future where nursing-led interventions play a crucial role in improving organ transplantation outcomes. She is committed to mentoring young nurses, developing evidence-based nursing protocols, and advocating for holistic patient care. Her future research will continue to focus on enhancing the quality of life for transplant recipients and refining post-operative nursing care models.

Publications Top Notes

1️⃣📄 Assessing the Quality of Life in Adult Lung Transplant Recipients – Quality of Life Post-Lung Transplant ✅

2️⃣ 🧪 Examining the Outcomes of an ‘Empowerment Educational Program’ on Adult Liver Transplant Recipients (RCT) 🔄
3️⃣ 📝 Translation and Validation of the ‘Identification of Medication Adherence Barriers Questionnaire’ (IMAB-Q 30) to Arabic 🔄

 

Sarika | Mathematics | Best Researcher Award

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Assist. Prof. Dr. Sarika | Mathematics | Best Researcher Award 

Assist. Prof. Dr. Sarika, Netaji Subhas University of Technology, Delhi ,India.

Dr. Sarika Goyal is an Assistant Professor at Netaji Subhas University of Technology, Delhi, with a distinguished career in mathematical research and education. She holds a Ph.D. from IIT Delhi and has expertise in Partial Differential Equations and Variational Methods. A recipient of prestigious awards like the Bharat Vikas Award (2017), she has delivered invited talks at global conferences and mentored Ph.D. scholars. Her contributions significantly impact mathematical sciences and academia. 🎓📚

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🎓 Early Academic Pursuits

Dr. Sarika Goyal, born on August 8, 1987, exhibited a strong inclination toward mathematics from an early age. She pursued her Bachelor of Arts in Mathematics (Hons.) from Lakshmi Bai College, University of Delhi, securing an impressive 83.88%. Continuing her academic excellence, she completed her Master of Arts in Mathematics from Hindu College, University of Delhi, with a score of 76.62%. Her M.Phil. dissertation, under the guidance of Dr. Ratikanta Panda, focused on “Weierstrass Theorem with Weights”, securing 75.4%.

💼 Professional Endeavors

Dr. Goyal’s teaching career began in June 2016 at Bennett University, Greater Noida, where she served as an Assistant Professor until June 2021. She was later promoted to Associate Professor in July 2021 and continued in this role until February 2023. Currently, she is an Assistant Professor at Netaji Subash University of Technology (NSUT), Dwarka, since March 2023.

🔬 Contributions and Research Focus

Dr. Goyal has made significant contributions in the field of Mathematical Analysis, specializing in Partial Differential Equations and Non-Local Elliptic Equations. Her Ph.D. research, supervised by Dr. K. Sreenadh, focused on “Elliptic Equations and Non-Local Elliptic Equations with Sign-Changing Nonlinearities”. She also completed a Post-Doctoral Fellowship at IIT Delhi (2015-2016), further refining her expertise in Variational Methods.

🌍 Impact and Influence

Beyond research, Dr. Goyal has mentored several Ph.D. students, shaping the next generation of mathematicians. Notable students under her guidance include Anu Rani, Tarun Sharma, Diksha Saini, Abhishek, and Vishal, who have pursued successful careers in academia and research. She has also chaired academic sessions at prestigious conferences such as the Ramanujan Mathematical Society Conference (IIT Guwahati, 2023) and the SIAM Conference on Analysis of Partial Differential Equations (California, 2019).

🏆 Awards and Recognitions

Dr. Goyal has received numerous awards, including:

  • Bharat Vikas Award (2017)
  • 8th Venus International Research Award (2022)
  • NBHM Post-Doctoral Fellowship (2015)
  • CSIR-UGC Junior Research Fellowship (2009)
  • Selected among the top 100 Women Mathematicians worldwide for ICM-2014 (Seoul, South Korea)
  • International Travel Grants from DST-SERB & NBHM to present research in USA, Brazil, Italy, and Abu Dhabi

💪 Legacy and Future Contributions

Dr. Goyal continues to make a lasting impact in the field of mathematics through her research, teaching, and mentorship. Her dedication to advancing knowledge in Elliptic Equations, Variational Methods, and Partial Differential Equations ensures that she remains at the forefront of mathematical sciences. She aims to further expand her research collaborations, contribute to policy-making in mathematical education, and inspire young scholars to explore the vast realms of mathematics.

