zhang jinliang | Energy | Best Researcher Award

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Prof. zhang jinliang | Energy | Best Researcher Award

Prof. zhang jinliang, north china electric power university, China

Jinliang Zhang, a distinguished expert in Energy Economics and Policy, has made significant contributions to the field of energy management and sustainable development. Born in Jiangshu, China, and a member of the Communist Party, he is highly respected for his interdisciplinary research in energy economics, energy policy, and econometric analysis. With an impressive academic background, Jinliang holds a Ph.D. in Technical Economics and Management from North China Electric Power University, and completed postdoctoral research at both Tufts University (Fletcher School) and Beijing Institute of Technology. Over the years, he has led numerous impactful projects, including those on carbon emission trading mechanisms and renewable energy optimization. As a prolific researcher and project leader, his works are shaping the future of energy systems and sustainability worldwide.

Professional Profile

Scopus

Summary of Suitability for the β€œResearch for Best Researcher Award” for Jinliang Zhang

Jinliang Zhang demonstrates exceptional qualifications and accomplishments in the fields of energy economics, energy policy, and econometrics, making him a highly suitable candidate for the β€œResearch for Best Researcher Award.” His strong educational background includes a Ph.D. in Technical Economics and Management, with extensive research in large systems, applied mathematics, and econometric analysis. His postdoctoral experiences at prestigious institutions, including Tufts University and Beijing Institute of Technology, have further honed his expertise in energy-related topics.

Zhang has published extensively in high-impact journals such as Energy, Applied Energy, and Sustainable Energy Technologies and Assessments. His publications primarily focus on low-carbon economic dispatching models, energy storage optimization for microgrids, and the integration of carbon capture systems in virtual power plants. These contributions are not only academically significant but also have a direct impact on sustainable energy solutions and policy formulation. His work on forecasting and energy pricing has been instrumental in advancing the understanding of electricity markets and renewable energy systems.

πŸŽ“  Education

Jinliang Zhang’s academic journey is a testament to his deep commitment to the field of energy economics and management. He obtained his B.S. in Mathematics from North China Electric Power University in 2005, where he also earned his M.A. and Ph.D. in Technical Economics and Management between 2006 and 2011. His doctoral research focused on large systems and econometric analysis, providing a strong foundation for his future endeavors in energy systems. He further honed his expertise by completing postdoctoral studies in Management Science and Engineering at Tufts University’s Fletcher School (2018-2019) and Beijing Institute of Technology (2012-2016). During these postdoctoral programs, he concentrated on energy economics, policy formulation, and econometric modeling, which led to several high-impact publications. His extensive education has been instrumental in shaping his research career and leadership in the energy field.

πŸ’Ό Professional Experience

Jinliang Zhang’s professional experience spans academia, research, and industry, making him a key figure in energy economics and management. As a postdoctoral researcher, he worked at prestigious institutions like Tufts University and Beijing Institute of Technology, focusing on energy economics, policy, and econometric models. Over the years, Jinliang has been involved in numerous cutting-edge research projects and government-funded initiatives, including carbon emissions trading mechanisms and optimization of energy storage systems for microgrids. He has also worked on electricity price forecasting and the analysis of renewable energy systems. As the project leader for various national and international research projects, he has collaborated with organizations such as the National Natural Science Foundation of China, State Grid JiBei Electric Power Company, and China Electric Power Research Institute. His expertise has been sought after to analyze and develop energy-saving and emission-reduction policies for China’s power industry.

πŸ…  Awards and Recognition

Jinliang Zhang has garnered significant recognition for his contributions to energy research and policy. His innovative work in the optimization of energy systems and carbon emission trading mechanisms has earned him widespread acclaim in both academia and industry. Among his notable achievements, he has received funding and support from the National Natural Science Foundation of China, the China Postdoctoral Science Foundation, and various energy institutions. His groundbreaking research on low-carbon economic scheduling, energy storage, and electricity price forecasting has been published in top-tier journals such as Energy, Renewable Energy, and Applied Energy. Additionally, Jinliang has successfully led several high-profile projects in collaboration with governmental and corporate entities, such as the State Grid JiBei Electric Power Company and the China Electric Power Research Institute. His work has significantly influenced China’s energy policies and is widely regarded as pioneering in the field of energy economics.

