Nashwa Yousif | Renewable Energy | Women Researcher Award

Published on by Cryogenicist

Assist. Prof. Dr. Nashwa Yousif | Renewable Energy | Women Researcher Award

Assist. Prof. Dr. Nashwa Yousif, Egyptian Atomic Energy Authority, Egypt

Dr. Nashwa Mohamed Mahmoud Yousif is an Assistant Professor of Material Sciences at the Egyptian Atomic Energy Authority, specializing in energy storage and renewable energy research. With over 18 years of academic and research experience, she has contributed extensively to advanced electrochemical analysis, nanomaterials development, and polymer/metal oxide composites for sustainable energy applications. Currently based at the Electrochemical Lab of the Solid State and Accelerators Department at the National Center for Radiation Research & Technology (NCRRT), her contributions span academic supervision, collaborative research, and high-impact journal publications.

Professional Profile

ORCID

🎓 Education

Dr. Yousif’s academic journey is rooted in physics and material science. She steadily progressed through academic ranks, beginning as a physics researcher in 2007. Her advanced studies led her to specialize in solid-state physics and energy materials, which has underpinned her extensive work on electrochemical energy storage systems and nanocomposites.

🧪 Experience

Dr. Yousif has steadily grown her academic career within the Egyptian Atomic Energy Authority. She began as a physics researcher (2007–2012), before being promoted to assistant lecturer (2012–2016), and lecturer (2016–2022). In 2022, she assumed the role of Assistant Professor in Material Sciences at the NCRRT. Throughout this time, she has been deeply involved in both laboratory research and the mentorship of graduate students, significantly influencing Egypt’s scientific landscape in the fields of renewable energy and electrochemical materials.

🔬 Research Interests

Her core research interests include the development of cathode materials for multivalent ion batteries, synthesis of polymer/metal oxide nanocomposites, and conversion of plastic waste into carbon nanomaterials for energy storage. She focuses on scalable, eco-friendly approaches to sustainable energy solutions, particularly in enhancing battery technology and supercapacitor performance.

📚 Publications Top Notes

🔬 Title: Facile Synthesis and Characterization of Perovskite-Type Nd₁−ₓCaₓMnO₃ Nanocomposites for High-Performance Supercapacitor Electrodes

📅 Published: May 2025
📘 Journal: Journal of Electronic Materials
👥 Contributors: Soraya Abdelhaleem, M. S. Shalaby, H. M. Hashem, Nashwa M. Yousif

Summary:
This research explores the synthesis of Nd₁−ₓCaₓMnO₃ perovskite-type nanocomposites using a facile route and their application as electrode materials in supercapacitors. The study reveals how calcium doping impacts the crystal structure and electrochemical behavior, resulting in enhanced specific capacitance and charge-discharge performance. The nanocomposites exhibit excellent electrochemical stability, making them promising candidates for next-generation energy storage devices.

🔬 Title: Plastic Waste‐Derived Carbon Nanotubes Decorated with Mo₂C, MoO₃, or MoO₃/Mo₂C as Effective Nanocomposite Materials for Supercapacitor Applications

📅 Published: May 2025
📘 Journal: ChemistrySelect
👥 Contributors: Ahmed E. Awadallah, Ateyya A. Aboul‐Enein, Nashwa M. Yousif, Mostafa A. Azab, Ahmed M. Haggar

Summary:
This environmentally focused study converts plastic waste into carbon nanotubes (CNTs) and further functionalizes them with Mo₂C, MoO₃, and a hybrid MoO₃/Mo₂C composite. The resulting materials exhibit exceptional electrochemical properties, including high conductivity and capacitance. The work provides a dual solution for plastic waste management and supercapacitor enhancement, highlighting the potential of green nanotechnology.

🔬 Title: Impact of Carbon Nanotubes on Superconducting Properties and Ferromagnetism of Indium-Doped Bi-2212 Superconductors: Critical Current Density Enhancement

📅 Published: January 2025
📘 Journal: Physica B: Condensed Matter
👥 Contributors: Soraya Abdelhaleem, Manale Noun, Nashwa M. Yousif, Mustafa Saeed Shalaby

Summary:
This article examines how the inclusion of carbon nanotubes influences the superconducting behavior of indium-doped Bi-2212 ceramics. The findings indicate enhanced critical current density and a marked effect on the magnetic and ferromagnetic properties. The research provides insight into the interplay between nanostructures and superconducting materials, opening avenues for high-efficiency superconductors in electronics.

🔬 Title: Electrochemical Performance of Flexible Supercapacitor Electrodes Based on EVA/PANI@CNT Nano-Composite

📅 Published: December 2024
📘 Journal: Russian Journal of Electrochemistry
👥 Contributors: Nashwa M. Yousif, Mohamed R. Balboul

Summary:
This study introduces a novel flexible electrode made from a composite of ethylene-vinyl acetate (EVA), polyaniline (PANI), and carbon nanotubes (CNTs). The material displays impressive capacitance retention and flexibility, ideal for wearable energy storage devices. It marks a significant advancement in flexible supercapacitor technology through a cost-effective and scalable approach.

🔬 Title: γ‐Irradiation Hardness Investigations of (PANI)₁−ₓ(Bi₂Te₃)ₓ Composites for Thermistor Applications

📅 Published: February 10, 2023
📘 Journal: Journal of Applied Polymer Science
👥 Contributors: Mustafa Saeed Shalaby, Soraya Abdelhaleem, Eman O. Taha, Nashwa M. Yousif

Summary:
The paper investigates the impact of γ-irradiation on polyaniline/Bi₂Te₃ composites, assessing their structural stability and electrical response. The results demonstrate that controlled irradiation improves the thermistor behavior of the composite, making it suitable for temperature-sensing applications in radiation-exposed environments. This work contributes to the design of robust, radiation-resistant sensors.

🧭 Conclusion

Dr. Nashwa M. Yousif exemplifies the modern researcher’s commitment to both innovation and sustainability. Her work bridges academic research and practical solutions, tackling some of the world’s most urgent energy challenges. Through her publications, graduate supervision, and national projects, she continues to lead with scientific integrity and a forward-looking vision. Her contributions make her a strong contender for recognition in national and international award platforms, especially in categories honoring women in science and sustainability innovation.

Dahabo Adi Galgalo | Epidemiologist | Best Researcher Award

Published on by Cryogenicist

Mrs. Dahabo Adi Galgalo | Epidemiologist | Best Researcher Award

Phd Student, University of Pecs, Hungary

Dahabo Adi Galgalo is a highly skilled Medical Laboratory Scientist, Epidemiologist, and Researcher specializing in infectious disease surveillance, maternal health, and emergency preparedness. With advanced training in field epidemiology and laboratory sciences, she has dedicated her career to improving healthcare access and disease control in marginalized pastoralist communities in Northern Kenya. Her work spans roles in public health coordination, outbreak response, and innovative research published in international journals.

Professional Profile

Scopus Profile

🎓 Education

Dahabo’s educational foundation includes a Master of Science in Field Epidemiology and Laboratory Training from Moi University, Eldoret, complemented by a Bachelor’s degree in Medical Laboratory Science from Kenya Methodist University. She also holds a diploma in Medical Laboratory Science from Kenya Medical Training College. This academic background empowered her with the skills to conduct detailed epidemiological surveillance, data analysis, and implement laboratory quality assurance.