Publications Top Notes

📘 Existence of multiple solutions of p-fractional Laplace operator with sign-changing weight function
📅 2015 | 🔢 69 citations
✍️ S Goyal, K Sreenadh
📖 Advances in Nonlinear Analysis 4 (1), 37-58

📘 Nehari manifold for non-local elliptic operator with concave–convex nonlinearities and sign-changing weight functions
📅 2015 | 🔢 62 citations
✍️ S Goyal, K Sreenadh
📖 Proceedings-Mathematical Sciences 125, 545-558

📘 On the Fučik spectrum of non-local elliptic operators
📅 2014 | 🔢 24 citations
✍️ S Goyal, K Sreenadh
📖 Nonlinear Differential Equations and Applications NoDEA 21, 567-588

📘 n-Kirchhoff type equations with exponential nonlinearities
📅 2016 | 🔢 22 citations
✍️ S Goyal, PK Mishra, K Sreenadh
📖 Revista de la Real Academia de Ciencias Exactas, Físicas y Naturales. Serie …

📘 Quasilinear Schrödinger Equations With Stein-Weiss Type Convolution and Critical Exponential Nonlinearity
📅 2024 | 🔢 12 citations
✍️ R Biswas, S Goyal, K Sreenadh
📖 The Journal of Geometric Analysis 34 (2), 54

📘 Polyharmonic Kirchhoff type equations with singular exponential nonlinearities
📅 2016 | 🔢 12 citations
✍️ PK Mishra, S Goyal, K Sreenadh
📖 arXiv preprint arXiv:1604.00155

📘 The Nehari manifold approach for N-Laplace equation with singular and exponential nonlinearities in ℝN
📅 2015 | 🔢 12 citations
✍️ S Goyal, K Sreenadh
📖 Communications in Contemporary Mathematics 17 (03), 1450011

📘 Multiplicity results of fractional p-Laplace equations with sign-changing and singular nonlinearity
📅 2017 | 🔢 10 citations
✍️ S Goyal
📖 Complex Variables and Elliptic Equations 62 (2), 158-183

📘 Fractional Hardy-Sobolev operator with sign-changing and singular nonlinearity
📅 2020 | 🔢 9 citations
✍️ S Goyal
📖 Applicable Analysis 99 (16), 2892-2916

📘 Multiplicity results for Kirchhoff modified Schrödinger equations with Stein-Weiss type critical nonlinearity
📅 2023 | 🔢 7 citations
✍️ R Biswas, S Goyal, K Sreenadh
📖 Differential and Integral Equations 36 (3/4), 247-288

📘 Multiple solutions for biharmonic critical Choquard equation involving sign-changing weight functions
📅 2022 | 🔢 7 citations
✍️ A Rani, S Goyal

📘 On the eigenvalues and Fučik spectrum of p-fractional Hardy-Sobolev operator with weight function
📅 2018 | 🔢 7 citations
✍️ S Goyal
📖 Applicable Analysis 97 (4), 633-658

📘 Fractional elliptic equations with sign-changing and singular nonlinearity
📅 2016 | 🔢 7 citations
✍️ S Goyal, K Sreenadh
📖 Electronic Journal of Differential Equations 2016 (145), 1-23

📘 The Nehari manifold for a quasilinear polyharmonic equation with exponential nonlinearities and a sign-changing weight function
📅 2015 | 🔢 Not provided
✍️ S Goyal, K Sreenadh
📖 Advances in Nonlinear Analysis 4 (3), 177-200

 

 

Brandon Itson-Zoske | Pain | Best Researcher Award

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Mr. Brandon Itson-Zoske | Pain | Best Researcher Award

Mr. Brandon Itson-Zoske, Medical College of Wisconsin, United States.

