Kakhuangailiu Gangmei | Zoology | Best Researcher Award

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Dr. Kakhuangailiu Gangmei | Zoology | Best Researcher Award

Dr. Kakhuangailiu Gangmei, ICMR-Vector Control Research Centre,  India.

Dr. KAKHUANGAILIU GANGMEI is a dedicated researcher and microbiologist with a Ph.D. in Zoology and a growing reputation in the field of microbial genomics and vector control. Her work at the ICMR-Vector Control Research Centre showcases her strong command over bacterial identification, genomic analysis, and the use of advanced bioinformatics tools. With notable achievements such as publishing the whole genome sequence of Bacillus thuringiensis israelensis and receiving the “Award for Excellence in Research,” she stands out as a promising scientist in the field. Her publication record, citation metrics, and peer-review contributions reflect both her academic rigor and influence in scientific circles.

Profile

Scopus

 

🎓 Early Academic Pursuits

Dr. KAKHUANGAILIU GANGMEI began her academic journey with a deep-rooted interest in the life sciences, which led her to pursue advanced studies in Zoology. Her passion for scientific exploration culminated in earning a Ph.D. in Zoology in September 2024. Throughout her academic career, she exhibited a strong dedication to research and development, particularly in microbiological and molecular biology domains. Her early years were marked by a consistent focus on acquiring technical expertise, laying a strong foundation for her future contributions in bacterial genomics and vector control research.

🧬 Professional Endeavors in Microbial Sciences

Currently serving at the ICMR-Vector Control Research Centre, Dr. Gangmei has actively contributed to the fields of bacterial isolation, identification, and genomic characterization. Her skillset encompasses essential laboratory techniques such as genomic DNA extraction and next-generation sequencing, essential for understanding pathogen dynamics. She brings hands-on proficiency with advanced bioinformatics tools like BV-BRC, MEGA-X, Proksee-Genome Analysis, MEROPS, and Mob-recon, making her an asset to the scientific community and an important player in microbial genomics and disease vector research.

🔬 Contributions and Research Focus

Dr. Gangmei’s research primarily delves into the genomics of bacterial species relevant to vector control. One of her most notable contributions includes the recent publication of the Whole Genome Sequence of Bacillus thuringiensis israelensis VCRC-B650, featured in Springer Nature. This research adds to the growing knowledge of environmentally sustainable biopesticides. Her broader scientific inquiry spans characterization of microbial strains and the analysis of their genomic frameworks, which has significant implications for public health and vector-borne disease control.

🏆 Accolades and Recognition

In recognition of her outstanding research contributions, Dr. Gangmei received the prestigious “Award for Excellence in Research” from the EET CRS in 2022. This honor not only acknowledged her scientific rigor and innovative spirit but also placed her among emerging leaders in the field of biological sciences in India. Furthermore, she has served as a peer reviewer for two articles in Springer Nature journals, a testament to her expertise and reputation in academic publishing.

📊 Impact and Influence

With a citation count of 24 and an h-index of 3, Dr. Gangmei’s research has already begun to resonate within the scientific community. As a first author on four publications and a contributor to a total of 16 journal articles indexed in SCI and Scopus, her work influences ongoing studies in microbiology, genomics, and disease control. Her research insights are contributing to a better understanding of microbial mechanisms and improving public health strategies through biocontrol agents.

🌱 Legacy and Future Contributions

Though early in her career, Dr. Gangmei’s trajectory signals a promising legacy in microbial genomics and vector research. She is poised to lead innovations that can revolutionize vector control methods, especially through genomic interventions and bioinformatics analysis. Her future endeavors are expected to focus on unraveling complex microbial interactions and translating these findings into impactful applications in epidemiology and environmental health.

🔍 Vision for Scientific Exploration

Dr. Gangmei envisions a future where genomic technologies are seamlessly integrated into public health solutions. By harnessing the power of microbial genomics and advanced bioinformatics, she aims to contribute to the development of next-generation biocontrol agents. Her scientific curiosity, combined with methodological precision, ensures that she will remain at the forefront of microbial research, paving new paths for sustainable health interventions and scientific discovery.

Publication

  • Title: Whole genome sequencing and evolutionary significance of a novel mosquitocidal bacterium, Bacillus thuringiensis serovar israelensis VCRC-B650 reported from Union Territory of Puducherry, India highly useful for mosquito control

  • Authors: Kakhuangailiu K. Gangmei, Mathivanan M. Ashokkumar, Bhavna B. Gupta, Geetha G. Irudayaraj, Subbiah S. Poopathi

  • Year: 2025

 

 

🔚 Conclusion

In an era where genomic research is central to understanding and combating infectious diseases, Dr. Gangmei’s contributions are timely and impactful. Her expertise bridges traditional microbiology with modern genomic technologies, offering innovative solutions to pressing public health challenges. As she continues her journey in research, Dr. Gangmei is set to drive advancements that not only elevate scientific understanding but also improve community health outcomes. With a clear vision and a strong foundation, she is well-positioned to shape the future of microbial science and sustainable vector control.

