Li-Chung Pien | Biological Sensors | Best Researcher Award

Posted on by Global Sensor Awards

Best Researcher Award

Li-Chung Pien
Department of Nursing, College of Medicine, National Cheng Kung University (NCKU), Taiwan

Li-Chung Pien
Affiliation National Cheng Kung University (NCKU)
Country Taiwan
Scopus ID 54388391800
Documents 47
Citations 925
h-index 16
Subject Area Psychiatric Nursing, Occupational Health, Nursing Education, Biological Sensors
Event Global Sensor Awards
ORCID 0000-0002-4918-8935

Li-Chung Pien is a Taiwanese nursing scholar and researcher whose academic contributions span psychiatric nursing, occupational health, psychosocial workplace hazards, nursing education innovation, and healthcare workforce development. His research has focused on workplace violence, burnout, incivility, psychological capital, and AI-assisted nursing education. Through interdisciplinary collaborations and extensive publication activity in internationally indexed journals, he has contributed to evidence-based nursing practice and healthcare policy development.[1]

Abstract

Li-Chung Pien has established a multidisciplinary research profile combining psychiatric nursing, occupational health, nursing management, educational innovation, and healthcare workforce studies. His work addresses psychosocial workplace hazards affecting nurses and healthcare professionals while simultaneously advancing nursing education through artificial intelligence, simulation-based learning, and flipped classroom methodologies. Through national and international collaborations, funded research projects, editorial leadership, and peer-reviewed publications, he has contributed to strengthening evidence-based nursing practice and workforce well-being.[2]

Keywords

Psychiatric Nursing, Occupational Health, Nursing Education, Artificial Intelligence, Workplace Violence, Burnout, Psychological Capital, Workplace Incivility, Mental Health Nursing, Multilevel Analysis, Scale Development, Healthcare Workforce Research.

Introduction

The growing complexity of healthcare environments requires evidence-based approaches to improve workforce resilience, patient care quality, and nursing education. Li-Chung Pien’s research addresses these challenges through investigations into occupational psychosocial risks, workplace culture, mental health nursing, and technology-enhanced education. His work contributes to understanding the relationship between workplace conditions and nursing outcomes while supporting innovation in nursing training and professional development.[3]

Research Profile

Dr. Pien obtained a Bachelor of Science in Nursing from Taipei Medical University in 2001, a Master of Science in Psychiatric Nursing in 2009, and a Ph.D. in Health Policy and Management from National Taiwan University in 2016. His academic career includes appointments at Taipei Medical University and National Cheng Kung University, where he currently serves as Associate Professor in the Department of Nursing.[2]

  • Principal investigator of multiple national grant-funded projects.
  • Editorial Board Member of Journal of Nursing Management and BMC Nursing.
  • Reviewer for leading international nursing journals.
  • Research collaborator across Taiwan and international healthcare institutions.

Research Contributions

His research contributions focus on psychosocial occupational hazards among healthcare workers, including workplace violence, incivility, burnout, emotional exhaustion, and job satisfaction. He has investigated the impact of organizational environments on nursing retention and workforce sustainability. In parallel, he has pioneered educational initiatives utilizing generative artificial intelligence, chatbot-assisted learning, simulation-based instruction, and flipped classroom methodologies for psychiatric nursing education.[4]

  • AI-PsychLine project integrating generative AI and LINE Bot technology.
  • Research on workplace violence and occupational mental health.
  • Development and validation of nursing assessment scales.
  • Application of multilevel statistical analysis in healthcare research.
  • Evidence-based interventions for nurse resilience and psychological capital.

Publications

Dr. Pien has authored more than 35 peer-reviewed publications in SCI, SSCI, and Scopus-indexed journals. His work has appeared in internationally recognized journals including the Journal of Advanced Nursing, International Journal of Nursing Studies, Journal of Occupational and Environmental Medicine, International Journal of Mental Health Nursing, BMC Nursing, and Journal of Nursing Management.[5]

  • Journal of Advanced Nursing
  • International Journal of Nursing Studies
  • Journal of Occupational and Environmental Medicine
  • BMC Nursing
  • International Journal of Mental Health Nursing
  • Journal of Psychiatric and Mental Health Nursing

A notable recent publication examined workplace incivility and its association with nurses’ job satisfaction and turnover intentions in Taiwan.[6]

Research Impact

The impact of Dr. Pien’s work extends across nursing practice, workforce management, mental health promotion, and educational innovation. His findings have informed discussions regarding nurse retention, workplace safety, and psychosocial risk management. His research has also supported the adoption of digital technologies and AI-enabled learning tools within nursing education programs. These contributions are relevant to healthcare institutions seeking sustainable workforce development and improved clinical education outcomes.[3]

Award Suitability

Li-Chung Pien demonstrates qualifications aligned with the Excellence in Research Award category through sustained scholarly productivity, leadership of externally funded research projects, editorial service, interdisciplinary collaboration, and contributions to healthcare innovation. His integration of artificial intelligence into nursing education and his extensive research on occupational health challenges within healthcare settings represent notable examples of contemporary research addressing practical societal needs.[4]

Conclusion

Dr. Li-Chung Pien has developed a distinguished academic profile characterized by contributions to psychiatric nursing, occupational health research, workforce well-being, and nursing education innovation. Through extensive publication activity, collaborative research networks, and leadership in emerging educational technologies, he continues to contribute to advancing healthcare research and professional nursing practice in Taiwan and internationally.[1]