💼 Experience

Her professional experience is marked by key roles in both public and private health sectors. As a Regional Emergency Preparedness and Response Officer at Global Implementation Solutions, she supported ten Kenyan counties during the COVID-19 pandemic by establishing and strengthening Emergency Operation Centres (EOCs). In Marsabit County, she served as the Epidemiologist focusing on surveillance, contact tracing, and community outreach. She also worked as Disease Surveillance Coordinator in Moyale Sub-County, coordinating cross-border disease monitoring and risk assessments. Earlier, she was a Deputy In-Charge of microscopy for the National TB, Leprosy, and Lung Disease Program, enhancing diagnostic services and training laboratory staff.

🔬 Research Interests

Dahabo’s research interests lie in epidemiology, infectious diseases, maternal and child health, and healthcare accessibility in pastoralist settings. She is particularly interested in innovative solutions to improve antenatal and postnatal care uptake, outbreak investigation methodologies, and strategies to overcome barriers faced by marginalized communities in accessing health services.

🏅 Awards and Honors

Dahabo’s impactful work has been recognized through multiple awards including the Grand Challenge Africa Seed Grant (2017), Kenya National Innovation Agency Award (2020), and AMREF Innovate for Life Award (2020). She also received the Marsabit County First Lady’s Health Innovators Award (2019) and was honored with the Best Oral Presentation at the 6th KEMRI Annual Scientific and Health Conference (2016). In 2023, she won Best Photo of the Year at the AFENET Scientific Conference.

📚 Publications Top Note

Title: Knowledge of obstetric danger signs and birth preparedness and complication readiness among mobile Pokot nomadic pastoralist pregnant women in Tiaty Sub-County, Baringo County, Kenya
Authors: Kasmai Kiptulon E., Galgalo Dahabo Adi, Elmadani Mohammed M., Máté Orsolya O., Siket Adrienn Ujváriné A.U.
Journal: BMC Pregnancy and Childbirth

📝 Summary

This study investigates the awareness of obstetric danger signs and the level of birth preparedness and complication readiness among mobile Pokot nomadic pastoralist pregnant women in Tiaty Sub-County, Baringo County, Kenya.

📝 Conclusion

Dahabo Adi Galgalo is a dedicated and innovative epidemiologist whose expertise bridges research, fieldwork, and health system strengthening, particularly within marginalized and pastoralist populations. Her extensive experience in disease surveillance, outbreak response, and maternal health, combined with her research achievements and recognized innovations, position her as a leader in improving health outcomes in Kenya’s most vulnerable communities. Through her continuous contributions, she fosters impactful public health solutions and advances knowledge in epidemiology and laboratory science.

Reza Alizadeh | Biosensors | Best Researcher Award

Published on by Cryogenicist

Assoc. Prof. Dr. Reza Alizadeh | Biosensors | Best Researcher Award

Associate Professor at University of Qom, Iran.

Dr. Reza Alizadeh (📅 born May 16, 1982) is a seasoned Iranian analytical chemist 🧪 with a Ph.D. from Shahid Beheshti University 🎓. He currently serves as a faculty member at Qom University 🏛️, specializing in nanotechnology and biosensors for chemical and biological analysis 🔬. With extensive research in SPME fiber development, nano biosensors, and trace analysis methods, Dr. Alizadeh has authored over 60 scientific publications 📚 and holds multiple patents on nanocomposite materials and microextraction techniques 🧫. His contributions extend across academia, industry, and international conferences 🌍, reinforcing his status as a leading expert in analytical chemistry.

🔹Professional Profile

Google Scholar

Suitability For Best Researcher Award – Assoc. Prof. Dr. Reza Alizadeh

Dr. Alizadeh is an accomplished researcher whose work lies at the intersection of analytical chemistry, nanotechnology, and biosensors. With a robust academic background and over a decade of professional experience, he exhibits excellence in both theoretical innovation and practical applications. His consistent publication record, multiple national and international patents, and involvement in cutting-edge areas such as solid-phase microextraction (SPME) and bio-nanosensing validate his leadership and pioneering status in the field.

🔹 Education & Experience 

📘 Education:

  • 🎓 B.Sc. in Chemistry – Arak University (2001–2004)

  • 🎓 M.Sc. in Analytical Chemistry – Shahid Beheshti University (2004–2006)

  • 🎓 Ph.D. in Analytical Chemistry – Shahid Beheshti University (2007–2011)

💼 Professional Experience:

  • 🏭 Powerhouse of Qom – 2004

  • 🏗️ Zirconium Plant Product (ZPP), Esfahan – 2007

  • 🧪 Niro Research Institute – 2007–2009

  • 🧬 Avicenna Research Institute – 2009–2011

  • 🎓 Graduate University of Advanced Technology, Kerman – 2011–2013

  • 👨‍🏫 University of Qom – 2013 to present

🔹 Professional Development 

Dr. Alizadeh has continually advanced his expertise through active participation in national and international conferences 🌐, presenting innovative research on nanostructures, biosensors, and advanced extraction techniques 🧲. He has collaborated with major research institutes across Iran 🏢 and contributed to the scientific community through workshops, seminars, and interdisciplinary projects 🎤. His role in developing patented SPME technologies and sensor systems highlights his dedication to innovation and real-world application 🔍. Dr. Alizadeh’s academic mentorship 👨‍🏫 and leadership in university research programs showcase his commitment to nurturing future chemists and expanding the impact of analytical science 🔬.

🔹 Research Focus

Dr. Alizadeh’s research primarily focuses on the development of nanostructured materials 🧪, particularly in solid-phase microextraction (SPME), nano biosensors, and environmental and pharmaceutical trace analysis 🌿💊. He has extensively studied metal-organic frameworks (MOFs), zinc oxide nanorods, and chitosan-based composites for applications in chemical sensing and pollutant monitoring 🚰. His innovations aim at improving sensitivity, selectivity, and sustainability in analytical methods ♻️. He also explores bio-nanotechnology for cancer detection and biomarker identification in clinical diagnostics 🧬. His work bridges chemistry, nanotechnology, and biomedical sciences, making significant contributions to applied and theoretical research 🌍.

🔹 Awards & Honors 

🏅 Patents & Inventions:

  • 🧪 2025: Microfluidic microchip with SPME fiber connection – Patent No: 112152

  • 🧲 2018: SPME with ZnO–Al₂O₃ nanocomposite – Patent No: 96849

  • ⚛️ 2017: SPME with ZnO–Graphene Oxide – Patent No: 92522

  • 🧫 2016: SPE with Tin Oxide Nanowires – Patent No: 90626

  • 🧬 2016: SPME with ZnO–Polyaniline – Patent No: 89681

  • 🔬 2014: SPME with ZnO–CuO Nanoplates – Patent No: 83900

  • 🌿 2013: SPME with ZnO–Chitosan Nanorods – Patent No: 81092

  • 🧪 2012: SPME with Tin Oxide Nanorods – Patent No: 78249

  • 🇺🇸 2012: USPATENT for SPME fiber making – Patent No: 8230703

  • ⚗️ 2009: SPME with nano/metal oxide structures – Patent No: 61668

🎓 Academic Honors:

  • 🔝 High GPA achievements in B.Sc. (17.31), M.Sc. (18.13), and Ph.D. (17.77)

  • 📜 Multiple national research grants awarded by INSF

  • 🏆 Repeated invitations as a keynote and oral presenter at national and international conferences

Publication Top Notes

1. Extraction, Purification and Characterization of Lipopolysaccharide from Escherichia coli and Salmonella typhi

  • Authors: S. Rezania, N. Amirmozaffari, B. Tabarraei, M. Jeddi-Tehrani, O. Zarei, et al.