🌍 Research Skills On Energy

Jinliang Zhang possesses exceptional research skills, particularly in energy economics, energy policy, and econometric analysis. His expertise lies in developing complex models for energy systems, such as those focused on optimizing energy storage, renewable energy integration, and low-carbon economic dispatch. He is skilled in using advanced econometric tools to analyze energy data, forecast electricity prices, and predict renewable energy outputs. Jinliang is also highly experienced in applying hybrid modeling techniques for short-term electricity price forecasting and wind and photovoltaic output prediction. His research in carbon emission trading and sustainable energy systems has greatly contributed to shaping policy in China and abroad. He is proficient in using statistical and mathematical modeling to solve energy-related challenges, and his ability to lead interdisciplinary research projects has earned him a reputation as a leader in the field. His strong foundation in applied mathematics, probability, and statistical analysis enhances the precision and applicability of his work.

πŸ“– Publication Top Notes

  • Title: β€œEconomic-emission dispatch problem in a biomass-coal co-firing CCHP system based on natural gas deep peak-shaving and carbon capture technologies”

    • Authors: Jinliang Zhang, Zeping Hu
    • Journal: Computers and Industrial Engineering
    • Year: 2025

  • Title: β€œA scheduling optimization model for a gas-electricity interconnected virtual power plant considering green certificates-carbon joint trading and source-load uncertainties”

    • Authors: Jinliang Zhang, Ziyi Liu, Yishuo Liu
    • Journal: Energy
    • Year: 2025

  • Title: β€œInventory Optimization Model of Biomass Power Plant Considering Multiple Uncertainties”

    • Authors: Jinliang Zhang, Zeping Hu
    • Journal: Zhongguo Dianli/Electric Power
    • Year: 2024

Dr. MENGYING YAN | biomaterial | Women Researcher Award

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Dr. MENGYING YAN | biomaterial | Women Researcher Award

Dr. MENGYING YAN, The Brain Cognition and Brain Disease Institute, Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, China

Mengying Yan is an accomplished researcher specializing in neural interface materials, bio-3D printing, and cell culture technology. She holds a Ph.D. in Pharmaceutical, Food, and Cosmetic Sciences from the University of Genoa, Italy, and has extensive experience in food science and nutrition. Mengying’s career spans over five years in academic and research environments, primarily at the Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences. She has worked as an assistant researcher and postdoctoral fellow, focusing on cutting-edge materials for neural interfaces and flexible electronic materials. Fluent in Italian and English, Mengying’s linguistic and cross-cultural communication skills have been honed by her nine years of international experience. Her research contributions have led to numerous publications in high-impact journals, showcasing her expertise in materials science and bioengineering. Mengying also has a passion for art, particularly traditional Chinese painting, and enjoys integrating creativity into her scientific endeavors.

Professional Profile

Orcid

Summary of Suitability for the Research for Women Researcher Award

Mengying Yan is a highly qualified candidate for the Research for Women Researcher Award. With over 10 years of academic and research experience in the fields of pharmaceutical, food, and cosmetic sciences, her expertise spans across cell culture, 3D printing, neural interface materials, and conductive polymers. She holds a Ph.D. from the University of Genoa, Italy, and has contributed to advanced research during her time as a postdoctoral researcher and assistant researcher at the Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences. Her research has resulted in several high-impact publications, and she has been recognized as a co-first author in notable journals like Advanced Healthcare Materials and ACS Applied Materials & Interfaces.

πŸŽ“   Education 

Mengying Yan’s academic journey reflects a deep commitment to science and research. She earned her Ph.D. in Pharmaceutical, Food, and Cosmetic Sciences from the University of Genoa, Italy, in 2018. During her doctoral studies, she focused on hydrogels for 3D cell culture, further expanding her expertise with an internship at the EU Institute on Membrane Technology (ITM-CNR), where she worked on developing drug-loaded microspheres using membrane emulsification techniques. Prior to this, Mengying completed her Master’s degree in Nutrition from the University of Calabria, Italy, and a Bachelor’s degree in Food Science and Engineering from Sichuan University, China. Her education equipped her with a comprehensive understanding of food science, membrane technology, and cellular systems. This strong foundation has been crucial in her current research work on neural interfaces and flexible materials, driving innovation and advancing the boundaries of biomedical technology.