References

  1. National Cheng Kung University. (2026). Faculty Profile: Li-Chung Pien.
    https://www.ncku.edu.tw
  2. Li-Chung Pien. Academic and professional background information submitted for the International Research Awards on Sensing Technology nomination dossier.
  3. Research project summaries and occupational health nursing studies conducted through National Cheng Kung University and collaborating institutions.
  4. Ministry-funded educational innovation projects integrating generative AI, LINE Bot systems, simulation-based learning, and flipped classroom methodologies.
  5. Elsevier. (n.d.). Scopus author details: Li-Chung Pien, Author ID 54388391800. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=54388391800
  6. Bai, Tseng, Cheng & Pien. (2026). Workplace Incivility and Nurses’ Job Satisfaction and Leaving Intentions in Taiwan. Journal of Advanced Nursing.
    https://doi.org/10.1111/jan.70641

Eliazar Peniton | Biological Sensors | Research Excellence Award

Posted on by Global Sensor Awards

Research Excellence Award

Eliazar Peniton,
Institute of Biological Sciences, Philippines
Eliazar Peniton
Affiliation Central Mindanao University
Country Philippines
Scopus ID 57211341876
Documents 11
Citations 20
h-index 3
Subject Area Plant Cytogenomics, Molecular Biology, Biotechnology, Biological Sensors
Event Global Sensor Awards
ORCID 0000-0001-9219-1526

Eliazar Peniton is a Filipino life scientist, educator, and researcher whose work focuses on plant cytogenomics, molecular cytogenetics, biotechnology, genome characterization, fluorescence in situ hybridization (FISH), and flow cytometry. He currently serves as Assistant Professor IV at the Institute of Biological Sciences, Central Mindanao University, Philippines. His academic contributions encompass plant genome analysis, cytogenetic stability assessment, tissue culture-derived regenerant evaluation, and molecular breeding applications. His scholarly output, conference presentations, funded research projects, and international collaborations have contributed to advancing plant cytogenomics research in both the Philippines and South Korea.[1]

Abstract

This academic recognition article presents the scholarly achievements and research contributions of Eliazar Alumbro Peniton Jr. His research portfolio demonstrates sustained engagement in plant molecular cytogenetics, cytogenomics, tissue culture, genome analysis, and biotechnology. Through advanced applications of fluorescence in situ hybridization, genomic in situ hybridization, flow cytometry, and molecular characterization techniques, he has contributed to the understanding of chromosome organization, genome evolution, cultivar identification, and cytogenetic stability in economically important plant species. His work has resulted in internationally indexed publications, competitive research awards, conference recognitions, and collaborative research initiatives that support scientific advancement in agricultural and biological sciences.[2]

Keywords

Plant Cytogenomics; Molecular Biology; Fluorescence In Situ Hybridization; Flow Cytometry; Cytogenetics; Biotechnology; Genome Analysis; Plant Breeding; Cytogenomic Stability; Tissue Culture; Molecular Cytogenetics; Panax ginseng; Aralia elata; Plant Genetics; Crop Improvement.

Introduction

The integration of molecular biology and cytogenetics has transformed modern plant science by enabling researchers to investigate chromosome architecture, genome composition, and evolutionary relationships at unprecedented levels of resolution. Within this field, Eliazar Alumbro Peniton Jr. has established a research profile focused on the cytogenomic characterization of economically important plant species and medicinal crops. His academic training at Sahmyook University in South Korea provided a strong foundation for developing advanced cytogenetic methodologies that are now applied to plant breeding, genome analysis, and biodiversity studies.[3]

Research Profile

Dr. Peniton completed his Integrated MS–Ph.D. in Convergence Science (Life Science) at Sahmyook University, Seoul, South Korea. His doctoral dissertation investigated cytogenomic variation among Panax ginseng cultivars and evaluated the stability of Aralia elata regenerants using fluorescence in situ hybridization and flow cytometry. Following graduation, he continued his academic career through teaching, research leadership, student mentoring, and institutional service in the Philippines.

  • Assistant Professor IV, Central Mindanao University.
  • Former Associate Professor II, Mountain View College.
  • International teaching experience in Thailand and the Philippines.
  • Research expertise in cytogenomics, plant molecular biology, and biotechnology.
  • Reviewer and editor for several international scientific journals.

Research Contributions

Dr. Peniton’s contributions span multiple dimensions of plant science, particularly in chromosome mapping, genome characterization, cultivar identification, and cytogenetic stability assessment. His work has contributed to methodological improvements in cell cycle synchronization and chromosome preparation for cytogenomic analyses.[4]

  • Optimization of cell cycle synchronization protocols for Panax ginseng.
  • Development and application of multi-color PLOP-FISH techniques.
  • Genome size estimation through flow cytometry.
  • Comparative cytogenomic analysis of medicinal and economically important plants.
  • Assessment of chromosomal stability in tissue culture-derived regenerants.
  • Research leadership in ethnobotanical cytogenetics and biodiversity studies.