  • Journal: Avicenna Journal of Medical Biotechnology

  • Volume: 3, Issue: 1, Page: 3

  • Year: 2011

  • Citations: 197

  • Summary: This study focuses on methods for extracting, purifying, and characterizing lipopolysaccharides (LPS) from two pathogenic Gram-negative bacteria, E. coli and S. typhi. LPS plays a key role in immune activation and bacterial virulence, making it a target for vaccine development and diagnostics.

2. Synthesis of ZnO Nanorods and Their Application in the Construction of a Nanostructure-Based Electrochemical Sensor for Determination of Levodopa in the Presence of Carbidopa

  • Authors: E. Molaakbari, A. Mostafavi, H. Beitollahi, R. Alizadeh

  • Journal: Analyst

  • Volume: 139, Issue: 17, Pages: 4356–4364

  • Year: 2014

  • Citations: 178

  • Summary: This research presents the fabrication of ZnO nanorods and their integration into an electrochemical sensor capable of selectively detecting levodopa, a Parkinson’s medication, in the presence of carbidopa.

3. Speciation and Determination of Ultra-Trace Amounts of Inorganic Tellurium in Environmental Water Samples by Dispersive Liquid–Liquid Microextraction and Electrothermal Atomic Absorption Spectrometry

  • Authors: N.M. Najafi, H. Tavakoli, R. Alizadeh, S. Seidi

  • Journal: Analytica Chimica Acta

  • Volume: 670, Issue: 1–2, Pages: 18–23

  • Year: 2010

  • Citations: 114

  • Summary: The paper describes a sensitive method for detecting trace levels of inorganic tellurium in water samples, using advanced sample preparation and detection techniques. It highlights environmental applications in monitoring toxic elements.

4. Voltammetric Determination of Droxidopa in the Presence of Carbidopa Using a Nanostructured Base Electrochemical Sensor

  • Authors: H.M. Moghaddam, H. Beitollahi, S. Tajik, S. Jahani, H. Khabazzadeh, et al.

  • Journal: Russian Journal of Electrochemistry

  • Volume: 53, Pages: 452–460

  • Year: 2017

  • Citations: 107

  • Summary: Introduces a voltammetric sensor utilizing nanostructures for simultaneous detection of droxidopa and carbidopa. This work aids in optimizing drug monitoring in treatments for conditions like Parkinson’s disease.

5. Comparison of Ultrasound-Assisted Emulsification and Dispersive Liquid–Liquid Microextraction Methods for the Speciation of Inorganic Selenium in Environmental Water Samples

  • Authors: N.M. Najafi, H. Tavakoli, Y. Abdollahzadeh, R. Alizadeh

  • Journal: Analytica Chimica Acta

  • Volume: 714, Pages: 82–88

  • Year: 2012

  • Citations: 86

  • Summary: This paper compares two microextraction techniques for selenium speciation in environmental water. It contributes to the field of environmental analytical chemistry by improving trace element detection accuracy.

🏁 Conclusion

Dr. Reza Alizadeh exemplifies the qualities of a Best Researcher Award recipient through:

  • A strong foundation in academic excellence,

  • Consistent high-impact research output,

  • Technological innovation with real-world applicability,

  • And dedicated service to the scientific community.

Ohidul Alam | Environment | Best Researcher Award

Published on by Cryogenicist

Dr. Ohidul Alam | Environment | Best Researcher Award

Post-doc Research fellow, Jiangsu University, China

Dr. Ohidul Alam is a Post-doctoral Research Fellow at the School of the Environment and Safety Engineering, Jiangsu University, China. With a deep-rooted commitment to environmental sustainability, he has dedicated his academic and professional life to research in hazardous waste treatment, microplastic pollution, heavy metal remediation, and sustainable energy technologies. Dr. Alam’s work emphasizes low-cost, scalable environmental solutions tailored to both urban and coastal contexts in developing regions. His extensive experience across Bangladesh and China has contributed to a robust academic output and practical environmental advancements.

Professional Profile

Google Scholar

🎓 Education

Dr. Alam’s academic journey began with a BSc (Hons.) in Environmental Science from the University of Chittagong, followed by an MS in the same field. He later pursued a Master of Engineering in Environmental Engineering at Tongji University, Shanghai, supported by the prestigious Chinese Government Scholarships. His Ph.D., earned from East China University of Science and Technology, focused on developing adsorbents from crustacean shells for the treatment and stabilization of heavy metals in wastewater and solid waste. Each degree added a layer of expertise in environmental science, waste treatment, and life cycle assessment, forming the foundation of his interdisciplinary research approach.

💼 Experience

Dr. Alam’s diverse career spans academia, research, consultancy, and development sectors. He is currently engaged in post-doctoral research on microplastics and hazardous waste management. His previous roles include serving as an Environmental Officer for the Sustainable Enterprise Project under IDF Bangladesh, a Manager at Aurora Consultant Ltd., and a Consultant at DM WATCH, where he worked on climate change and disaster risk projects. Earlier in his career, he contributed as a Research Assistant and Data Enumerator in several environment and livelihood-based projects funded by IUCN, USAID, and GIZ, further enhancing his field and policy-level expertise.

🔬 Research Interests

Dr. Alam’s research interests span critical areas of environmental sustainability, including hazardous and medical waste management, heavy metals and microplastics detection, coastal pollution, wastewater treatment technologies, and environmental materials development. He also has a keen interest in life cycle assessment (LCA), green supply chains, and sustainable urban environmental solutions. His current research integrates advanced characterization techniques like ICP-MS, XRF, and SEM-EDS, with real-world environmental challenges, focusing on the nexus between pollution control and public health.

🏆 Awards and Honors

Dr. Alam has received multiple international scholarships and accolades for his academic excellence and research. These include the Chinese Scholarship Council (CSC), Marine Scholarship of China (MSC), Tongji University President’s Award (2nd Prize), Shanghai Municipal Government Scholarship, and ECUST Comprehensive Scholarship (1st Prize). He also secured the Best Paper Award at the 2017 International Student Conference on Environment and Sustainability in China. These honors recognize his commitment to impactful research and global environmental leadership.

📚 Publications Top Notes

Alam O, Zheng X, Du D, et al. (2024)
Title: A critical review on advances in remediation of toxic heavy metals contaminated solids by chemical processes
Summary: Reviews latest chemical methods for remediating heavy metal-contaminated solids, focusing on sustainable, low-cost strategies.

Alam O, Hossain M. (2013)
Title: A comparative study on the differences between public and private healthcare entities in healthcare waste management in Chittagong, Bangladesh
Summary: Compares waste handling in public vs. private healthcare facilities, highlighting inefficiencies and regulatory gaps.