πŸ’Ό   Experience 

Mengying Yan’s professional experience spans diverse areas of materials science and biomedical research. Currently, she serves as an Assistant Researcher at the Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, where she focuses on 3D cell culture systems, flexible electronic materials, and neural interface technologies. Previously, she completed a postdoctoral fellowship at the same institution, contributing to significant advancements in bio-3D printing and conductive ink development. Her responsibilities included daily laboratory management, training new employees, and overseeing the maintenance of sophisticated research equipment. Mengying’s hands-on expertise with instruments such as UV spectrophotometers, DSC, and electrochemical workstations has enabled her to excel in experimental research. Her extensive academic background and practical experience, combined with her organizational skills and technical proficiency, make her a well-rounded researcher with the ability to lead innovative projects in biomedical engineering.

πŸ…   Awards and Honors 

Mengying Yan’s academic and research excellence has been recognized through multiple awards and honors. During her doctoral studies at the University of Genoa, she received a prestigious research grant from the European Union’s Institute on Membrane Technology (ITM-CNR), which funded her innovative work on developing drug-loaded microspheres for therapeutic applications. Her contributions to neural interface technology and bio-3D printing have garnered attention in the scientific community, resulting in her being selected as a co-author in several high-impact publications. In addition to academic recognition, Mengying has been honored for her mentorship and leadership in guiding new researchers at the Shenzhen Institutes of Advanced Technology. Her proficiency in integrating advanced scientific techniques with practical applications has set her apart as a leader in her field, earning her accolades from both peers and institutions. Mengying’s achievements are a testament to her dedication, innovation, and contributions to biomedical research.

🌍   Research Focus 

Mengying Yan’s research focuses on the intersection of materials science and biomedical engineering, with a particular emphasis on neural interface technologies and 3D cell culture systems. She has made significant contributions to developing flexible electronic materials and conducting polymers that improve the electrode-neural interface, facilitating better communication between electronic devices and biological tissues. Mengying’s work also explores bio-3D printing and the creation of hydrogel scaffolds that mimic natural tissue environments, enabling more effective tissue engineering and regenerative medicine. Her research aims to solve critical challenges in neural interface systems, enhancing their integration with the human body for medical applications such as brain-computer interfaces. By combining materials innovation with biological applications, Mengying’s research holds promise for advancing treatments for neurodegenerative diseases and improving prosthetic technologies. Her interdisciplinary approach ensures her research stays at the forefront of biomedical advancements.

 πŸ“– Publications Top Notes

  • Three-dimensional highly porous hydrogel scaffold for neural circuit dissection and modulation
  • Flexible and stretchable polymer optical fibers for chronic brain and vagus nerve optogenetic stimulations in free-behaving animals
  • Low‐Cost Paper‐Based Conducting Polymer‐Hydrogel Flexible Bio‐Radar Sensor for Detecting Biological Objects
  • Development of enzyme-loaded PVA microspheres by membrane emulsification
    Development and characterization of a mucoadhesive sublingual formulation for pain control: Extemporaneous oxycodone films in personalized therapy

     

Assoc. Prof. Dr. Hui Zhang | Artificial Intelligence | Industry Achievement Award

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Assoc. Prof. Dr. Hui Zhang | Artificial Intelligence | Industry Achievement Award

Assoc. Prof. Dr. Hui Zhang, Guizhou University of Finance and Economics, China

Hui Zhang is a distinguished senior engineer and associate professor at the School of Information, Guizhou University of Finance and Economics, China. With a Ph.D. in Computational Mathematics from Guizhou Normal University, Zhang has a diverse background spanning both academia and industry. His expertise ranges from computational mathematics to big data and cloud computing, having held prominent roles in R&D departments in China’s tech industry. Additionally, Zhang has served as a reviewer for prestigious journals, contributed to key projects, and holds multiple patents in data science and technology. His ongoing research and professional services make him a well-recognized expert in his field.

Professional Profile

scopus

orcid

Summary of Suitability for the Research for Industry Achievement Award

Dr. Hui Zhang demonstrates a unique combination of academic and industrial achievements, making him a strong candidate for the Research for Industry Achievement Award. His background in computational mathematics and computer science, coupled with his experience in R&D and leadership roles in the big data industry, aligns well with the award’s focus on impactful industrial contributions.