Publications

Selected peer-reviewed publications include studies published in Scientific Reports, Journal of Ginseng Research, Philippine Journal of Science, Plant Breeding and Biotechnology, Horticulture, Environment and Biotechnology, and related scholarly journals.[5]

  1. Cytogenomic profiling of Panax ginseng cultivars and in vitro root cultures through multi-color PLOP-FISH and flow cytometry reveals somaclonal variations (2026).
  2. Genomic and evolutionary insights on Coix lacryma-jobi varieties using PLOP-FISH and molecular phylogenetics (2026).
  3. A Review on the Cytogenetic Integrity of Micropropagated Plants (2025).
  4. Cytogenomic evaluation of regenerated Aralia elata using PLOP-FISH and flow cytometry (2024).
  5. Cell cycle synchronization in Panax ginseng roots for cytogenomics research (2022).

Research Impact

The impact of Dr. Peniton’s research extends beyond publication metrics. His findings provide foundational resources for chromosome mapping, molecular breeding, germplasm characterization, and biodiversity conservation. His studies contribute to agricultural innovation by improving understanding of genome organization and cytogenetic stability in medicinal and economically valuable crops. His research has also supported student training, laboratory development, and international scientific collaboration.5]

Award Suitability

Dr. Peniton demonstrates several attributes commonly associated with recognition in research excellence awards. These include sustained scholarly productivity, successful acquisition of competitive research funding, publication in peer-reviewed international journals, conference presentation awards, editorial service, research mentorship, and interdisciplinary collaboration. His work has contributed significantly to plant cytogenomics and molecular biology while supporting institutional research capacity development.[4]

Conclusion

Eliazar Alumbro Peniton Jr. represents a new generation of plant scientists integrating molecular biology, cytogenetics, and biotechnology to address contemporary challenges in plant science and biodiversity research. His academic achievements, international research experience, publication record, and ongoing contributions to scientific education and innovation establish a strong foundation for professional recognition within the global research community.

References

  1. Peniton Jr., E.A. Professional Academic Curriculum Vitae (Updated May 2026).
  2. Peniton Jr., E.A., Nguyen, H.T., Waminal, N.E., Yang, T.J., & Kim, H.H. (2026). Cytogenomic profiling of Panax ginseng cultivars and in vitro root cultures through multi-color PLOP-FISH and flow cytometry reveals somaclonal variations. Journal of Ginseng Research.https://doi.org/10.1016/j.jgr.2026.101058
  3. Sahmyook University. Integrated MS–PhD Program in Convergence Science.
  4. Peniton, E.A., Waminal, N.E., Yang, T.J., & Kim, H.H. (2022). Cell cycle synchronization in Panax ginseng roots for cytogenomics research.https://doi.org/10.1007/s13580-021-00383-6
  5. Peniton, E.A., Nguyen, H.T., Waminal, N.E., Yang, T.J., & Kim, H.H. (2024). Cytogenomic evaluation of regenerated Aralia elata using PLOP-FISH and flow cytometry.https://doi.org/10.1038/s41598-024-75004-0

Jyoti Batra | Biological Sensors | Best Researcher Award

Posted on by Global Sensor Awards

Best Researcher Award

Jyoti Batra, Gladstone Institutes, United States

Jyoti Batra
Affiliation Gladstone Institutes
Country United States
Scopus ID 56661930400
Documents 21
Citations 6,072
h-index 16
Subject Area Molecular Virology, Proteomics, Functional Genomics
Event Global Sensor Awards
ORCID 0000-0002-2335-0607

Jyoti Batra is a molecular virologist and proteomics researcher recognized for contributions to the understanding of virus–host interaction networks, immune evasion mechanisms, and cross-species viral transmission. Her research integrates systems-level molecular sensing approaches with advanced proteomic technologies to investigate emerging RNA viruses, including Ebola virus, influenza virus, and SARS-CoV-2. Her work has contributed to the identification of host restriction factors, therapeutic targets, and molecular determinants associated with zoonotic risk and viral pathogenesis.[1]

Abstract

Jyoti Batra’s research portfolio focuses on molecular virology, systems biology, and host–pathogen interactions. Her studies employ affinity purification mass spectrometry, interaction mapping, CRISPR-based methodologies, and functional genomics to characterize how viruses manipulate host cellular systems. Her work has contributed to understanding immune evasion, viral replication, mitochondrial targeting, and cross-species adaptation in major viral pathogens. Publications in journals such as Cell, Nature, Science, EMBO Journal, and Cell Host & Microbe demonstrate the translational and scientific relevance of her contributions.[2]

Keywords

  • Molecular Virology
  • Virus–Host Interactions
  • Proteomics
  • Functional Genomics
  • SARS-CoV-2
  • Ebola Virus
  • Influenza Virus
  • Immune Evasion
  • Cross-Species Transmission
  • Systems Biology

Introduction

The study of virus–host interactions has become increasingly important in understanding the emergence of infectious diseases and pandemic preparedness. Jyoti Batra has contributed extensively to this field through interdisciplinary research integrating virology, molecular biology, and systems-level proteomics. Her investigations into host restriction factors and viral immune evasion mechanisms have expanded current knowledge regarding zoonotic transmission and viral adaptation in mammalian hosts.[3]

Her research career includes appointments at Gladstone Institutes and Georgia State University, where she participated in collaborative international studies involving emerging viral pathogens. These studies have influenced ongoing research in antiviral drug development, host-targeted therapeutic strategies, and viral systems biology.[4]