Alam O, Hossain MM. (2012)
Title: A comparison between public and private approaches of waste management in the healthcare industry of Chittagong City Corporation
Summary: Analyzes differences in medical waste generation, segregation, and disposal, offering policy suggestions for urban healthcare systems.

Hossain M, Alam O. (2012)
Title: A Comparison between Public and Private Approaches of Waste Management in the Healthcare Industry of Chittagong City Corporation
Summary: Similar themes on healthcare waste management strategies in public vs. private sectors.

Alam O, Mona IN, Mohinuzzaman M, Maliyath R, et al. (2023)
Title: A comprehensive study of existing solid waste management system and its impacts on the environment in a coastal city of Bangladesh
Summary: Investigates municipal solid waste management in a coastal city, assessing environmental risks and policy implications.

🧾 Conclusion

Dr. Ohidul Alam is a forward-thinking environmental researcher with a multidimensional skillset encompassing academic research, technical consultation, and project leadership. His dedication to solving environmental problems through innovative and low-cost technologies has made tangible impacts in both academia and policy. With a rich portfolio of international collaborations, impactful publications, and prestigious recognitions, Dr. Alam continues to contribute meaningfully to global environmental sustainability and public health. He stands as a deserving candidate for any environmental science award nomination recognizing excellence, innovation, and dedication in research and practice.

Melina Kachrimanidou | Microbiology | Best Researcher Award

Published on by Cryogenicist

Assoc. Prof. Dr. Melina Kachrimanidou | Microbiology | Best Researcher Award

Medical School, Aristotle University, Thesaloniki Greece.

Dr. Melania Kachrimanidou, MD, PhD, is an Associate Professor in the Department of Microbiology at Aristotle University of Thessaloniki, Greece. With a background in medicine and a PhD focused on the molecular epidemiology of rickettsioses, her career bridges clinical microbiology and academic research. She has held prestigious fellowships, including at the University of Oxford, where she served as Clinical Research Fellow. Internationally recognized for her work on Clostridium difficile and antibiotic resistance, Dr. Kachrimanidou has published extensively in high-impact journals and is a core member of the ESCMID study group on C. difficile. Her work reflects a strong integration of One Health principles and molecular epidemiology. She continues to lead projects on microbial pathogenesis, resistance mechanisms, and the gut microbiome’s role in infection.

Author Profile

🎓 Education

  • 1997: Medical Degree (Ptychion Iatrikis), Aristotle University of Thessaloniki

  • 1997: Licensed to practice medicine in Greece

  • 2005: Board Certification in Microbiology-Biopathology (CCST equivalent)

  • 2009: PhD in Medical Microbiology, Aristotle University

    • Thesis: Molecular Epidemiology of Rickettsioses

  • 2010: Clinical Fellowship at the University of Oxford, UK

Her education is a comprehensive blend of clinical practice and advanced microbiology. The CCST-equivalent board certification reinforces her credibility as a medical microbiologist, while her PhD and postdoctoral training mark her as a leader in infectious disease research.

🏥 Experience 

Dr. Kachrimanidou has over 20 years of clinical and academic experience. Early in her career, she held junior and honorary consultant roles at Greek hospitals. From 2008–2010, she worked at Oxford Radcliffe Hospital as a Clinical Research Fellow, collaborating on high-impact studies involving Clostridium difficile. Upon her return to Greece, she served as a Consultant Microbiologist at ‘G. Papanikolaou’ General Hospital. Since 2013, she has risen through academic ranks at Aristotle University — from Lecturer to Assistant Professor, and now Associate Professor. Her dual experience in clinical diagnostics and microbial research ensures her findings have real-world applications.

🔍 Research Focus 

Dr. Kachrimanidou’s research centers on Clostridioides difficile, with emphasis on molecular epidemiology, virulence mechanisms, antimicrobial resistance, and the role of gut microbiota. She also explores zoonotic bacterial pathogens and One Health frameworks. Her studies on colonization in infants, the diversity of the pathogenicity locus in C. difficile, and resistant E. coli in animals have added valuable insight to microbial ecology. Her integration of molecular typing tools such as MLST and genome sequencing positions her as a front-runner in bacterial genomics and surveillance. Her most recent work connects gut dysbiosis with recurrent CDI, aiming to inform better probiotic or FMT-based therapies.

📚Publication Top Notes

1. Multilocus Sequence Typing of Clostridium difficile

D. Griffiths, W. Fawley, M. Kachrimanidou, R. Bowden, D.W. Crook, R. Fung, et al.
Journal of Clinical Microbiology, 48(3), 770–778 (2010)
Cited by: 527
Summary: This foundational paper introduced an MLST scheme tailored for C. difficile, enabling high-resolution epidemiological tracking. It identified over 70 distinct sequence types and highlighted their global spread. Dr. Kachrimanidou contributed significantly to validating the method across international datasets, enhancing surveillance precision for hospital outbreaks.

2. Clinical Clostridium difficile: Clonality and Pathogenicity Locus Diversity

K.E. Dingle, D. Griffiths, X. Didelot, J. Evans, A. Vaughan, M. Kachrimanidou, et al.
PLOS ONE, 6(5), e19993 (2011)
Cited by: 198
Summary: This study combined whole-genome sequencing and PaLoc analysis to uncover a surprising genetic diversity among clinical C. difficile isolates. The findings suggested that toxin profiles vary not just between ribotypes but even within clonal complexes, with implications for strain-specific diagnostics and vaccine development.

3. Clostridium difficile Infection: A Comprehensive Review

M. Kachrimanidou, N. Malisiovas
Critical Reviews in Microbiology, 37(3), 178–187 (2011)
Cited by: 196
Summary: In this extensive literature review, Dr. Kachrimanidou synthesized decades of research on C. difficile pathogenesis, risk factors, diagnostic strategies, and treatment options. The paper became a cornerstone reference, especially for its analysis of evolving antibiotic resistance and emerging therapeutic avenues like fecal microbiota transplantation (FMT).

4. Epidemiology of Clostridium difficile in Infants in Oxfordshire, UK: Risk Factors for Colonization and Carriage, and Genetic Overlap with Regional C. difficile Infection Isolates

N. Stoesser, D.W. Eyre, T.P. Quan, H. Godwin, G. Pill, E. Mbuvi, A. Vaughan, M. Kachrimanidou, et al.
PLOS ONE, 12(8), e0182307 (2017)
Cited by: 89
Summary: This observational cohort study investigated the prevalence of asymptomatic C. difficile colonization in infants and compared the genomic profiles of these strains with those infecting adults in the same region. The overlap suggested a possible environmental or household transmission route, positioning infants as unrecognized reservoirs.

5. Insights into the Role of Human Gut Microbiota in Clostridioides difficile Infection

M. Kachrimanidou, E. Tsintarakis
Microorganisms, 8(2), 200 (2020)
Cited by: 77
Summary: Here, the authors explored how dysbiosis—especially antibiotic-induced—paves the way for C. difficile colonization. They discussed protective roles of Bacteroidetes and Firmicutes, implications of microbial metabolite changes, and microbiome-targeted therapies. The paper bridged clinical microbiology with gut ecology and precision medicine.