πŸŽ“    Education

Hui Zhang completed his Bachelor’s in Information and Computational Science from Guizhou Normal University in 2010, alongside a Bachelor’s in English Education. He pursued a Master’s in Computational Mathematics at the same institution from 2010 to 2013. Hui continued his academic journey by earning a Ph.D. in Computational Mathematics, focusing on innovative computational methods. His educational experience highlights a strong foundation in both mathematics and interdisciplinary learning, setting the stage for his research and teaching career at Guizhou University of Finance and Economics.

πŸ’Ό   Experience

Hui Zhang’s career includes a range of positions in both academia and industry. After completing his master’s degree, he worked as a Business Manager at the Postal Savings Bank of China. He then transitioned to academic research while pursuing his Ph.D., contributing to key projects at the Guizhou Key Laboratory of Information and Computing Science. In industry, Zhang served as a Senior R&D Engineer and later General Manager of the R&D Department at Guizhou-Cloud Big Data Industry Development Co. Since 2022, he has been an associate professor at Guizhou University of Finance and Economics and a postdoctoral researcher, continuing to innovate in computer science and data science fields.

πŸ…  Awards and Honors

Hui Zhang’s numerous recognitions include being a Review Expert for multiple academic and governmental bodies, such as the Guizhou Provincial Department of Science and Technology. His technical contributions have earned him industry accolades, and he was invited to join the Big Data Expert Committee of the China Computer Federation. Zhang has also been honored as an Industrial Mentor in Guizhou Province and contributed as an expert reviewer for the prestigious Alexandria Engineering Journal. His expertise in computational mathematics and data science has made him a sought-after advisor and collaborator.

🌍  Research Focus

Hui Zhang’s research focuses on computational mathematics, big data, and information systems, particularly in developing algorithms and systems for data processing and analysis. He has worked extensively on Pulsar Data Processing, contributing to the design and implementation of comparative analysis and visualization systems. His research extends into numerical analysis, with a focus on finite element methods for solving complex mathematical problems. Zhang’s interdisciplinary approach combines theoretical mathematics with practical applications in data science, making significant advances in these fields.

πŸ“– Publication Top Notes

  1. Generalized picture fuzzy Frank aggregation operators and their applications
  2. A second-order accurate and unconditionally energy stable numerical scheme for nonlinear sine-Gordon equation
  3. Asymmetrical interactions driven by strategic persistence effectively alleviate social dilemmas
  4. A Certificateless Verifiable Bilinear Pair-Free Conjunctive Keyword Search Encryption Scheme for IoMT
  5. Deformations and Extensions of Modified Ξ»-Differential 3-Lie Algebras

Ms. Meaad Alqahtany | Education | Research Excellence Award

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Ms. Meaad Alqahtany | Education | Research Excellence Award

Ms. Meaad Alqahtany, King Saud Bin Abdulaziz University for Health Sciences, Saudi Arabia

Meaad Alqahtany is a dedicated biologist specializing in cellular and molecular biology, with a focus on understanding the structural intricacies of prokaryotic cells. Currently a Research Assistant at King Saud bin Abdulaziz University for Health Sciences in Saudi Arabia, Meaad plays a key role in supporting research projects, monitoring ongoing studies, and contributing to data analysis. With prior experience as a part-time lecturer and science teacher, she brings a blend of academic rigor and practical teaching experience. Her research revolves around using high-resolution microscopies to investigate surface cell molecules, particularly in bacterial cells.

Professional Profile

Scopus

Summary of Suitability for the Research for Research Excellence Award

Meaad Alqahtany is a strong candidate for the Research for Research Excellence Award. Her extensive research experience, publication record, leadership initiatives, and passion for education make her well-suited for recognition. Her work in cellular and molecular biology, coupled with her ability to teach and mentor, positions her as a scientist contributing significantly to both her field and the broader scientific community.

πŸŽ“ Education

Meaad Alqahtany holds a Master of Science in Cell and Molecular Biology from the University of Arkansas (2019), where she researched bacterial cell proteins using advanced molecular techniques. She completed her Bachelor’s in Biology (Microbiology) at King Abdulaziz University, Saudi Arabia, in 2014. In addition to her formal education, Meaad has also completed several advanced courses and workshops, including research data management, scientific writing, and statistical analysis. Her diverse educational background equips her with a deep understanding of biological sciences and the technical skills needed for cutting-edge research.

