Shiji Lin | Nanotechnology in Environment | Young Scientist Award

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Assoc. Prof. Dr. Shiji Lin | Nanotechnology in Environment | Young Scientist Award

Associate Professor | University of Electronic Science and Technology of China | China

Assoc. Prof. Dr. Shiji Lin is an accomplished female researcher in experimental fluid mechanics and interfacial science, with a strong scholarly impact reflected by 919 Scopus citations, 34 indexed publications, an h-index of 17, and an i10-index of 20. Her research focuses on droplet dynamics, wetting and spreading on complex and superhydrophobic surfaces, liquid instability, jetting phenomena, and coupled experimental–numerical analysis of multiphase flows. She has made notable contributions to understanding droplet impact physics, rebound control, splashing mechanisms, and microfluidic manipulation, with high-quality publications in leading journals such as Physical Review Fluids, Physical Review E, Advanced Science, International Journal of Heat and Mass Transfer, and Journal of Colloid and Interface Science. Her work bridges fundamental fluid dynamics with applied surface engineering, enabling advances in thermal management, microdispensing, and functional surface design. She has also contributed to funded research projects, peer review activities, and international conferences, demonstrating sustained innovation, strong research leadership, and growing recognition within the global fluid mechanics research community.

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View Scopus Profile  View ORICD Profile  View Google Scholar View ResearchGate View Researcher Profile

Featured Publications

Impact of Viscous Droplets on Wettable Surfaces: Spreading Dynamics and Post-Impact Oscillations
Journal of Colloid and Interface Science, 2018 · Ciations: 339

Spreading of impinging droplets on nanostructured superhydrophobic surfaces
Applied Physics Letters, 2018 · Ciations: 42

Macrodrop-Impact-Mediated Fluid Microdispensing
Advanced Science, 2021 · Ciations: 40

Gang Gao | Nanotechnology in Environment | Research Excellence Award

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Assoc. Prof. Dr. Gang Gao | Nanotechnology in Environment | Research Excellence Award

Associate Professor | Harbin Institute of Technology | China

Assoc. Prof. Dr. Gang Gao is an accomplished materials scientist specializing in infrared photoelectric thin-film materials, transparent conducting semiconductors, and photonic integrated devices. His research emphasizes the design and engineering of high-performance p-type transparent conductors, multifunctional oxide and chalcogenide thin films, electromagnetic shielding coatings, and intelligent optoelectronic materials. He has made significant contributions to infrared transparency modulation, carrier transport optimization, and defect engineering in reduced-dimensional and oxide-based systems, enabling advanced applications in optoelectronics, aerospace windows, photodetectors, and energy harvesting. Assoc. Prof. Dr. Gang Gao has authored 50 peer-reviewed publications in high-impact journals, accumulating over 688 Scopus citations with an h-index of 15, reflecting strong international research influence. His work bridges fundamental materials physics with applied R&D, delivering innovative thin-film fabrication strategies and device-relevant performance enhancements. He actively contributes to the scholarly community through editorial board service, peer review, and leadership in cutting-edge materials and photonics research initiatives.

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Featured Publications

Himanshu Asati | Nanotechnology in Environment | Young Scientist Award

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Dr. Himanshu Asati | Nanotechnology in Environment | Young Scientist Award

Research Associate | Indian Institute of Technology (IIT) | India

Dr. Himanshu Asati is an emerging researcher in sustainable nanomaterials, with key contributions to waste-derived carbon nanostructures, green energy systems, water remediation technologies, and bioresource valorization. His research focuses on developing advanced nano carbons-particularly carbon nano-onions, graphene aerogels, and functional carbonaceous materials-from low-cost waste resources to address critical challenges in environmental cleanup, bioenergy production, and clean hydrogen generation. With multiple peer-reviewed journal publications in ACS Sustainable Resource Management, Materials Today Sustainability, RSC Applied Interfaces, and Environmental Science: Nano, Dr. Himanshu Asati has demonstrated impactful work on microwave-assisted catalytic degradation, dye remediation, drug removal, and eco-toxicological assessments of nanomaterials. His innovative studies have advanced the understanding of N-doped carbon aerogels, waste-derived nano-carbons, and carbon nano-onion–based hybrid systems for photocatalysis and pollutant degradation. He has contributed book chapters with major publishers including Elsevier and Springer, focusing on carbon nano-onions and carbon dots for sensing technologies. His research pipeline also includes manuscripts on composite membranes for proton-exchange fuel cells and antimicrobial carbon dots, reflecting his multidisciplinary engagement across energy materials and bio-nanotechnology. Dr. Himanshu Asati’s patent on a novel process for wastewater bioremediation coupled with biofuel production highlights his translational approach toward sustainable technologies. He has presented his research at leading national and international conferences, including NANO KOREA, ICN, THRIVE, ChemEEE, and various hydrogen-energy and nanotechnology platforms. Recognitions such as the ANRF ITS India Grant and Best Paper Award at NCAST further underscore the significance of his contributions. With a citation record of 54 citations, 3 Scopus-indexed publications, and an h-index of 3, Dr. Himanshu Asati’s research impact continues to grow steadily. His expertise spans nanomaterial synthesis, environmental nanotechnology, photocatalysis, bioenergy harvesting, sustainable membranes, proton-exchange technologies, and nano-bio interactions. He has also contributed as a reviewer, academic participant, and active member of the scientific community through workshops and international research events.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate

Featured Publications

1. Asati, H., Rana, M. S., Prajapati, S. K., & Tripathi, K. M. (2025). Use of water-soluble carbon nano onions in microalgae for the COD diminution and sustainable production of biofuels. ACS Sustainable Resource Management, 2, 1957–1965.
https://doi.org/10.1021/acssusresmgt.5c00276

2. Asati, H., Mondal, R., & Tripathi, K. M. (2024). Ultra-fast microwave catalytic degradation of multiple dyes by waste-derived carbon nano onions. Materials Today Sustainability, 26, 100724.
https://doi.org/10.1016/j.mtsust.2024.100724

3. Asati, H., Mondal, R., & Tripathi, K. M. (2024). Green synthesis of a disordered N-doped carbonaceous aerogel from waste for the removal of over-the-counter drugs and environmental assessment. RSC Applied Interfaces, 1, 580–590.
https://doi.org/10.1039/D4LF00046C

4. Asati, H., Mondal, R., & Tripathi, K. M. (2024). Economically viable N-doped graphene aerogel for the photodegradation of structurally different dyes and a plant-model-based environmental assessment. Environmental Science: Nano, 11, 969–982.
https://doi.org/10.1039/D3EN00752A

5. Asati, H., & Tripathi, K. M. (2025). From traditional practices to modern nanoscience: A hands-on undergraduate lab on carbon nano onions. (Under revision), ACS Journal of Chemical Education.

Henryk Wojtaszek | Nanomaterials for Energy | Best Researcher Award

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Dr. Henryk Wojtaszek | Nanomaterials for Energy | Best Researcher Award

Research Science | University College of Professional Education in Wroclaw | Poland

Dr. Henryk Wojtaszek is an accomplished research scientist from the University College of Professional Education in Wroclaw, Poland, recognized for his scholarly contributions in economics, management, innovation, and renewable energy policy. His research integrates sustainable economic development with strategic management frameworks and energy transition models, contributing significantly to the understanding of low-carbon transformation and industrial innovation. Dr. Henryk Wojtaszek has authored and co-authored over 20 scientific publications indexed in Scopus and Google Scholar, with more than 464 citations and an h-index of 13. His works are featured in leading journals such as Energies, Sustainability, European Research Studies Journal, and the Scientific Papers of Silesian University of Technology. Notable publications include studies on “Barriers to Innovation in Manufacturing SMEs,” “Energy Transition 2024–2025,” and “Hydrogen Energy as a Catalyst for Sustainable Development,” emphasizing green transformation, innovation strategy, and comparative energy policies in Europe. His research areas span renewable-energy economics, sustainable management, innovation systems, industry 4.0 strategies, and cross-border policy analysis between Poland and Germany. Dr. Henryk Wojtaszek has contributed to multiple international and interdisciplinary projects focusing on energy transition, hydrogen economy, and education-management integration. His findings have guided decision-making for enterprises and policymakers addressing socio-economic and environmental sustainability. Dr. Henryk Wojtaszek’s scholarly achievements are complemented by active participation in research evaluation, editorial review, and international scientific collaborations. His recognition in the academic community reflects his commitment to advancing research on innovation-driven economic growth, renewable-energy policy, and sustainable development practices in Europe and beyond.