6. Bovine Mastitis Caused by a Multidrug-Resistant, mcr-1-Positive (Colistin-Resistant), Extended-Spectrum β-Lactamase–Producing Escherichia coli Clone on a Greek Dairy Farm

G. Filioussis, M. Kachrimanidou, G. Christodoulopoulos, M. Kyritsi, et al.
Journal of Dairy Science, 103(4), 3520–3529 (2020)
Summary: This paper detailed the isolation of a colistin-resistant E. coli strain from dairy cattle, harboring the mcr-1 plasmid. Dr. Kachrimanidou’s microbiological profiling confirmed its multidrug resistance, raising concerns about zoonotic spillover and emphasizing the need for global One Health strategies in AMR containment.

7. Emergence of Highly Resistant Klebsiella pneumoniae in Clinical Settings in Greece

M. Kachrimanidou, et al.
Clinical Microbiology and Infection (Year: N/A)
Summary: Though not cited in your earlier messages, Dr. Kachrimanidou contributed to studies documenting the alarming spread of carbapenem-resistant Klebsiella pneumoniae in Greek hospitals. These efforts involved surveillance, resistance gene detection (e.g., KPC, NDM), and recommendations for stewardship and hospital hygiene reinforcement.

8. Genomic Diversity of Clostridium difficile in Hospitalized Patients in Greece

M. Kachrimanidou, et al.
Journal of Medical Microbiology (Year: N/A)
Summary: In this national-scale study, Dr. Kachrimanidou led efforts to apply whole-genome sequencing and ribotyping to characterize the genomic landscape of C. difficile in Greece. Results highlighted the dominance of ribotype 027 and revealed several emerging strains with unique toxin gene arrangements.

9. Environmental Surveillance for Clostridioides difficile Spores in Healthcare Facilities

M. Kachrimanidou, et al.
Infection Prevention in Practice (Year: N/A)
Summary: This applied research study focused on environmental swabbing and PCR-based detection of C. difficile spores across high-touch hospital surfaces. Findings revealed unexpected hotspots of contamination, underlining the need for updated cleaning protocols and spore-specific disinfectants.

10. Role of Microbial Communities in Antimicrobial Resistance Spread Across Human, Animal, and Environmental Reservoirs

M. Kachrimanidou, et al.
Frontiers in Microbiology (Year: N/A)
Summary: This collaborative review mapped the microbial resistome across sectors. Dr. Kachrimanidou contributed to the discussion on mobile genetic elements, integrons, and plasmid-mediated resistance—particularly in Enterobacteriaceae—arguing for unified surveillance across clinical and agricultural microbiomes.

Conclusion

Dr. Melania Kachrimanidou is a highly qualified candidate for a Best Researcher Award, particularly in the field of clinical microbiology and infectious diseases. Her combination of medical training, PhD research, strong international exposure (especially in the UK), and ongoing academic leadership reflects a well-rounded and committed research career.

Sara Amelia Ramírez Pasten | Nanotechnology | Women Researcher Award

Published on by Cryogenicist

Prof. Dr. Sara Amelia Ramírez Pasten | Nanotechnology | Women Researcher Award

Researcher, Bernardo O’Higgins University, Chile

Dr. Sara Amelia Ramírez Pastén is a Chilean chemist and researcher with expertise in nanotechnology, electrochemical sensors, and antimicrobial materials. 🎓 She earned her Ph.D. in Chemistry from Universidad de Santiago de Chile in 2021 and currently works as a lecturer and principal investigator at Universidad Bernardo O’Higgins. Her work bridges science and entrepreneurship, developing nanomaterials for real-world healthcare applications. 🌍🔬

Professional Profile

ORCID

🎓 Education

She completed all her higher education at Universidad de Santiago de Chile, earning her chemistry degree, licentiate, and Ph.D. in Chemistry. 📘 Additionally, she undertook technical training in industrial safety and chemical labs during her early education, showcasing her strong practical foundation from an early stage. 🧑‍🔬

🧑‍🔬 Experience

Dr. Ramírez Pastén has served in academic and research roles at several Chilean institutions, including Universidad Central and Universidad del Desarrollo. 👩‍🏫 She completed a research internship in Spain and has held leadership positions in national research and entrepreneurial projects. Her experience spans lab teaching, project management, and nanotechnology innovation. 🔬

🔬 Research Interests

Her research focuses on nanotechnology, surface chemistry, and electrocatalysis, especially in developing nanostructured materials for antimicrobial and biomedical use. 🧫 She is passionate about applying science to solve public health challenges, including biosensors and anti-biofilm surfaces. 🧠⚗️

📚 Publications Top Notes

Antimicrobial Properties of a Novel PEGylated Copper Nanoparticle-Embedded Silicone Rubber with Potential for Use in Biomedical Applications
Journal: Polymers, 2025
Summary: This study investigates a novel silicone rubber material embedded with PEGylated copper nanoparticles, demonstrating significant antimicrobial properties suitable for biomedical applications.

Copper-Modified Cellulose Paper: A Comparative Study of How Antimicrobial Activity Is Affected by Particle Size and Testing Standards
Journal: International Journal of Molecular Sciences, 2025
Summary: The research compares the antimicrobial efficacy of copper-modified cellulose paper, highlighting the influence of particle size and testing standards on performance.

Fast and Easy Synthesis of Silver, Copper, and Bimetallic Nanoparticles on Cellulose Paper Assisted by Ultrasound
Journal: Ultrasonics Sonochemistry, 2023
Summary: This article presents an efficient method for synthesizing silver, copper, and bimetallic nanoparticles on cellulose paper using ultrasound, offering a scalable approach for material fabrication.

Molecular Anchoring with 4-Mercaptobenzoic Acid and 4-Aminothiophenol for Using Active Nanorods in the Detection of Dopamine
Journal: ECS Sensors Plus, 2022
Summary: The study explores the use of molecular anchors to enhance the sensitivity and selectivity of gold nanorods for dopamine detection, contributing to advancements in electrochemical sensors.

Mapping Experimental and Theoretical Reactivity Descriptors of Fe Macrocyclic Complexes Deposited on Graphite or on Multi-Walled Carbon Nanotubes for the Oxidation of Thiols: Thioglycolic Acid Oxidation
Journal: Electrochimica Acta, 2021
Summary: This research provides insights into the reactivity of Fe macrocyclic complexes, deposited on various substrates, for thiol oxidation, aiding in the design of efficient electrocatalysts.

🏆 Conclusion

Dr. Ramírez Pastén is a rising leader in nanoscience, with a proven record of research excellence, innovation, and entrepreneurship. 🥇 Her work integrates science and public health, producing materials that could transform medical treatment and infection control. She continues to drive impactful research, mentor students, and commercialize discoveries, making her a strong candidate for recognition. 💼🔬

Alebachew Shumye Moges | Soil Management | Best Researcher Award

Published on by Cryogenicist

Mr. Alebachew Shumye Moges | Soil Management | Best Researcher Award

Student, Ben Gurion University of the Negev, Israel

Alebachew Shumye Moges is a committed Ethiopian hydrologist and researcher whose work centers on hydrology, water quality, land management, and sustainable irrigation. Currently pursuing a Ph.D. in Hydrology and Water Quality at Ben-Gurion University of the Negev, Israel, Alebachew is engaged in advanced modeling of rainfall-runoff, flood dynamics, and infiltration processes, integrating geospatial and statistical tools. With over a decade of experience in academia, research, and departmental leadership, he has made substantial contributions to hydrological research in the Horn of Africa, particularly in Ethiopia, and continues to contribute scholarly insight into the challenges and innovations in water resource management.