πŸ’Ό Experience

Meaad has amassed significant experience across academic and research settings. As a Research Assistant since 2021, she has supported projects at King Saud bin Abdulaziz University for Health Sciences. Previously, she was a Lecturer at Bisha University, teaching Micro Techniques. From 2019-2021, she taught science to middle school students at Majestic International School, where she also organized science fairs. During her time at the University of Arkansas (2017-2019), she conducted advanced research on bacterial cell proteins as part of her graduate studies. Meaad has also been a Lab Instructor, training undergraduate students in biology lab techniques.

πŸ…Awards and Honors

  • Founder and active member of the Biology Club at the College of Science
  • Organized New Students Orientation, Bio Day, and other student events
  • Led the 3-Minute Research Proposal competition at KSAU-HS
  • Presented research at international conferences on cellular biology
  • Received recognition for her contribution to scientific publications on antimicrobial mechanisms and nanoparticle effects

🌍  Research Focus

Meaad’s research focuses on cellular and molecular biology, particularly prokaryotic cells. She uses high-resolution microscopy techniques to investigate surface cell molecules, including histone-like proteins and nucleoid structuring in bacteria. Her studies aim to uncover the molecular mechanisms of how silver nanoparticles affect bacterial cells and their proteins, shedding light on antimicrobial actions. Meaad also delves into nanoparticle stability and its impact on biological systems, providing insight into how nanotechnology can influence microbiology.

 πŸ“– Publication Top Notes

  • Faculty and students perspectives towards game-based learning in health sciences higher education
  • Nanoscale reorganizations of histone-like nucleoid structuring proteins in Escherichia coli are caused by silver nanoparticles
    • Citations: 18

Assist. Prof. Dr. Hanane Boutaj | Pharmacology | Best Researcher Award

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Assist. Prof. Dr. Hanane Boutaj | Pharmacology | Best Researcher Award

Assist. Prof. Dr. Hanane Boutaj, Abdelmaled Essaadi University, Morocco

Hanane Boutaj is an Assistant Professor of Plant Biology at Abdelmalek Essaadi University, Faculty of Medicine and Pharmacy, Tangier, Morocco. With a PhD in Biotechnology and Plant Pathology, her research centers on the use of medicinal plants and endomycorrhizal fungi to treat human fungal diseases and improve crop resistance. Notably, her work on olive tree resistance to Verticillium wilt has earned her multiple accolades, including first prize at international conferences in Morocco and Turkey. Passionate about advancing sustainable agriculture, she collaborates with national and international teams on innovative plant-based treatments. Hanane is also a Climate Ambassador and actively involved in research promoting environmental health.

Professional Profile

Scopus

Summary of Suitability for the Research for Best Researcher Award

Hanane Boutaj is highly suited for the β€œResearch for Best Researcher Award” due to her innovative research contributions in medicinal plants and plant pathology. Her work demonstrates a strong focus on impactful research with tangible applications in biotechnology and plant-based treatments, earning recognition in various international conferences. While further publications or patents may strengthen her profile, her current academic and research excellence merits consideration for the award.

πŸŽ“ Education 

Hanane Boutaj holds a PhD in Biotechnology and Molecular Bioengineering from Cadi Ayyad University, where her thesis explored the role of mycorrhizal fungi in enhancing olive tree resistance to Verticillium wilt. She completed her Master’s degree in Natural Resources Valorization at Mohammed V University, where she researched the safety and chemical quality of Moroccan spearmint under different drying methods. She also holds a Bachelor’s degree in Biology Applied to Vegetal Productions from Cadi Ayyad University. Additionally, she has a specialized degree in the teaching profession from Cadi Ayyad University’s Ecole Normale SupΓ©rieure. Her academic background lays the foundation for her current research, where she applies biotechnology to solve critical agricultural challenges, particularly in the context of plant pathology and medicinal plants.