 

 

Rania Dghaim | Environmental Health | Best Researcher Award

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Assoc. prof. Dr. Rania Dghaim | Environmental Health | Best Researcher Award

Assoc. Prof. Dr. Rania Dghaim,  Zayed University,  United Arab Emirates.

Dr. Rania Dghaim’s career is a testament to her dedication to chemistry and environmental sciences. With an extensive academic background, she has made remarkable contributions to organometallic chemistry, polymer science, and environmental health. Her leadership at Zayed University has fostered a thriving research culture, and her mentorship has guided students in groundbreaking scientific endeavors. Through her research and administrative roles, she has significantly influenced the fields of chemistry and sustainability, bridging scientific innovation with real-world applications.

Profile

Google Scholar

Rania Dghaim, Ph.D.: A Trailblazer in Chemistry and Environmental Science 

Dr. Rania Dghaim’s journey into the world of chemistry began with a strong academic foundation at the American University of Beirut, where she earned her B.Sc. in Chemistry. Fuelled by an insatiable curiosity for organometallic and inorganic chemistry, she pursued a Ph.D. at McGill University, Canada, delving into the intricate realm of palladium-carbon bond insertions. Her doctoral research opened new avenues for the synthesis of biologically relevant molecules and polymerization techniques, showcasing her potential as a future leader in the field. This passion further propelled her to a prestigious post-doctoral fellowship at the University of Montreal, where she worked under the esteemed Professor André Charette, refining transition metal-catalyzed methodologies for enantioselective synthesis of non-proteinogenic amino acids.

An Illustrious Career in Academia and Leadership 🎓

Dr. Dghaim’s professional journey is marked by her unwavering commitment to education and research. Since joining Zayed University in 2001, she has made significant strides in academic leadership. Rising through the ranks, she served as an Assistant Professor for over a decade before being promoted to Associate Professor in 2014. Her leadership acumen led to several administrative roles, including Chair of the Department of Life and Environmental Sciences, Chair of the Department of Health Sciences, and Acting Dean of the College of Natural and Health Sciences. Currently, she holds the esteemed position of Chair of the Department of Environmental Sciences and Sustainability, where she continues to inspire future generations of scientists.

Pioneering Research in Chemistry and Environmental Science 🔬

Dr. Dghaim’s research interests span a broad spectrum of scientific domains, from organometallic chemistry and catalysis to polymer chemistry and environmental health. Her groundbreaking work on transition metal-catalyzed reactions has contributed significantly to the synthesis of amino acids and peptides, vital components in pharmaceuticals and biotechnology. Additionally, her expertise in polymer chemistry has paved the way for advancements in sustainable materials. More recently, her research has expanded to environmental chemistry, where she investigates the effects of pollutants and contaminants on ecological and human health.

A Legacy of Mentorship and Scholarly Excellence 🌟

Beyond her research, Dr. Dghaim has been a guiding force in academia, mentoring students and young researchers with dedication and enthusiasm. She has played a pivotal role in fostering a research-driven environment at Zayed University, encouraging innovation and scientific inquiry. Through her supervision, students have engaged in interdisciplinary projects that bridge chemistry with environmental sustainability, further enhancing the impact of her contributions.

Recognitions and Esteemed Contributions 🏆

Dr. Dghaim’s academic excellence has earned her recognition and respect in the scientific community. Her contributions to organometallic chemistry and environmental sciences have been acknowledged through invitations to prestigious conferences and collaborations with leading researchers worldwide. Her role as a visiting scientist at McGill University’s Laboratory of Professor Alan Hay exemplifies her continued commitment to expanding her research horizons.