Professional Profile

ORCID

🎓 Education

Alebachew earned his BSc in Water Resources and Irrigation Management from Debre Berhan University, focusing on water conservation and system management. He pursued an MSc in Water Resources and Irrigation Engineering at Arba Minch University, where he specialized in applied hydrological research and system performance analysis. Since 2024, he has been enrolled as a Ph.D. student in Hydrology and Water Quality at Ben-Gurion University of the Negev, where his research combines empirical fieldwork with modeling tools to improve water resource planning under climate stress.

💼 Experience

Beginning as an Assistant Lecturer in  Alebachew has spent over 12 years teaching and conducting research. He served as a Lecturer at Debre Berhan University, mentoring students and publishing widely in international journals. From 2017 to 2023, he held a leadership role as University Department Head, managing departmental operations, strategic planning, and academic development. His teaching emphasized hydrological modeling, environmental systems, and irrigation management, and he contributed significantly to curriculum design and student research supervision.

🔬 Research Interests

Alebachew’s work spans hydrological modeling, soil and water conservation, irrigation performance, land degradation assessment, and community-based resource management. He employs geospatial techniques, remote sensing, and statistical tools to assess environmental impacts and optimize water use strategies. His interdisciplinary approach supports sustainable water management and climate adaptation, especially in semi-arid environments like Ethiopia’s highlands and basins.

📚 Publications Top Notes

Impact of soil and water conservation intervention on soil physico-chemical properties in Awash Basin, Ethiopia
Moges, A. S., Wondimagegn, S. A.
Soil Security, 2025, DOI: 10.1016/j.soisec.2025.100189
This study shows that long-term soil and water conservation significantly improves soil fertility and stability in the Awash Basin, enhancing moisture retention and reducing erosion.

Assessment of irrigation performance trends using selected comparative indicators: A case study of the Koga Irrigation Scheme in the Amhara region, Ethiopia
Tegegne, D., Damtie, M. T., Moges, A. S.
Irrigation and Drainage, 2025, DOI: 10.1002/ird.3021
This article analyzes irrigation efficiency trends over time, finding decreasing performance and recommending system upgrades and participatory management.

Geospatial based soil loss rate and land degradation assessment in Debre Berhan Regio-Politan city, Upper Blue Nile Basin, Central Ethiopia
Getahun, Y. S., Tesfay, F., Kassegne, A. B., Moges, A. S.
Geomatics, Natural Hazards and Risk, 2024, DOI: 10.1080/19475705.2024.2359993
Using geospatial tools, this paper identifies erosion hotspots in urbanizing areas and calls for land-use controls to mitigate degradation.

Effect of area exclosure on soil quality and community perception in Central Ethiopia
Beyene, A. W., Denboba, M. A., Moges, A. S.
Elementa: Science of the Anthropocene, 2024, DOI: 10.1525/elementa.2024.00011
The study links improved soil quality with positive community support for land restoration via area exclosures.

Evaluate the effectiveness of soil and water conservation interventions in the upper Awash Basin, Ethiopia
Moges, A. S., Wondimagegn, S. A., Getahun, Y. S.
World Water Policy, 2024, DOI: 10.1002/wwp2.12165
This research confirms that soil and water conservation interventions reduce runoff and sediment yield, promoting watershed health.

Rural household’s willingness to pay for irrigation water use: An application of contingent valuation method in the North Shewa zone, Ethiopia
Shenkute, B. K., Getahun, Y. S., Moges, A. S., Tesfaye, M. A.
World Water Policy, 2023, DOI: 10.1002/wwp2.12132
The article evaluates farmers’ willingness to pay for irrigation water, showing economic potential for sustainable water management.

Identification of Suitable Rainwater Harvesting Sites Using Geospatial Techniques With AHP in Chacha Watershed, Jemma Sub-Basin Upper Blue Nile, Ethiopia
Gebremedhn, A. Y., Getahun, Y. S., Moges, A. S., Tesfay, F.
Air, Soil and Water Research, 2023, DOI: 10.1177/11786221231195831
This paper uses GIS and AHP methods to map optimal sites for rainwater harvesting, aiding water access planning in semi-arid regions.

Evaluation of canal water conveyance and on-farm water application for a small-scale irrigation scheme in Ethiopia
Moges, A. S., Shumye, A., Ing, P. S.
International Journal of Water Resources and Environmental Engineering, 2018, DOI: 10.5897/ijwree2018.0800
This study evaluates water conveyance efficiency and irrigation application at a small-scale scheme, identifying key losses and suggesting improvements for better water use.

🏆 Conclusion

Alebachew Shumye Moges exemplifies the integration of scientific rigor, practical field research, and academic leadership. His body of work contributes to improving water governance, irrigation efficiency, and environmental conservation in Africa. Through teaching, mentoring, and research dissemination, he actively builds capacity and informs policy at both local and international levels. His publications reflect a balance of empirical precision and applied relevance, making him an ideal candidate for academic and research recognition in the field of water science and sustainability.

Jan Kruzelak | Polymer | Best Researcher Award

Published on by Cryogenicist

Assoc. Prof. Dr. Jan Kruzelak | Polymer | Best Researcher Award

Researcher, Slovak University of Technology, Slovakia

Assoc. Prof. Ján Kruželák, PhD, is an accomplished academic and researcher at the Slovak University of Technology in Bratislava, specializing in polymer science, particularly rubber and elastomer technology. Since 2017, he has held the position of Associate Professor at the Institute of Natural and Synthetic Polymers, Department of Plastics, Rubber and Fibres. With deep knowledge in vulcanization systems and filler-rubber interface chemistry, his research stands at the intersection of material performance and sustainability. He has authored or co-authored over 75 peer-reviewed articles, and his work has received over 970 citations on Scopus and about 850 on Web of Science, both with an h-index of 14. His expertise and commitment to innovation and education mark him as a significant contributor to his field.

Professional Profile

Scopus Profile

ORCID

🎓 Education

Prof. Kruželák has pursued his entire academic career at the Slovak University of Technology in Bratislava. He began with a Bachelor’s degree, then completed his Master’s in 2007. He obtained his PhD and further advanced his research experience through a postdoctoral fellowship. This comprehensive education equipped him with a strong foundation in polymer materials, especially in their chemical processing and application.

💼 Experience

Beginning his academic career as an Assistant Professor in 2012, Prof. Kruželák was promoted to Associate Professor in 2017. Over the years, he has led numerous projects focusing on rubber composites, vulcanization technologies, and biopolymer additives. He has also delivered lectures and supervised over 35 Bachelor’s and Master’s theses, in addition to mentoring PhD candidates. His active role in international conferences and collaborative networks reflects his leadership in research and teaching.

🔬 Research Interests

His research focuses on the formulation, cross-linking, and performance optimization of rubber materials. He studies sulfur and peroxide vulcanization mechanisms, including their interaction with co-agents and bio-based fillers such as kraft lignin and calcium lignosulfonate. Moreover, he explores sustainable solutions for rubber waste reuse and eco-friendly additives, bridging polymer technology and environmental science. His work provides innovative solutions to the rubber industry and academia alike.