Research Profile

Jyoti Batra serves as a Staff Research Scientist at Gladstone Institutes in San Francisco, California. Her expertise includes proteomics-based molecular sensing, interaction network analysis, molecular cloning, RNA sequencing, CRISPR technologies, viral infection assays, and computational analysis platforms such as Cytoscape and MaxQuant.[5]

She completed doctoral training in molecular virology through Monash University Malaysia and the International Centre for Genetic Engineering and Biotechnology in India. Earlier academic training in biochemistry was completed at the University of Delhi. Her educational and research trajectory reflects sustained engagement with infectious disease biology and molecular mechanisms of viral replication.[6]

Research Contributions

Batra’s research has significantly contributed to understanding how viruses interact with host proteins and cellular pathways. Her investigations into Ebola virus replication identified host regulators such as RBBP6 and uncovered non-canonical protein interactions associated with viral RNA synthesis and immune modulation.[1]

Her collaborative work during the COVID-19 pandemic contributed to landmark proteomic and phosphoproteomic studies that mapped SARS-CoV-2 interactions with host cellular machinery. These studies identified host proteins associated with viral replication and provided insight into potential therapeutic targets and antiviral intervention strategies.[3]

A notable recent contribution involved comparative coronavirus interaction mapping in bat and human cells, revealing network rewiring mechanisms associated with immune evasion and zoonotic potential. The work identified amino acid substitutions functioning as molecular switches that altered mitochondrial targeting and host interaction profiles across species.[1]

  • Development of cross-species interactome mapping platforms.
  • Identification of host restriction factors in bat cells.
  • Discovery of host proteins regulating Ebola virus infection.
  • Proteomic analyses of SARS-CoV-2 infection pathways.
  • Research on influenza virus nuclear import and apoptosis pathways.

Publications

Jyoti Batra has authored and co-authored numerous peer-reviewed publications in internationally recognized scientific journals. Several publications have been associated with high-impact discoveries in virology, systems biology, and host-pathogen interaction mapping.[5]

  1. Batra J. et al. Coronavirus protein interaction mapping in bat and human cells reveals network rewiring governing immune evasion and zoonotic potential. Cell Host & Microbe, 2026.
  2. Batra J. et al. Non-canonical proline-tyrosine interactions with multiple host proteins regulate Ebola virus infection. EMBO Journal, 2021.
  3. Bouhaddou M. et al. The Global Phosphorylation Landscape of SARS-CoV-2 Infection. Cell, 2020.
  4. Gordon D.E. et al. Comparative host-coronavirus protein interaction networks reveal pan-viral disease mechanisms. Science, 2020.
  5. White K.M. et al. Plitidepsin has potent preclinical efficacy against SARS-CoV-2 by targeting the host protein eEF1A. Science, 2021.

Research Impact

The scientific contributions of Jyoti Batra have influenced contemporary research on emerging infectious diseases and host-targeted antiviral strategies. Her collaborative studies have been widely referenced within the scientific community and have contributed to advancing systems-level approaches in virology research.[1]

Her work on coronavirus interaction networks and proteomics has provided foundational datasets for understanding viral immune evasion and therapeutic targeting. These contributions have supported multidisciplinary collaborations across virology, structural biology, computational biology, and translational medicine.[2]

Award Suitability

Jyoti Batra’s research achievements demonstrate suitability for recognition in the fields of molecular virology, proteomics, and infectious disease biology. Her interdisciplinary investigations have contributed to the scientific understanding of viral evolution, host adaptation, and immune regulation. The breadth of her publication record, participation in high-impact international collaborations, and contributions to emerging virus research collectively support her recognition within academic and scientific award frameworks.[3]

  • Extensive expertise in virus–host interaction biology.
  • High-impact publications in internationally recognized journals.
  • Contributions to pandemic-related virology research.
  • Leadership in interdisciplinary scientific collaborations.
  • Advanced methodological contributions in proteomics and genomics.

Conclusion

Jyoti Batra has established a research profile characterized by interdisciplinary innovation, methodological rigor, and impactful contributions to molecular virology. Her work has advanced scientific understanding of host–virus interactions across several major viral pathogens and has contributed to the broader field of infectious disease research. Through collaborative and translational research initiatives, she continues to contribute to the development of systems-level approaches for studying viral pathogenesis and immune evasion.[4]

References

  1. Elsevier. (n.d.). Scopus author details: Jyoti Batra, Author ID 56661930400. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=56661930400
  2. Batra J. et al. (2026). Coronavirus protein interaction mapping in bat and human cells reveals network rewiring governing immune evasion and zoonotic potential. Cell Host & Microbe.
    https://doi.org/10.1016/j.chom.2026.04.015
  3. Batra J. et al. (2021). Non-canonical proline-tyrosine interactions with multiple host proteins regulate Ebola virus infection. EMBO Journal.
  4. Gordon D.E. et al. (2020). Comparative host-coronavirus protein interaction networks reveal pan-viral disease mechanisms. Science.
  5. Gladstone Institutes. (n.d.). Research activities and institutional profile.
    https://www.gladstone.org/

Monica Mir | Biological Sensors | Innovative Research Award

Posted on by Global Sensor Awards

Innovative Research Award

Mònica Mir – Institute for Bioengineering of Catalonia (IBEC), Biomedical Research Center in Bioengineering (CIBER-bbn), and University of Barcelona, Spain