Brandon Itson-Zoske, BS 🖤 is a Research Technologist II at the Medical College of Wisconsin, specializing in molecular pain research and gene therapy. With eight years of experience in Dr. Hongwei Yu’s lab, he focuses on developing peripheral nervous system-targeted therapies for chronic pain. A graduate of the University of Wisconsin-La Crosse, he has contributed to groundbreaking research in pain mechanisms and innovative treatments. His dedication to advancing gene and molecular therapy underscores his role in transformative pain management studies.

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🎓 Early Academic Pursuits

Brandon Itson-Zoske pursued his Bachelor of Science (BS) degree at the University of Wisconsin-La Crosse, La Crosse, WI. His academic journey laid a strong foundation in molecular pain research and gene therapy, shaping his interest in exploring innovative treatments for chronic pain.

💼 Professional Endeavors

Mr. Itson-Zoske has been a dedicated Research Technologist II at the Medical College of Wisconsin for the past eight years. Since joining Dr. Hongwei Yu’s pain research team, he has played a crucial role in advancing gene and molecular therapy targeting the peripheral nervous system (PNS) for chronic pain management. His professional experience reflects his commitment to scientific discovery and translational medicine.

🔬 Contributions and Research Focus

Brandon’s primary focus is molecular pain research and pain gene therapy. He collaborates on groundbreaking projects aimed at understanding pain mechanisms at a genetic level and developing novel therapeutic strategies. His expertise contributes significantly to the advancement of targeted pain relief treatments through gene modulation.

🌍 Impact and Influence

Brandon’s research has contributed to transformative insights in pain management, influencing the scientific and medical communities. His work supports advancements in:
📌 Personalized pain therapies based on genetic markers.
📌 Reduction of opioid dependency through alternative treatment approaches.
📌 Collaboration with industry experts and medical professionals to translate research into clinical applications.

📖 Academic Citations and Publications

Brandon’s research is gaining recognition within the scientific community, with contributions to peer-reviewed journals and research collaborations. His work has been cited in multiple studies related to molecular pain mechanisms and gene therapy.

🔗 Collaborations and Consultancy

Brandon has been actively involved in collaborations with industry leaders and academic institutions to advance pain research. His consultancy roles include:
Industry Projects in molecular pain research.
Research Collaborations with specialists in pain gene therapy.
Participation in interdisciplinary studies to enhance pain treatment strategies

🏆 Award Recognition:

Brandon Itson-Zoske has been nominated for the Global Best Achievements Awards, recognizing his significant contributions to pain research and molecular gene therapy. His innovative work has the potential to reshape pain treatment and improve patient outcomes worldwide.

🏅 Legacy and Future Contributions

Brandon Itson-Zoske’s dedication to molecular pain research positions him as a key contributor to next-generation pain therapies. His future contributions aim to:
✨ Develop more effective and less invasive pain relief strategies.
✨ Strengthen global research networks in pain management.
✨ Publish innovative findings that could redefine approaches to chronic pain therapy.

Publications Top Notes

“Peripheral-targeted analgesia via AAV-mediated sensory neuron-specific inhibition of multiple pronociceptive sodium channels in rat”

  • Authors: Shin SM, Itson-Zoske B, Qiu C, Fan F, Xiao Y, Cummins TR, Hogan QH, Yu H.
  • Journal: Journal of Clinical Investigation
  • Year: 2024

“Sigma-1 receptor activity in primary sensory neurons is a critical driver of neuropathic pain”

  • Authors: Shin SM, Wang F, Qiu C, Itson-Zoske B, Hogan QH, Yu H.
  • Journal: Gene Therapy
  • Year: 2022

“Piezo2 mechanosensitive ion channel is located to sensory neurons and nonneuronal cells in rat peripheral sensory pathway: implications in pain”

  • Authors: Shin SM, Moehring F, Itson-Zoske B, Fan F, Stucky CL, Hogan QH, Yu H.
  • Journal: Pain
  • Year: 2021

“Selective block of sensory neuronal T-type/Cav3.2 activity mitigates neuropathic pain behavior in a rat model of osteoarthritis pain”