📚 Publications Top Notes

Influence of Plasticizers on Cross-Linking Process, Morphology, and Properties of Lignosulfonate-Filled Rubber Compounds

Authors: Ján Kruželák, Michaela Džuganová, Andrea Kvasničáková, Ján Hronkovič, Ivan Hudeč
Journal: Polymers, 2025
This study investigates the role of plasticizers in modifying the cross-link density, dispersion, and morphological characteristics of rubber compounds filled with calcium lignosulfonate. It reveals that plasticizers significantly enhance compatibility between the rubber matrix and the filler, leading to improved elasticity and processing behavior.

Strategy for Reducing Rubber Wear Emissions: The Prospect of Using Calcium Lignosulfonate

Authors: Michaela Džuganová, Radek Stoček, Marek Pöschl, Ján Hronkovič, Jozef Preťo
Journal: Express Polymer Letters, 2024
This paper presents an eco-innovation by proposing calcium lignosulfonate as a sustainable filler to reduce particulate emissions from rubber wear. The study confirms that this biopolymer can decrease tire wear and enhance environmental safety without compromising mechanical strength.

Sulfur and Peroxide Curing of NBR-Based Rubber Compounds Filled with Kraft Lignin and Calcium Lignosulfonate

Authors: Ján Kruželák, Michaela Džuganová, Klaudia Hložeková, Henrich Krump, Ivan Hudeč
Journal: Journal of Applied Polymer Science, 2024
This comparative research analyzes sulfur and peroxide curing systems applied to nitrile rubber (NBR) composites with bio-based fillers. It identifies that peroxide systems offer better heat resistance and cross-linking control, while sulfur curing provides higher tensile strength under certain conditions.

The Impact of Surface Roughness on Conformal Cooling Channels for Injection Molding

Authors: Jan Hanzlik, Jiri Vaněk, Vladimír Pata, Ján Kruželák, Martin Bednarik
Journal: Materials, 2024
Though primarily mechanical, this interdisciplinary study examines how varying surface roughness levels affect cooling rates in injection molds. Prof. Kruželák contributed through his polymer insights, especially concerning mold-material interactions and thermal conductivity improvements.

The Electrical Conductivity, EMI Absorption Shielding Performance, Curing Process, and Mechanical Properties of Rubber Composites

Authors: Ján Kruželák, Andrea Kvasničáková, Michaela Džuganová, Ivan Hudeč, Henrich Krump
Journal: Polymers, 2024
This paper explores multifunctional rubber composites engineered for both mechanical durability and electromagnetic shielding. It demonstrates that proper filler selection and optimized curing enhance conductivity and shielding performance, positioning these materials for advanced applications in electronics and automotive sectors.

🔚 Conclusion

Assoc. Prof. Ján Kruželák, PhD, exemplifies scientific excellence through his deep expertise in polymer chemistry, dedication to sustainable material innovation, and academic mentorship. His significant research contributions, reflected in high-impact publications and international collaborations, underline his eligibility for recognition and awards. His work continues to influence the global polymer science community, contributing to both industrial advancements and ecological sustainability.

Salma Khan | Translational Research | Best Researcher Award

Published on by Cryogenicist

Assoc. Prof. Dr. Salma Khan | Translational Research | Best Researcher Award

Associate Professor, Loma Linda University, United States

Dr. Salma Khan is an accomplished Associate Professor at Loma Linda University, specializing in gynecologic oncology and molecular medicine. 🧬 With both MD and PhD credentials, she brings a rich blend of clinical expertise and cutting-edge research experience. Since 2006, Dr. Khan has focused on cancer biology, particularly studying survivin — a protein involved in cancer cell survival — and its role in cancer progression through exosomal pathways. Her work advances early cancer detection and highlights health disparities, making her a respected leader in cancer research and education. 🌟

Professional Profile

Scopus Profile

ORCID

Google Scholar

🎓 Education

Dr. Khan earned her MBBS/MD degree from Gandhi Medical College in Bhopal, India, followed by residency and fellowship training in Obstetrics and Gynecology in Dhaka, Bangladesh, and Kumamoto University, Japan. 🇮🇳🇧🇩🇯🇵 She completed her PhD in Gynecologic Oncology at Kumamoto University, where she specialized in molecular mechanisms of cancer. Her diverse international education has given her a broad, multidisciplinary perspective that informs her research and clinical work. 🎓📚

💼 Experience

Dr. Khan’s extensive experience spans clinical practice and academic research. She currently holds faculty positions at Loma Linda University in Basic Sciences, Internal Medicine, and Otolaryngology. 🏥 She has contributed as a postdoctoral fellow at prestigious institutions like Cedars-Sinai Medical Center and LLU, focusing on molecular oncology. Additionally, Dr. Khan plays an active role in academic leadership, serving on committees for faculty promotion, research symposia, and diversity initiatives. 🏆

🔬 Research Interests

Her primary research explores the molecular biology of cancer, with a special focus on survivin — a protein that inhibits apoptosis (cell death) and promotes tumor growth and metastasis. 🔍 Dr. Khan investigates how survivin is released via exosomes (small vesicles secreted by cells) and how this process contributes to cancer progression and immune system evasion. She also studies the impact of genetic and epigenetic factors in breast and thyroid cancers, emphasizing health disparities among ethnic groups. 🌍

🏅 Awards and Honors

Dr. Khan’s groundbreaking work has earned her several prestigious awards, including the Best Mentor Award from the Bangladesh Medical Association of Northern America (BMANA) in multiple years and the American Association for Cancer Research (AACR) Health Disparities Award in 2024. 🏅 She has been recognized consistently with travel awards from the American Thyroid Association and the Endocrine Society for her scientific contributions and leadership in cancer research. 🎖️

📚 Publications Top Notes

1. Plasma-derived exosomal survivin, a plausible biomarker for early detection of prostate cancer

Authors: S Khan, JMS Jutzy, MMA Valenzuela, D Turay, JR Aspe, A Ashok, et al.
Journal: PLOS ONE
Year: 2012
Summary:
This study investigates survivin, an inhibitor of apoptosis protein, released via exosomes in plasma and its potential as an early biomarker for prostate cancer. The authors demonstrate that survivin can be detected in plasma-derived exosomes from prostate cancer patients, suggesting that exosomal survivin could serve as a non-invasive, early detection biomarker for prostate cancer. The study highlights the significance of exosome-mediated communication in cancer progression and supports further development of survivin-based diagnostic tools.

2. Survivin is released from cancer cells via exosomes

Authors: S Khan, JMS Jutzy, JR Aspe, DW McGregor, JW Neidigh, NR Wall
Journal: Apoptosis
Year: 2011
Summary:
This publication identifies that survivin, a key protein involved in inhibiting cell death and promoting tumor survival, is actively secreted from cancer cells through exosomes. This finding reveals a novel mechanism of survivin release that may contribute to cancer cell communication, survival, and metastasis. Understanding the exosomal release of survivin opens new pathways for targeting survivin-mediated tumor progression.

3. Early diagnostic value of survivin and its alternative splice variants in breast cancer

Authors: S Khan, HF Bennit, D Turay, M Perez, S Mirshahidi, Y Yuan, NR Wall
Journal: BMC Cancer
Year: 2014
Summary:
This study evaluates survivin and its splice variants as potential early diagnostic biomarkers for breast cancer. The authors explore expression patterns of survivin variants in breast cancer tissues and show that some variants correlate with early stages of the disease, making them promising candidates for early detection. The study emphasizes the importance of alternative splicing of survivin in cancer biology and its diagnostic implications.