Mònica Mir
Affiliation IBEC, CIBER-bbn, University of Barcelona
Country Spain
Scopus ID 12647442200
Documents 60
Citations 2,256
h-index 22
Subject Area Biomedical Engineering, Biosensors, Organ-on-a-Chip
Event Global Sensor Awards
ORCID 0000-0002-1490-8373

Mònica Mir is a Spanish biomedical engineer and researcher recognized for her contributions to biosensors, microfluidic systems, point-of-care diagnostics, and organ-on-a-chip technologies. Her interdisciplinary research integrates bioengineering, nanotechnology, and translational medicine to improve disease diagnostics and develop advanced in vitro disease models for neurological and neurodegenerative disorders.[1] She has contributed extensively to blood-brain barrier-on-a-chip systems, electrochemical biosensors, and neurovascular modeling platforms designed for personalized medicine and pharmaceutical evaluation.[2]

Abstract

This academic article presents the scientific profile and research accomplishments of Dr. Mònica Mir, a senior researcher specializing in biomedical engineering and biosensor technologies. Her work focuses on translational bioengineering approaches for disease diagnosis, monitoring, and advanced in vitro modeling systems. Dr. Mir has contributed significantly to the development of electrochemical biosensors, blood-brain barrier-on-a-chip systems, neurovascular models, and implantable sensing devices. Her collaborative and interdisciplinary research has supported advances in personalized medicine, neurodegenerative disease studies, and point-of-care technologies.[3]

Keywords

Biomedical Engineering; Biosensors; Organ-on-a-Chip; Blood-Brain Barrier; Microfluidics; Electrochemical Sensors; Point-of-Care Systems; Neuroengineering; Nanobiotechnology; Translational Medicine; Alzheimer’s Disease; Personalized Medicine

Introduction

The integration of bioengineering and nanotechnology has transformed modern healthcare research by enabling sophisticated diagnostic and therapeutic platforms. Among the leading contributors in this field is Dr. Mònica Mir, whose research addresses the need for reliable biosensing systems and physiologically relevant disease models.[4] Her scientific contributions are particularly relevant to neurological diseases, blood-brain barrier functionality, and organ-on-a-chip technologies designed to emulate complex biological environments.[5]

Dr. Mir’s academic journey includes training in analytical chemistry, chemical engineering, biotechnology, and biosensor technologies at institutions including the Universitat Rovira i Virgili, the University of Bath, and the Max Planck Institute. Her multidisciplinary expertise has enabled her to bridge engineering methodologies with biomedical applications.[1]

Research Profile

Dr. Mir currently serves as a Consolidated Senior Researcher at the Biomedical Research Center in Bioengineering (CIBER-bbn) and as Assistant Professor at the University of Barcelona. Her research profile reflects more than two decades of experience in translational bioengineering and biosensor development.[1]

Her scientific activities encompass biosensors, microfluidics, neurovascular modeling, implantable electrochemical devices, and organ-on-a-chip systems. She has coordinated European Union and national research projects focused on personalized medicine, blood-brain barrier models, and neurodegenerative disease monitoring platforms.[5]

  • Principal Investigator of the EIC Pathfinder Challenge project “IV-Lab” focused on implantable smart sensing systems.
  • Lead investigator of the eBRAIN project involving hippocampal blood-brain barrier-on-a-chip technologies.
  • Scientific Coordinator for collaborative industrial projects involving HPV diagnostic point-of-care systems.
  • Mentor and supervisor for doctoral, master’s, and postdoctoral researchers in biomedical engineering.

Research Contributions

One of Dr. Mir’s notable contributions is the development of advanced blood-brain barrier-on-a-chip models integrated with microelectrodes and electrochemical sensing systems. These platforms provide realistic physiological environments for evaluating nanoparticle permeability, neurovascular interactions, and therapeutic responses associated with neurodegenerative diseases such as Alzheimer’s disease.[3]

Her research has also explored implantable electrochemical microsensors for monitoring oxygen and pH levels in fetal ischemia and hypoxia studies. These technologies demonstrate potential clinical utility in prenatal diagnostics and real-time physiological monitoring.[4]

Dr. Mir has contributed to biosensor integration within organ-on-a-chip systems, enabling improved monitoring of biological responses and enhanced analytical performance for translational medicine applications.[5]

  • Development of neurovascular unit-on-a-chip technologies.
  • Electrochemical immunosensors for Alzheimer’s disease biomarker detection.
  • Microfluidic biosensing systems for cancer liquid biopsy applications.
  • Implantable multiparametric microsensors for physiological monitoring.

Publications

Dr. Mir has authored more than 59 peer-reviewed scientific publications, including articles in high-impact journals such as ACS Sensors, Journal of Nanobiotechnology, Materials Today Bio, and Biosensors & Bioelectronics.

  1. Arellano, A. et al. (2025). Attenuation of blood-brain barrier dysfunction by functionalized gold nanoparticles against amyloid-β peptide in an Alzheimer’s disease-on-a-chip model. Materials Today Bio.
  2. Palma-Florez, S. et al. (2024). Neurovascular unit on a chip: The relevance and maturity as an advanced in vitro model. Neural Regeneration Research.
  3. Mir, M. et al. (2022). Biosensors Integration in Blood−Brain Barrier-on-a-Chip. ACS Sensors.
  4. Marrugo-Ramírez, J. et al. (2021). Kynurenic Acid Electrochemical Immunosensor: Blood-Based Diagnosis of Alzheimer’s Disease. Biosensors.
  5. Rivas, L. et al. (2020). Micro-needle implantable electrochemical oxygen sensor: ex-vivo and in-vivo studies. Biosensors & Bioelectronics.