  • Authors: Itson-Zoske B, Shin SM, Fan F, Gani U, Hogan QH, Yu H.
  • Journal: Molecular Pain
  • Year: 2022

“Satellite glial cells in sensory ganglia express functional transient receptor potential A1 channels”

  • Authors: Shin SM, Itson-Zoske B, Cai Y, Qiu C, Stucky CL, Hogan QH, Yu H.
  • Journal: Molecular Pain
  • Year: 2020

 

Rodrigue Abouem A Ribama | Nonlinear Dynamics | Excellence in Research Award

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Dr. Rodrigue Abouem A Ribama | Nonlinear Dynamics | Excellence in Research Award

Dr. Rodrigue Abouem A Ribama, University of Douala, Cameroon.

Abouem A Ribama Rodrigue is a dedicated researcher in nonlinear dynamics, numerical analysis, and quantum physics. He is currently pursuing a PhD in Physics at the University of Douala, Cameroon, focusing on intrinsic localized modes and modulational instability in Klein-Gordon chains. With multiple publications in prestigious journals, he has contributed significantly to the field of energy localization and impurity interactions. His scientific collaborations and conference participations highlight his commitment to advancing theoretical and computational physics.

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🎓 Early Academic Pursuits

ABOUEM A RIBAMA Rodrigue embarked on his academic journey with a strong foundation in physics. He obtained his Advanced Level Diploma in 2013 from Maroua Classical and Modern School, Cameroon. His passion for physics led him to the University of Douala, where he earned a Bachelor’s Degree in Physics (2013-2017), followed by a Master’s Degree in Physics (2017-2019). In 2024, he commenced his PhD studies in the Department of Physics, Faculty of Sciences, University of Douala, Cameroon, solidifying his commitment to advanced research.

💼 Professional Endeavors

As a dedicated physicist, Rodrigue has been actively involved in academia, collaborating with esteemed scholars and researchers. His work primarily revolves around complex systems, nonlinear dynamics, and numerical simulations. Under the supervision of Prof. Jean Pierre Nguenang and Dr. Zacharie Isidore Djoufack, he has significantly contributed to the field of quantum physics.

🔬 Contributions and Research Focus

Rodrigue Abouem A Ribama’s research focuses on nonlinear dynamics, numerical simulations, and quantum systems, particularly in the Klein-Gordon chain. His work explores breather-impurity interactions, impurity-induced energy localization, and intrinsic localized modes in quantum systems. By analyzing modulational instability and self-trapping phenomena, he has contributed to advancing theoretical and computational models in nonlinear physics. His findings, published in high-impact journals, provide deeper insights into energy transport mechanisms and have significant implications for quantum mechanics and condensed matter physics.

🌍 Impact and Influence

Rodrigue’s work has significantly contributed to the understanding of quantum nonlinear systems, influencing contemporary research in nonlinear physics. His collaboration with esteemed professors like Jean Pierre Nguenang and Zacharie Isidore Djoufack underscores his role in advancing scientific inquiry.

🏆 💪 Awards and Honors Highlight

  • Recognized for excellence in nonlinear dynamics research at the University of Douala
  • Invited speaker at Valorization Week of the Faculty of Science, Douala (2022)
  • Active participant in international physics conferences and workshops

🏆 Notable Scientific Collaborators

  • Jean Pierre Nguenang, Professor, University of Douala, Cameroon
  • Zacharie Isidore Djoufack, Researcher, University of Dschang & African Institute for Mathematical Sciences (AIMS), South Africa

📈 Legacy and Future Contributions

Rodrigue’s research continues to shape theoretical and applied physics, particularly in nonlinear dynamics. His Ph.D. thesis proposal, titled Intrinsic Localized Modes and Impure Modes Associated with Modulational Instability in a 1D/2D Klein-Gordon Chain: A Semi-Classical Approach, aims to further scientific knowledge in quantum nonlinear systems. With a strong network of scientific collaborators, he is poised to make groundbreaking contributions to mathematical physics and numerical simulations.