πŸ’Ό Experience 

Currently, Hanane Boutaj serves as an Assistant Professor of Plant Biology at Abdelmalek Essaadi University, Tangier. Her professional journey began with research on the medicinal properties of plants, particularly their use in treating fungal diseases. With expertise in plant biology and biotechnology, she has led various collaborative research projects at both national and international levels. Hanane is actively involved in two research laboratories, located in Tangier and Marrakech, focusing on plant pathology and biological treatments. She also collaborates with French and Swiss research teams, investigating the therapeutic potential of natural remedies for managing health conditions such as diabetes. As a recognized expert in biotechnology, she has been invited to present her findings at multiple international conferences, garnering recognition for her innovative work in plant-based solutions for sustainable agriculture.

πŸ…Awards and Honors

Hanane Boutaj has been honored with several prestigious awards for her research in biotechnology and plant pathology. In 2020, she received the first award for best oral communication at the 21st International Conference on Agricultural Biotechnology and Agricultural Forestry in Istanbul, Turkey. In 2019, she won the best workshop award at Cadi Ayyad University’s Student Week for her presentation on the importance of biofertilizers for health and the environment. Additionally, she was awarded the first prize for her communication on food biotechnology at the β€œBiotechnologies at the Service of Society” conference held at the Faculty of Sciences and Techniques in Fez. These accolades reflect her commitment to advancing sustainable agricultural practices and her expertise in the field of plant biotechnology.

🌍 Research Focus 

Hanane Boutaj’s research focuses on the use of biotechnology to develop sustainable solutions for agricultural and environmental challenges. Her primary area of study is medicinal plants and their potential to combat human fungal diseases. Additionally, she is investigating the role of endomycorrhizal fungi in improving plant resistance to pathogens, with a particular emphasis on olive trees and their defense against Verticillium wilt. By leveraging plant biology and biotechnology, Hanane aims to create biological treatments that reduce the reliance on chemical pesticides and enhance crop resilience. Her ongoing research projects include collaborations with international teams from France and Switzerland, exploring the pharmacological potential of natural remedies for diabetes and other diseases. Through her work, Hanane seeks to contribute to the development of sustainable agricultural practices that promote environmental health.

πŸ“– Publications Top Notes

  • Publication: β€œUnraveling arbuscular mycorrhizal fungi interaction in rice for plant growth development and enhancing phosphorus use efficiency through recent development of regulatory genes”
  • Citations: 13
  • Publication: β€œEffect of beneficial indigenous microorganisms on tomato growth performance, productivity, and protection against Verticillium dahliaeβ€œ
  • Citations: 4
  • Publication: β€œThe effects of mycorrhizal fungi on vascular wilt diseases”
  • Citations: 13
  • Publication: β€œActinobacteria-enhanced plant growth, nutrient acquisition, and crop protection: Advances in soil, plant, and microbial multifactorial interactions”
  • Citations: 73
  • Publication: β€œEffectiveness of indigenous arbuscular mycorrhizal consortium on the growth and mineral nutrition of Argania spinosa (L.) skeels”
  • Citations: 6

Dr. Gloria Grice | Pharmacy | Best Researcher Award

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Dr. Gloria Grice | Pharmacy | Best Researcher Award

Dr. Gloria Grice, University of Health Sciences and Pharmacy in St. Louis, United States

Gloria R. Grice, Pharm.D., is an accomplished academic leader and healthcare professional. She currently serves as the Associate Dean for Academic Affairs at the St. Louis College of Pharmacy, University of Health Sciences and Pharmacy in Saint Louis. With over two decades of experience in pharmacy education, Dr. Grice holds additional roles as a Professor (Non-Tenure Track) in the Department of Pharmacy Practice and a Courtesy Assistant Professor at Goldfarb School of Nursing. She earned her Doctor of Pharmacy degree from the University of Maryland, where she also completed pre-pharmacy coursework. Dr. Grice’s expertise spans pharmacotherapy, pharmacy practice, and interprofessional healthcare education. She has been recognized for her contributions to student-centered learning and ability-based education. Throughout her career, Dr. Grice has led innovative teaching and clinical practice initiatives, preparing future healthcare professionals to excel in diverse clinical settings.