Research Impact

Dr. Mir’s research has achieved measurable academic and translational impact through scientific publications, patent development, industrial collaborations, and interdisciplinary project leadership.[3] Her work has contributed to the advancement of personalized medicine and neuroengineering by improving experimental disease modeling systems and biosensor technologies.

Her scientific output includes over 2180 citations and an h-index of 21 according to Scopus metrics. She has served as editor and reviewer for several international journals and funding agencies, including the Swiss National Science Foundation, DBT India Alliance, and Agence Nationale de la Recherche.[1]

In addition to academic contributions, Dr. Mir co-founded the spin-off company NewCo S.L., highlighting the translational and entrepreneurial dimensions of her research activities.[2]

Award Suitability

Dr. Mònica Mir demonstrates strong suitability for recognition in biomedical engineering and biosensor innovation due to her sustained contributions to translational healthcare technologies. Her interdisciplinary expertise in organ-on-a-chip systems, electrochemical biosensors, and neuroengineering aligns with contemporary priorities in personalized medicine and biomedical diagnostics.[9]

Her leadership in European and national research initiatives, mentorship activities, editorial responsibilities, and technology transfer initiatives further support her profile as a distinguished researcher contributing to both scientific advancement and societal healthcare applications.[4]

Conclusion

Dr. Mònica Mir has established a significant research career in biomedical engineering, biosensors, and organ-on-a-chip technologies. Her scientific achievements reflect interdisciplinary innovation, translational healthcare applications, and collaborative research leadership. Through her contributions to biosensing systems, neurovascular disease models, and implantable diagnostic technologies, she continues to advance the field of biomedical engineering and translational medicine.[5]

References

  1. Elsevier. (n.d.). Scopus author details: Mònica Mir, Author ID 12647442200. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=12647442200
  2. Mir, M. et al. (2022). Biosensors Integration in Blood−Brain Barrier-on-a-Chip. ACS Sensors.
    https://doi.org/10.1021/acssensors.2c00123
  3. Palma-Florez, S. et al. (2024). Neurovascular unit on a chip: The relevance and maturity as an advanced in vitro model. Neural Regeneration Research.
  4. Marrugo-Ramírez, J. et al. (2021). Kynurenic Acid Electrochemical Immunosensor: Blood-Based Diagnosis of Alzheimer’s Disease. Biosensors.
  5. Palma-Florez, S. et al. (2023). BBB-on-a-chip with integrated micro-TEER for permeability evaluation. Journal of Nanobiotechnology.

George Evele | Biological Sensors | Best Researcher Award

Posted on by Global Sensor Awards

Best Researcher Award

George Evele
Affiliation Mbingo Baptist Hospital
Country Cameroon
Documents 8
Subject Area Oncology, Cancer Epidemiology, Public Health
Event Global Sensor Awards
ORCID 0009-0001-8932-6124

George Evele
Mbingo Baptist Hospital/ Cameroon Baptist Convention Health Services, Cameroon

George Evele is a Cameroonian medical doctor and oncology researcher affiliated with Mbingo Baptist Hospital, Cameroon. His academic and clinical work focuses on cancer epidemiology, childhood and adult oncology, translational oncology, cancer screening, and public health interventions aimed at improving cancer outcomes in low-resource settings. His professional contributions encompass clinical oncology practice, cancer registry development, clinical audits, and healthcare advocacy programs targeted at early diagnosis and improved access to treatment.[1]

Abstract

George Evele has contributed to oncology research and public health initiatives in Cameroon through clinical practice, cancer epidemiology investigations, and healthcare advocacy programs. His work addresses significant challenges associated with delayed cancer diagnosis, treatment abandonment, and limited oncology infrastructure in resource-constrained environments. He has participated in multidisciplinary oncology collaborations, retrospective clinical audits, cancer screening programs, and observational studies examining breast cancer, paediatric malignancies, and psychosocial outcomes among adolescent cancer patients.[2]

Keywords

Oncology, Cancer Epidemiology, Public Health, Breast Cancer, Paediatric Oncology, Translational Oncology, Cancer Screening, Cameroon, Clinical Research, Precision Oncology.

Introduction

George Evele developed an interest in oncology while working within the Childhood Cancer Unit of Baptist Hospital, Cameroon, during 2017 and 2018. This early exposure motivated his subsequent involvement in community-based childhood cancer awareness campaigns intended to reduce delayed presentation and improve access to timely treatment.[3]

Since January 2023, he has worked as a Medical Doctor and Research Assistant at Mbingo Baptist Hospital, where he manages paediatric and adult oncology cases while contributing to clinical research and cancer registry initiatives. His professional activities integrate patient care, multidisciplinary coordination, epidemiological analysis, and public health advocacy aimed at improving oncology outcomes in Cameroon.[4]

Research Profile

Dr. Evele’s research profile is centered on cancer epidemiology, oncology service delivery, and public health interventions in low-resource healthcare systems. His clinical and academic work focuses particularly on breast cancer outcomes, paediatric malignancies, treatment adherence, and psychosocial dimensions of oncology care.[5]

  • Clinical oncology consultations involving paediatric and adult cancer patients at Mbingo Baptist Hospital.
  • Participation in multidisciplinary oncology meetings coordinated with international healthcare institutions including the University of Leeds Hospital.
  • Research on treatment abandonment and delayed presentation among women diagnosed with breast cancer in Cameroon.
  • Cancer screening initiatives involving breast, cervical, and prostate cancer programs.
  • Participation in paediatric oncology clinical trials involving Burkitt lymphoma treatment protocols.