Publications Top Notes

“Scattering of impure mode and self-trapping phenomenon in a 1D quantum diatomic Klein–Gordon chain containing a mass defect”

Authors: R. Abouem A. Ribama, Z. I. Djoufack, J. P. Nguenang

Journal: The European Physical Journal Plus

Year: 2024

“Breather-impurity interactions and modulational instability in a quantum 2D Klein–Gordon chain”

Authors: R. Abouem A. Ribama, Z. I. Djoufack, J. P. Nguenang

Journal: The European Physical Journal B

Year: 2022

Citations: 4

“Impurity–impurity and impurity–breather interactions combined with energy localization in a quantum 1D Klein–Gordon chain”

Authors: Z. I. Djoufack, R. Abouem A. Ribama, J. P. Nguenang

Journal: Chaos, Solitons & Fractals

Year: 2023

Citations: 2

“Effects of nonlinear coupling parameters on the formation of intrinsic localized modes in a quantum 1D mixed Klein–Gordon/Fermi–Pasta–Ulam chain”

Authors: R. Abouem A. Ribama, Z. I. Djoufack, J. P. Nguenang

Year: 2025

Ivana Validzic | Nanotechnology | Best Researcher Award

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Prof. Dr. Ivana Validzic | Nanotechnology | Best Researcher Award

Prof. Dr. Ivana Validzic, Vinca Institute of Nuclear Science, University in Belgrade, Serbia.

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🎓 Early Academic Pursuits

Dr. Ivana Validžić embarked on her academic journey at the Faculty of Physical Chemistry, University of Belgrade, where she graduated in 1999. Shortly after, she took up a role as an assistant at the same faculty, marking the beginning of her career in research and academia. In March 2000, she advanced her studies at Utrecht University, The Netherlands, joining the Van ‘t Hoff Laboratory for Physical and Colloid Chemistry, which is part of the Debye Institute for Nanomaterials Science. Her work there involved both research and teaching, contributing significantly to her field.

💼 Professional Endeavors

After completing her Ph.D. in 2004, Dr. Validžić continued her professional path at prestigious institutes. She began her career as an Assistant Research Professor at the Institute of Technical Sciences, Serbian Academy of Science and Art, followed by roles at the Vinča Institute of Nuclear Sciences. Over the years, she steadily rose through the ranks, becoming an Associate Research Professor in 2008 and a Research Professor in 2013.

🔬 Contributions and Research Focus

Dr. Validžić’s work is at the intersection of nanoscience and renewable energy, focusing primarily on semiconductors for photovoltaic applications. Her research on the synthesis, self-assembly processes, and application of V-VI group semiconductors has led to significant advancements in improving solar cell efficiency. Additionally, her work on nanomaterials, particularly the transformation of nanoparticles and their influence on larger particles, holds considerable promise for both fundamental and applied science.

🏆 Awards and Honors

Over her illustrious career, Dr. Validžić has received national and international recognition for her groundbreaking work. Her patents and publications stand as a testament to her impact on the scientific community, particularly in the fields of nanotechnology and energy research.

🌍 Impact and Influence

Dr. Validžić has made substantial contributions to the fields of nanotechnology and energy science. Her interdisciplinary research has influenced both theoretical understanding and practical applications in solar energy. The creation of new optical systems for photovoltaic improvement has direct implications for enhancing solar panel performance worldwide. Furthermore, her work on the photoluminescence of synthesized particles has drawn international attention, further solidifying her place in the scientific community.

📖Academic Cites

Dr. Validžić’s work is widely recognized in the academic world, with publications in notable journals such as Optical Materials, Energy Technology, and Journal of Nanoparticle Research. These publications explore cutting-edge topics like temperature-dependent photoluminescence, photovoltaic improvements, and quantum-size effects in nanoparticles. Her innovative research has also led to a Serbian patent and an international patent for solar panel performance enhancement technologies.

🔮 Future Directions & Legacy

Dr. Validžić’s academic legacy is built on her groundbreaking work in nanomaterials and energy technology. As a Research Professor, she continues to push the boundaries of science with her ongoing research in the field of solar energy. Her future contributions are expected to focus on further enhancing the efficiency and sustainability of photovoltaic systems, contributing to the global shift toward renewable energy solutions.