 

Publication

  • Determination of heavy metals concentration in traditional herbs commonly consumed in the United Arab Emirates
    Authors: R Dghaim, S Al Khatib, H Rasool, M Ali Khan
    Year: 2015

 

  • The development of a catalytic synthesis of münchnones: a simple four-component coupling approach to α-amino acid derivatives
    Authors: R Dhawan, RD Dghaym, BA Arndtsen
    Year: 2003

 

  • The use of carbon monoxide and imines as peptide derivative synthons: a facile palladium-catalyzed synthesis of α-amino acid derived imidazolines
    Authors: RD Dghaym, R Dhawan, BA Arndtsen
    Year: 2001

 

  • Direct, palladium-catalyzed, multicomponent synthesis of β-lactams from imines, acid chloride, and carbon monoxide
    Authors: R Dhawan, RD Dghaym, DJ St. Cyr, BA Arndtsen
    Year: 2006

 

  • The Novel Insertion of Imines into a Late-Metal− Carbon σ-Bond: Developing a Palladium-Mediated Route to Polypeptides
    Authors: RD Dghaym, KJ Yaccato, BA Arndtsen
    Year: 1998

 

  • Air Quality and Respiratory Health among Adolescents from the United Arab Emirates
    Authors: RD Caroline Barakat-Haddad, Sheng Zhang, Ayesha Siddiqua
    Year: 2015

 

  • The Mineral Composition of Date Palm Fruits (Phoenix dactylifera L.) under Low to High Salinity Irrigation
    Authors: R Dghaim, Z Hammami, R Al Ghali, L Smail, D Haroun
    Year: 2021

 

  • ZUSCHRIFTEN-The Use of Carbon Monoxide and Imines as Peptide Derivative Synthons: A Facile Palladium-Catalyzed Synthesis of α-Amino Acid Derived Imidazolines
    Authors: RD Dghaym, R Dhawan, BA Arndtsen
    Year: 2001

 

  • Ring-Opening Polymerization of Heterocycles with Palladium Insertion Catalysts: Observation of a Multifunctional Polymerization Initiator
    Authors: NK Lim, KJ Yaccato, RD Dghaym, BA Arndtsen
    Year: 1999

 

  • Bacteriological Quality of Reclaimed Wastewater Used for Irrigation of Public Parks in the United Arab Emirates
    Authors: ASH Al Amimi, MA Khan, R Dghaim
    Year: 2014

 

Conclusion 🌟

Dr. Rania Dghaim’s legacy is one of perseverance, innovation, and academic excellence. Her relentless pursuit of knowledge, combined with her leadership and mentorship, has left an indelible mark on the fields of chemistry and environmental science. As she continues to push the boundaries of research and education, her influence will undoubtedly resonate for generations to come, shaping the scientific landscape and inspiring countless aspiring chemists and environmentalists.

Li Zhiyu | Biomass based chemicals | Best Researcher Award

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Assoc. Prof. Dr. Li  Zhiyu | Biomass based chemicals | Best Researcher Award

Assoc. Prof. Dr.  Li  Zhiyu,  Shandong University of Technology, China.

Dr. zhiyu li is a distinguished scholar in the fields of biomass conversion, bioenergy, and environmental engineering. his academic journey, from mechanical design to agricultural engineering, reflects his deep commitment to sustainability and innovation. as an associate professor and accomplished researcher, dr. li has contributed significantly to thermochemical biomass utilization, bio-oil upgrading, and heavy metal passivation. his work has earned prestigious awards and recognition, highlighting its global impact and relevance.

 

profile

Scopus

Early academic pursuits 🎓

Dr. zhiyu li began his academic journey with a strong foundation in mechanical design and manufacturing, earning his bachelor’s degree in mechanical design & manufacturing and automation from tarim university in 2012. his passion for agricultural engineering led him to pursue a master’s degree in agricultural biological environmental and energy engineering at tarim university, where he graduated in 2015. during this time, he explored innovative approaches to heavy metal passivation in composting processes. building on this interest, dr. li completed his ph.d. in agricultural mechanization engineering at south china agricultural university in 2018, deepening his expertise in biomass conversion and energy systems.

Professional endeavors 💼

Following his doctoral studies, dr. zhiyu li began his professional career at the college of agricultural engineering and food science, shandong university of technology, where he served as a lecturer from 2018 to 2023. his dedication to teaching and research earned him a promotion to associate professor in 2023. beyond his institutional role, dr. li actively engaged in collaborative research as an academic visitor at prestigious institutions such as tsinghua university (2023-2024) and the qingdao institute of bioenergy and bioprocess technology, chinese academy of sciences (2022). these opportunities expanded his research perspectives and strengthened his collaborations with leading experts in the field.

Contributions and research focus 🔬

Dr. li’s research revolves around the sustainable utilization of biomass resources, bioenergy production, and environmental engineering solutions. his work primarily focuses on the thermochemical conversion of biomass, including pyrolysis and catalytic upgrading of bio-oil. he also investigates the passivation control of heavy metals in solid waste, soil, and livestock manure, as well as the resource recovery of municipal sludge and biogas residues. his multidisciplinary approach addresses critical challenges in biomass utilization and solid waste treatment, contributing to the advancement of biorefinery technologies and environmental sustainability.