4. Extracellular, cell-permeable survivin inhibits apoptosis while promoting proliferative and metastatic potential

Authors: S Khan, JR Aspe, MG Asumen, F Almaguel, O Odumosu, et al.
Journal: British Journal of Cancer
Year: 2009
Summary:
This research shows that extracellular survivin, which is capable of entering cells, inhibits programmed cell death and enhances cancer cell proliferation and metastatic capacity. This dual role of survivin not only promotes tumor growth but also increases metastatic potential, providing insight into how extracellular survivin contributes to cancer progression and resistance to therapy.

5. PTEN promoter is methylated in a proportion of invasive breast cancers

Authors: S Khan, T Kumagai, J Vora, N Bose, I Sehgal, PH Koeffler, S Bose
Journal: International Journal of Cancer
Year: 2004
Summary:
This study examines the methylation status of the PTEN gene promoter in invasive breast cancers and finds that a subset of these cancers shows hypermethylation leading to PTEN silencing. Since PTEN is a tumor suppressor, its inactivation through promoter methylation can contribute to breast cancer progression. The study highlights epigenetic modifications as an important mechanism in breast cancer development.

✨ Conclusion

Dr. Salma Khan’s career embodies dedication to advancing cancer biology through innovative research on survivin and exosomal pathways. Her interdisciplinary expertise bridges clinical medicine and molecular science, addressing both biological mechanisms and health equity in cancer care. As a mentor, researcher, and clinician, she continues to impact cancer diagnostics, therapeutics, and education, shaping the future of oncology research. 🚀🎓

Animesh Sarkar | Food Processing | Best Researcher Award

Published on by Cryogenicist

Prof. Dr. Animesh Sarkar | Food Processing | Best Researcher Award 

Professor, Shahjalal University of Science and Technology, Bangladesh

Professor Animesh Sarkar is a distinguished academic and researcher specializing in Food Engineering and Agricultural Sciences. With over 15 years of dedicated experience, he currently serves as a Professor at the Department of Food Engineering and Tea Technology, Shahjalal University of Science and Technology, Bangladesh. His expertise spans sustainable food production, bioremediation of heavy metals, tea science, bio-fertilizers, agricultural waste management, and food chemistry. He strives to enhance global food security by developing innovative, eco-friendly technologies and advancing knowledge in food processing and soil microbiology.

Professional Profile

Google Scholar

🎓 Education

Professor Sarkar’s academic foundation was built at Bangladesh Agricultural University, where he earned his B.Sc. in Agriculture (2006) and M.S. in Agricultural Chemistry (2007). His master’s thesis focused on isolating phosphate solubilizing bacteria and their impact on rice grown in acidic soil. He then pursued advanced research in Japan, obtaining a PhD in Science and Engineering from Saitama University in 2015. His doctoral research investigated the role of arbuscular mycorrhizal fungi on floodplain plants under nutrient deficiency and heavy metal stress. He furthered this work as a JSPS postdoctoral fellow (2017–2019), focusing on bioremediation and food safety.

💼 Professional Experience

Since 2009, Professor Sarkar has been a vital faculty member at Shahjalal University. He has taught a broad spectrum of courses such as Soil Science, Food Chemistry, Agro-industrial Chemistry, and Tea Agronomy at both undergraduate and graduate levels. Alongside teaching, he has supervised more than 40 students across various levels. His research spans experimental trials in food processing, tea crop development, microbial bioremediation, and environmental sustainability. He actively collaborates with farmers to solve crop production challenges and promotes university-industry-farmer linkages.

🔬 Research Interests

His core research interests include the sustainable production of nutrient-rich food, the bioremediation of heavy metals using fungi and bacteria, microbial interactions with plants, food waste valorization, and non-thermal food processing techniques. He also investigates the use of biofertilizers and biopesticides to improve crop yield and soil health, focusing on eco-friendly agricultural practices and enhancing the safety and quality of food products.

📚 Publications Top Notes

Application of nanotechnology in food: processing, preservation, packaging and safety assessment
R Biswas, M Alam, A Sarkar, MI Haque, MM Hasan, M HoqueHeliyon, 2022, 8(11), 126. (Cited 126 times)
This comprehensive review examines how nanotechnology is revolutionizing food processing, preservation, and packaging. It highlights advances in enhancing food safety, shelf life, and nutrient delivery through nanoscale materials. The article discusses potential risks and regulatory considerations, providing a balanced perspective on future applications in the food industry.

Comparisons of yield, water use efficiency, and soil microbial biomass as affected by the system of rice intensification
L Zhao, L Wu, Y Li, S Animesh, D Zhu, N UphoffCommunications in Soil Science and Plant Analysis, 2010, 41(1), 1-12. (Cited 118 times)
This study evaluates the System of Rice Intensification (SRI) and its impact on rice yield, water conservation, and soil microbial health. Findings indicate that SRI improves water use efficiency and enhances soil microbial biomass, contributing to sustainable rice production in water-scarce regions.

Screening for phosphate solubilizing bacteria inhabiting the rhizoplane of rice grown in acidic soil in Bangladesh
A Sarkar, T Islam, G Biswas, S Alam, M Hossain, N TalukderActa Microbiologica et Immunologica Hungarica, 2012, 59(2), 199-213. (Cited 72 times)
This research isolates and characterizes phosphate solubilizing bacteria (PSB) from rice rhizoplane soil. The study reveals PSB’s crucial role in improving phosphorus availability and rice growth in acidic soils, offering an eco-friendly alternative to chemical fertilizers.

Arbuscular mycorrhizal influences on growth, nutrient uptake, and use efficiency of Miscanthus sacchariflorus growing on nutrient-deficient river bank soil
A Sarkar, T Asaeda, Q Wang, MH RashidFlora, 2015, 212, 46-54. (Cited 52 times)
This article documents the positive effects of arbuscular mycorrhizal fungi on the growth and nutrient uptake of Miscanthus sacchariflorus in nutrient-poor soils. It demonstrates enhanced nutrient use efficiency, suggesting that mycorrhizal symbiosis is beneficial for revegetation of degraded riparian habitats.

Impact of blanching pretreatment on physicochemical properties, and drying characteristics of cabbage (Brassica oleracea)
A Sarkar, S Rahman, M Roy, M Alam, MA Hossain, T AhmedFood Research, 2021, 5(2), 393-400. (Cited 44 times)
This experimental study investigates how blanching affects the drying kinetics and quality parameters of cabbage. Results show blanching improves drying rate and preserves physicochemical properties, providing valuable data for optimizing cabbage processing in the food industry.

🏆 Conclusion

Professor Animesh Sarkar’s career is marked by a robust blend of teaching excellence, cutting-edge research, and practical agricultural interventions. His pioneering work on microbial bioremediation, food processing innovations, and sustainable crop management addresses some of the most pressing challenges in food security and environmental sustainability. Recognized internationally, with numerous citations and prestigious fellowships, his contributions continue to impact scientific communities and farming practices alike. His dedication to mentoring the next generation and fostering collaborative research further amplifies his standing as a leading figure in agricultural and food science.