Research Contributions

One of Dr. Evele’s major research efforts includes an eight-year retrospective clinical audit evaluating clinicopathologic characteristics and outcomes among women diagnosed with breast cancer at Mbingo Baptist Hospital. This investigation identified substantial rates of loss to follow-up and treatment abandonment, highlighting important barriers to oncology care delivery in Cameroon.[5]

He additionally contributed to a pilot study examining challenges faced by adolescents and young adults diagnosed with cancer in resource-limited settings. The study demonstrated notable psychosocial burdens, including moderate depression and socioeconomic hardship among affected families.[1]

Dr. Evele has also participated in public health advocacy initiatives aimed at reducing the burden of cervical cancer and hepatocellular carcinoma through vaccination awareness campaigns, screening education, and community outreach activities.[2]

Publications

  1. Clinicopathological Characteristics and Outcomes of Genitourinary Rhabdomyosarcoma in Two Girls.
    DOI: 10.22541/au.176612596.62279934/v1
  2. An Atypical Presentation and Treatment Response of a Malignant Small Round Cell Tumour in the Lumbo-inguinal Region in an Infant.
    DOI: 10.22541/au.176607554.46888392/v1
  3. Clinicopathological Features, Treatment Response, and Outcome of Rosai-Dorfman Disease in Two Children.
    DOI: 10.22541/au.176590828.84404807/v1
  4. Multifocal Tuberculous Osteomyelitis of the Right Parietal and Left Calcaneal Bones from a Probable Primary Scrofula in an 11-year-old Male.
    DOI: 10.22541/au.176590829.95181695/v1
  5. Clinical Presentation and Outcome of Abdominopelvic Glomus Tumour of Uncertain Malignant Potential in an Immunocompromised Adult.
    DOI: 10.22541/au.176622315.52328060/v1

Research Impact

The clinical and research activities of George Evele contribute to strengthening oncology care delivery within Cameroon and similar low-resource environments. His work addresses critical public health concerns including delayed diagnosis, treatment abandonment, limited oncology awareness, and psychosocial barriers to cancer care.[4]

His humanitarian initiative supporting children with sickle cell disease through the Bamenda Ecclesiastical Province Health Assistance Insurance Scheme further demonstrates his commitment to healthcare accessibility and preventive medicine.[5]

Award Suitability

George Evele’s multidisciplinary contributions to oncology, cancer epidemiology, and public health make him a suitable candidate for recognition within Best Researcher Award categories. His combined clinical, epidemiological, and humanitarian efforts reflect sustained dedication toward improving oncology outcomes in underserved populations.[1]

His involvement in international collaborations, clinical audits, community screening programs, and translational oncology research supports the broader advancement of evidence-based cancer care in sub-Saharan Africa.[3]

Conclusion

George Evele represents an emerging oncology researcher whose work integrates clinical medicine, public health advocacy, epidemiological research, and healthcare access initiatives. His contributions continue to support improvements in cancer awareness, patient outcomes, and oncology service development within Cameroon and resource-limited healthcare settings globally.[5]

References

  1. ORCID. (n.d.). George Evele Research Profile.
    https://orcid.org/0009-0001-8932-6124
  2. Mbingo Baptist Hospital. (2026). Clinical Oncology and Research Activities.
  3. University of Buea. (2017). Doctor of Medicine Thesis Records.
  4. University of Birmingham. (2022). MSc Clinical Oncology Academic Records.
  5. European School of Oncology. (2024). Research Methodology and Grant Proposal Training.

Chengbi CUI | Biological Sensors | Best Researcher Award

Posted on by Global Sensor Awards

Best Researcher Award

CUI Cheng-bi – Department of Food and Biological Sciences, College of Agriculture, Yanbian University, China

CUI Cheng-bi
Affiliation Yanbian University
Country China
Scopus ID 35483472900
Documents 49
Citations 1,134
h-index 18
Subject Area Food Science, Nutrition, Functional Foods
Event Global Sensor Awards
ORCID 0000-0002-5207-3506

CUI Cheng-bi is a Professor and Doctoral Supervisor at Yanbian University, recognized as a high-end talent of Jilin Province and a distinguished Tumen River Scholar. His research is centered on functional health foods and bioactive compounds, with a particular focus on ginseng-based innovations. He leads major laboratories and research centers dedicated to food science advancements and contributes actively to national and international scientific communities [1].

Abstract

This article presents the academic profile and scientific contributions of CUI Cheng-bi, focusing on his advancements in functional food science and nutrition research. His work emphasizes bioactive compounds, particularly ginseng-derived products, contributing to health food innovation and biotechnology development.