Publications Top Notes

Additional Lighting Effects for Photovoltaic Improvements in the Performance of Solar Cells

Co-authors: Katarina K. Lupšić, Ivana Lj J. Validžić

Published: Energy Technology, 2024

Amorphous Non-doped and Se-, Cu-, and Zn-doped Sb2S3 Nanoparticles Prepared by a Hot-Injection Method: Bandgap Tuning and Possible Observation of the Quantum Size Effect

Co-authors: Ivana Lj J. Validžić, Maja Č. Popović, Jelena M. Potočnik, Yu A. Kuznetsova, Dmitry A. Zatsepin

Published: Journal of Nanoparticle Research, 2023

Citations: 5 📈

The Influence of the Water Flow Lens System on the Operating Characteristics of Monocrystalline and Amorphous Si-Solar Cells for Outdoor and Indoor Use: The Photovoltaic Improvement

Co-authors: Ivana Lj J. Validžić, Vesna M. Lojpur, Miodrag Mitrić

Published: Environmental Progress and Sustainable Energy, 2023

Citations: 4 📊

Structural, Morphological, Optical, and Electronic Properties of Amorphous Non-doped and I and Sn Doped Sb2S3 Nanoparticles

Co-authors: Vesna M. Lojpur, Maximilian Joschko, Christina M. Graf, Mirjana M. Novaković, Ivana Lj J. Validžić

Published: Materials Science in Semiconductor Processing, 2022

 

 

Zhixun Luo | Cluster Chemistry | Best Researcher Award

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Prof. Zhixun Luo | Cluster Chemistry | Best Researcher Award

Prof. Zhixun Luo, Institute of Chemistry Chinese Academy of Sciences, China.

Prof. Zhixun Luo is a prominent researcher in cluster chemistry, focusing on metal clusters, superatoms, and their reactivity. He holds the position of Professor at the Institute of Chemistry, Chinese Academy of Sciences. Prof. Luo’s expertise extends to the study of cluster structures and reactions, with significant contributions to the field, including breakthroughs in catalysis and materials science. His impactful publications and recognition, such as the 2016 Outstanding Science and Technology Achievement Prize, highlight his influential work in chemical research.

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🌟 Suitability for Best Researcher Award

Prof. Zhixun Luo is highly suited for the Best Researcher Award due to his exceptional contributions to the field of cluster chemistry. His research, which spans metal clusters, superatoms, and their reactivity, has significantly advanced our understanding of nanomaterials and catalysis. With over 40 influential publications and a major contribution to the Chinese Academy of Sciences’ Outstanding Science and Technology Achievement Prize, his groundbreaking work in materials science and nanotechnology has broad implications. His dedication to research excellence makes him a standout candidate.

🎓 Early Academic Pursuits

Prof. Zhixun Luo began his academic journey in 1998 at China Three Gorges University, where he earned his B.S. in Physics (2002). He then pursued his M.S.D. in Physics at Capital Normal University (2003-2006) and went on to obtain his Ph.D. from the Institute of Chemistry, Chinese Academy of Sciences in 2009. His educational foundation laid the groundwork for his remarkable research career.

💼 Professional Endeavors

After completing his postdoctoral studies at Penn State University (2009-2013), Prof. Luo became a Professor at the Institute of Chemistry, Chinese Academy of Sciences in 2013, where he continues to advance the field of cluster chemistry. His professional trajectory reflects a blend of both academic and research excellence.

🔬 Contributions and Research Focus

Prof. Luo’s research is centered on cluster chemistry, with major topics including:

  • Metal clusters and superatoms
  • Cluster reaction and soft-landing deposition
  • Cluster structure chemistry
    His work pushes the boundaries of material science, focusing on novel clusters, their reactivity, and their applications in catalysis and nanotechnology.

🏆 Awards and Honors

In recognition of his substantial contributions, Prof. Luo was awarded the 2016 Outstanding Science and Technology Achievement Prize by the Chinese Academy of Sciences, acknowledging his role as a major contributor to scientific and technological progress.