Professional Profile

google scholar

Evaluation for Research for Best Researcher Award: Gloria R. Grice

Summary of Suitability
Gloria R. Grice stands out as a highly accomplished academic and healthcare professional with extensive experience in both clinical practice and academic leadership. Her tenure as Associate Dean for Academic Affairs, coupled with her long-standing role as a Professor in Pharmacy Practice, highlights her capacity for leadership, mentorship, and innovation in pharmacy education. Her rich educational background, including a Doctor of Pharmacy degree from the University of Maryland, and her specialty residency in Family Medicine, establish her as an expert in her field.

  πŸŽ“ Education 

Gloria R. Grice completed her Doctor of Pharmacy (Pharm.D.) from the University of Maryland, Baltimore, in May 2002. Prior to her Pharm.D., she pursued Pre-Pharmacy studies at the University of Maryland, College Park, from 1996 to 1998. Her academic journey was marked by an emphasis on both foundational science and clinical pharmacy practice. Dr. Grice’s education has laid the groundwork for her extensive involvement in pharmacy practice and academic leadership. Her passion for advancing pharmacy education is reflected in her current role as Associate Dean for Academic Affairs and as a Professor (Non-Tenure Track) in the Department of Pharmacy Practice. Dr. Grice continues to contribute to educational advancements by developing innovative curricula that integrate pharmacotherapy, interprofessional education, and patient-centered care approaches.

 πŸ’Ό Experience

Dr. Gloria R. Grice has over two decades of experience in pharmacy practice and academia. Since July 2021, she has been the Associate Dean for Academic Affairs at the St. Louis College of Pharmacy, University of Health Sciences and Pharmacy in Saint Louis. She has also held the role of Professor (Non-Tenure Track) in the Department of Pharmacy Practice since 2015. Dr. Grice’s teaching career includes serving as a course coordinator, lecturer, and preceptor for numerous pharmacy and interprofessional education courses. Her earlier roles include Clinical Instructor and Clerkship Preceptor, where she provided experiential education in primary care and geriatrics. Dr. Grice’s residency at St. John’s Mercy Family Medicine expanded her clinical practice in various specialties, including internal medicine and geriatrics. Her clinical and educational expertise continues to shape the next generation of pharmacists and healthcare professionals.

  πŸ…Awards and Honors 

Dr. Gloria R. Grice has received several recognitions for her contributions to pharmacy education and clinical practice. She holds certifications in Advanced Cardiac Life Support (ACLS) and Immunization from the American Pharmacists Association, demonstrating her clinical proficiency. Additionally, she has been a Board Certified Pharmacotherapy Specialist since 2003, further renewed in 2010 and 2017, underscoring her expertise in pharmacotherapy. Dr. Grice is also licensed to practice pharmacy in both Missouri and Maryland. Throughout her career, she has been honored for her commitment to student-centered, ability-based education, particularly in the areas of primary care and interprofessional healthcare education. Her role in shaping experiential learning and preceptorship has earned her significant respect among peers and students alike. Dr. Grice’s leadership in academic administration further exemplifies her dedication to advancing the field of pharmacy education.

  πŸŒ Research Focus 

Dr. Gloria R. Grice’s research focuses on interprofessional education, pharmacotherapy, and innovative approaches to healthcare education. She is particularly interested in how collaborative, patient-centered care can be enhanced through better integration of pharmacists into interprofessional healthcare teams. Her work explores the role of pharmacy in managing chronic conditions such as diabetes, hypertension, and heart failure, as well as the optimization of pharmacogenomics in primary care settings. Dr. Grice has contributed to research on educational strategies, including ability-based learning and assessment-driven methodologies. Her goal is to advance the quality of pharmacy education, preparing healthcare professionals to deliver comprehensive, team-based care. Dr. Grice’s research also highlights the importance of experiential learning and preceptorship in cultivating future leaders in pharmacy practice.

  πŸ“– Publications Top Notes

Use of pharmacogenetic and clinical factors to predict the therapeutic dose of warfarin
  • Citations: 998
Integration of genetic, clinical, and INR data to refine warfarin dosing
  • Citations: 267
Genetic-based dosing in orthopedic patients beginning warfarin therapy
  • Citations: 225
A polymorphism in the VKORC1 regulator calumenin predicts higher warfarin dose
  • Citations: 126
Laboratory and clinical outcomes of pharmacogenetic vs. clinical protocols for warfarin initiation in orthopedic patients
  • Citations: 100