Accolades and recognition 🏆

Throughout his career, dr. zhiyu li has garnered significant recognition for his contributions to science and engineering. in 2023, he was honored with the outstanding contribution postdoctoral award in shandong province, a testament to his impactful research. his work on hydrodeoxygenation of bio-oil components was recognized globally as one of the top 1% esi highly cited papers in 2021. previously, he received the second prize of the china national chamber of commerce science and technology progress award in 2022. early in his career, dr. li earned accolades such as the third prize of the xinjiang corps science and technology progress award in 2016 and the excellent master’s thesis award in xinjiang autonomous region in 2015, highlighting his consistent excellence in scientific exploration.

Impact and influence 🌿

Dr. li’s research has made a profound impact on the fields of biomass energy, bio-oil upgrading, and solid waste treatment. his innovative approaches to thermochemical biomass conversion have advanced clean energy technologies, contributing to sustainable solutions for energy production. his work on heavy metal passivation has provided practical strategies for mitigating environmental pollution in agricultural and industrial systems. dr. li’s influence extends beyond research, as he actively mentors students and collaborates with global experts to push the boundaries of environmental engineering and bioenergy.

Legacy and future contributions 🌟

Dedicated to addressing global energy and environmental challenges, dr. zhiyu li continues to shape the future of bioenergy and waste management. his research legacy lies in developing technologies that convert biomass and waste into valuable resources while minimizing environmental harm. Biomass-based chemicals. as a leader in his field, dr. li envisions advancing biorefinery technologies, promoting green innovations, and fostering a new generation of researchers committed to sustainability. his ongoing work promises to leave a lasting impact on global efforts to achieve a cleaner and more energy-efficient future.

Teaching and mentorship 📚

Biomass-based chemicals  addition to his research achievements, dr. zhiyu li is deeply committed to education and mentorship. he teaches courses in agricultural biological environmental and energy engineering, inspiring students to explore sustainable engineering solutions. dr. li’s dedication to student development and his hands-on teaching approach ensure that future engineers are well-equipped to address pressing environmental challenges. through his mentorship, he cultivates a culture of innovation, critical thinking, and scientific inquiry among his students, laying the foundation for continued advancements in the field.

📚 Publications

  • Title: Energy status, anaerobic digestion and role of genetic and metabolic engineering for hydrogen and methane
    Authors: Shah, T.A., Li, Z., Li, Z., Zhang, A.
    Year: 2025

 

  • Title: Carbon-based catalysts for hydrodeoxygenation of biomass derivatives: A review of heteroatom doping strategies
    Authors: Wang, Z., Li, Z., Zhang, Y., Fu, P.
    Year: 2024

 

  • Title: Rapid pyrolysis of cellulose: Revealing the role of volatile matter and char structure evolution
    Authors: Sun, K., Guo, T., Li, Y., Geng, P., Fu, P.
    Year: 2024

 

  • Title: Jujube shell-derived organic/inorganic nitrogen-doped porous carbon: electrochemical properties and contribution of nitrogen-doped forms to ion adsorption and storage
    Authors: Fan, Q., Li, Z., Sun, Y., Song, C., Fu, P.
    Year: 2024

 

  • Title: Research progress in catalysts for producing higher alcohols from bioethanol
    Authors: Wang, W., Lu, Y., Li, Z., Zhang, Y., Fu, P.
    Year: 2024

 

  • Title: Highly efficient catalysts for hydrogen generation through methanol steam reforming: A critical analysis of modification strategies, deactivation, mechanisms and kinetics
    Authors: Jiang, W., Ma, X., Zhang, D., Li, Z., Fu, P.
    Year: 2024

 

  • Title: Reaction pathways and selectivity in the chemo-catalytic conversion of cellulose and its derivatives to ethylene glycol: A review
    Authors: Li, Y., Zhang, Y., Li, Z., Zhang, H., Fu, P.
    Year: 2024

 

  • Title: Formulation, performance and environmental/agricultural benefit analysis of biomass-based biodegradable mulch films: A review
    Authors: Li, X., Zheng, G., Li, Z., Fu, P.
    Year: 2024

 

Conclusion

Dr. zhiyu li’s career stands as a testament to the power of scientific inquiry and innovation in addressing global environmental and energy challenges. through his research, teaching, and mentorship, he has paved the way for sustainable technologies and inspired future generations of engineers and scientists. as he continues his work, dr. li remains committed to fostering solutions that bridge the gap between resource utilization and environmental preservation, ensuring a greener and more sustainable future.