🌍 Impact and Influence

Prof. Luo’s contributions have significantly influenced both theoretical chemistry and applied material science. His work on superatomic clusters has paved the way for advancements in catalysis, magnetic materials, and nanoscale engineering. Through his research, Prof. Luo has inspired new methodologies for synthesis and characterization of metal clusters, impacting various industries from environmental science to energy.

📖Academic Cites

Prof. Luo has an extensive publication record with over 40 representative papers that have had a far-reaching impact on the scientific community. Some of his most notable works include:

  • “Metal Clusters and Their Reactivity” (2020)
  • “Superatomic Signature and Reactivity of Silver Clusters with Oxygen” (2021)
    His work is cited extensively, influencing research in superatom chemistry and cluster reactivity, enhancing his reputation as a leading researcher.

🔮 Future Directions & Legacy

Prof. Luo’s legacy lies in his pioneering work on metal clusters and superatoms, which has shaped current and future research. His ongoing exploration of plasma-assisted catalysis, nanomaterials, and magnetic clusters promises to influence future technological innovations in areas such as sustainable energy, material design, and quantum computing. His work will continue to be a driving force in the development of new materials and catalysts for future generations.

Publications Top Notes

Unusual Inertness of a Ta8+ Cluster in Dinitrogen Reactions

Authors: R. Cheng, Y. Gao, C. Cui, Z. Luo

Journal: Journal of Physical Chemistry Letters, 2025

Year: 2025

Erratum to ‘How ligand coordination and superatomic-states accommodate the structure and property of a metal cluster: Cu4 (dppy)4 Cl2 vs. Cu21 (dppy)10 with altered photoluminescence’

Authors: H. Wu, A. Gaya N., R. Anumula, Z. Luo

Journal: Chinese Chemical Letters, 2024

Citations: 1 📖

Year: 2024

On the nature of Con±/0 clusters reacting with water and oxygen

Authors: L. Geng, P. Wang, S. Lin, J. Zhao, Z. Luo

Journal: Communications Chemistry, 2024

Year: 2024

The Reactivity of Ptn+ Clusters With N2O Facilitated by Dual Lewis-Acid Sites

Authors: C. Cui, Y. Jia, S. Lin, L. Geng, Z. Luo

Journal: Small, 2024

Year: 2024

Gas Phase Reactions of Pristine and Single-Atom-Doped Copper and Silver Clusters: Probing Size-Dependent Stability and Novel Superatoms

Authors: Q. Du, Z. Luo, X. Xing, J. Zhao

Journal: Journal of Physical Chemistry Letters, 2024

Year: 2024

Enhanced stability of the Nb3O6– and Nb4O6+ clusters: the nxcp rule versus superatomic nature

Authors: Y. Gao, X. Lei, R. Cheng, S. Lin, Z. Luo

Journal: Physical Chemistry Chemical Physics, 2024

Year: 2024

Hydrogen Evolution Reactions of Hydrocarbons and Hydroborons Promoted by Superatomic Nbn- Clusters

Authors: D. Ma, X. Lei, C. Cui, Q. Yi, Z. Luo

Journal: Journal of Physical Chemistry Letters, 2024

Year: 2024

Reduction of dinitrogen to ammonia on doped three-atom clusters Nb2M (M = Sc to Cu & Y to Ag)

Authors: R. Cheng, C. Cui, Z. Luo

Journal: Rare Metals, 2024

Citations: 1 📖

Year: 2024

Electrocatalytic nitrogen reduction to ammonia by atomically precise Cu6 nanoclusters supported on graphene oxide

Authors: A. Shehzad, C. Cui, R. Cheng, Z. Luo

Journal: Nanoscale, 2024

Citations: 1 📖

Year: 2024

Single silver ions facilitate intramolecular hydrogen atom transfer and C-C bond dissociation of neurotransmitters

Authors: Q. Yi, H. Wu, Z. Luo

Journal: Chinese Journal of Chemical Physics, 2024

Year: 2024