Keywords

Functional foods, Ginseng research, Food science, Nutrition, Bioactive compounds, Agricultural biotechnology

Introduction

Food science and nutrition play a crucial role in public health and sustainable development. Researchers like CUI Cheng-bi contribute to advancing these fields through interdisciplinary approaches, integrating agriculture, biotechnology, and health sciences to develop innovative functional foods.

Research Profile

Professor CUI Cheng-bi holds leadership roles in multiple research institutions, including Director of the Changbai Mountain Ginseng School-Enterprise Joint Technology Innovation Laboratory and the Yanbian University Ginseng Research Center. His affiliations include international and national scientific organizations focused on food safety and nutrition [1].

Research Contributions

  • Development of functional health foods and nutraceutical products
  • Innovations in ginseng-based bioactive compounds
  • Leadership in national R&D projects including government-funded initiatives
  • Advancements in food safety and nutrition science frameworks

Publications

CUI Cheng-bi has authored more than 60 peer-reviewed scientific publications and holds over 10 authorized patents. His works are indexed in major scientific databases and contribute to global research in food science and functional nutrition [1].

Research Impact

His research has significantly influenced the development of health-promoting food products and has strengthened the integration of traditional medicinal resources, such as ginseng, into modern food systems. His work supports both academic advancement and industrial applications.

Award Suitability

CUI Cheng-bi demonstrates strong eligibility for international research awards due to his leadership in scientific research, extensive publication record, patent contributions, and impact on food science innovation. His interdisciplinary approach aligns with global research excellence criteria.

Conclusion

The academic achievements and research contributions of CUI Cheng-bi highlight his role as a leading figure in food science and nutrition. His work continues to shape the development of functional foods and supports advancements in health-related research.

External Links

References

  1. Elsevier. (n.d.). Scopus author details: CUI Cheng-bi, Author ID 35483472900. Scopus.

    https://www.scopus.com/authid/detail.uri?authorId=35483472900

Dr. Zheng Hu | Biosensor Awards | Best Researcher Award

Posted on by Global Sensor Awards

Dr. Zheng Hu | Biosensor Awards | Best Researcher Award

Dr. Zheng Hu, University of Chinese Academy of Sciences , Beijing, China

Dr. Zheng Hu is an Associate Professor and Deputy Director at the Translational Medicine Institute of South China University, based at The First People’s Hospital of Chenzhou, Hunan, China. With a Ph.D. in Biochemistry and Molecular Biology from the University of Chinese Academy of Sciences, his research focuses on gene editing technology, cancer biomarkers, and screening of anti-tumor compounds from traditional Chinese herbs. He has made significant contributions to cancer screening and nucleic acid detection, with several publications in high-impact journals. Dr. Hu is also recognized for his work on CRISPR-based detection systems and molecular pathogenesis in various cancers.

Professional Profile:

Orcid

Summary of Suitability:

Dr. Zheng Hu is an outstanding candidate for the Best Researcher Award due to his prolific research contributions, particularly in gene editing and cancer biomarker development. His innovative approach to applying cutting-edge technologies like CRISPR in clinical settings, along with his strong publication record and leadership, makes him highly deserving of recognition. His research has the potential to revolutionize cancer diagnostics and treatments, underscoring his impact in the biomedical field.

🎓Education:

Dr. Zheng Hu earned his Ph.D. in Biochemistry and Molecular Biology from the University of Chinese Academy of Sciences in Beijing, China, between 2011 and 2014. Prior to that, he completed his M.S. in Genetics from Xiangya Medical School of Central South University in Changsha, China, from 2001 to 2005. He also holds a B.S. in Biology, which he obtained from the School of Life Science at Central China Normal University in Wuhan, China, during 1994 to 1998.

🏢Work Experience:

Dr. Zheng Hu has held the position of Associate Professor at the Translational Medicine Institute of South China University, located at The First People’s Hospital of Chenzhou, Hunan, China, since 2018. Prior to this role, he worked as a Postdoctoral Research Fellow at Xiangya Hospital, Central South University, in Changsha, from 2015 to 2018. Between 2014 and 2015, Dr. Hu served as an Assistant Investigator at the same institute where he is now a professor. He also worked as an Assistant Investigator at the Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, from 2010 to 2011, and as a Research Associate at the same institute from 2005 to 2010. Earlier in his career, between 1998 and 2001, he was a Technician and Teaching Assistant at Xiangya Medical School of Central South University in Changsha.

🏅Awards and Honors:

Dr. Zheng Hu is recognized for his significant contributions to the development of CRISPR-based detection systems and cancer biomarker research. He has published extensively in high-impact journals, earning recognition for his advancements in cancer screening and gene editing technology. His work has greatly influenced the fields of translational medicine and molecular biology, showcasing innovative approaches to cancer detection and treatment.

Publication Top Notes:

  1. Targeted disruption of the BCR-ABL fusion gene by Cas9/dual-sgRNA inhibits proliferation and induces apoptosis in chronic myeloid leukemia cells
  2. Rapid, portable Epstein‒Barr virus DNA detection using enzymatic recombinase amplification combined with the CRISPR–Cas12a system
  3. CRISPR/Cas13a-based supersensitive circulating tumor DNA assay for detecting EGFR mutations in plasma
  4. SARS-CoV-2 and Its Omicron Variants Detection with RT-RPA-CRISPR/Cas13a-Based Method at Room Temperature
  5. Stabilization of UCA1 by N6-methyladenosine RNA methylation modification promotes colorectal cancer progression