Profiles: Scopus | ORCID | Google Scholar | Research Gate | Sci Profiles | Academia

Featured Publications

1. Wojtaszek, H., & Miciuła, I. (2019). Analysis of factors giving the opportunity for implementation of innovations on the example of manufacturing enterprises in the Silesian province. Sustainability, 11(20), 5850.

2. Wojtaszek, H. (2016). Selected aspects of innovative motivation. World Scientific News, 44, 37–45.

3. Miciuła, I., Wojtaszek, H., Bazan, M., Janiczek, T., Włodarczyk, B., Kabus, J., & others. (2020). Management of the energy mix and emissivity of individual economies in the European Union as a challenge of the modern world climate. Energies, 13(19), 5191.

4. Jałowiec, T., Wojtaszek, H., & Miciuła, I. (2022). Analysis of the potential management of the low-carbon energy transformation by 2050. Energies, 15(7), 2351.

5. Kuzminski, L., Jałowiec, T., Masloch, P., Wojtaszek, H., & Miciuła, I. (2020). Analysis of factors influencing the competitiveness of manufacturing companies. University of Piraeus: International Strategic Management Association Conference Proceedings, 25–34.

Omar Israel González Peña | Nanotechnology | Best Researcher Award

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Dr. Omar Israel González Peña | Nanotechnology | Best Researcher Award

Professor at Hospital Infantil de México Federico Gómez, Mexico

Prof. Dr. Omar Israel González Peña is a multidisciplinary researcher and academic with expertise in electrochemical engineering, micro/nanotechnology, and educational innovation. He holds a Ph.D. in Chemical Engineering from Case Western Reserve University, an M.S. in Electrochemistry from CIDETEQ, and a B.S. in Chemical Engineering from the University of Guadalajara. Currently advancing his studies in educational research and statistical techniques at TECH Global University in Spain, he integrates cutting-edge research with transformative teaching methods. His work spans microfabrication, lab-on-a-chip systems, electrochemical sensors, energy storage technologies, and environmental remediation. Passionate about sustainable innovation and knowledge transfer, he actively promotes interdisciplinary collaboration and open science through the Penta Helix model. Prof. González Peña’s contributions reflect a strong commitment to advancing both scientific progress and human development through holistic, impactful research and education.

Professional Profile:

SCOPUS

GOOGLE SCHOLAR

ORCID

Education

Prof. Dr. Omar Israel González Peña holds a diverse and interdisciplinary academic background spanning chemical engineering, electrochemistry, and educational research. He is currently pursuing a Master of Science in Statistical Techniques at TECH Global University, Spain, with expected completion in 2026. He has also completed a Master of Education in Research in Education at the same institution in 2025, with the degree documentation currently being processed. He earned his Ph.D. in Chemical Engineering from Case Western Reserve University, Cleveland, Ohio, USA, in 2015. His doctoral dissertation, titled “Mass transport enhancement during copper electrodeposition due to gas co-evolution,” was supervised by Prof. Uziel Landau. Prior to this, he completed a Master’s degree in Electrochemistry in 2007 at the Center of Research and Technologic Development in Electrochemistry (CIDETEQ) in Querétaro, Mexico. His thesis, under the mentorship of Prof. Rene Antaño López, focused on the fundamental behavior of citrate and thiocyanate additives at the metal/solution interface in electrodeposition processes. Prof. González Peña began his academic journey at the University Center of Exact Sciences and Engineering (CUCEI) at the University of Guadalajara in Mexico, where he received a Bachelor of Science in Chemical Engineering in 2003. Notably, he earned a Certification of Satisfactory Academic Performance from the National Center for Higher Education Assessment (CENEVAL) during his undergraduate graduation review.

Experience

Prof. Dr. Omar Israel González Peña has amassed significant academic and research experience across a multidisciplinary spectrum, blending electrochemical engineering, educational innovation, and environmental sustainability. As a professor and researcher, he has developed and implemented pedagogical strategies rooted in emotional intelligence, neurocognition, flipped classrooms, and experiential learning. His work emphasizes knowledge management and holistic education, aiming to cultivate human competencies and disruptive innovation. His technical expertise spans the design and fabrication of microelectronic materials and micro/nano structures, including advanced applications in microfluidics, electrochemical sensors, programmable system-on-a-chip technologies, and lab-on-a-chip platforms. He has conducted pioneering research in energy conversion and storage technologies such as microbial fuel cells, flow batteries, supercapacitors, and green hydrogen production. His experience also extends to environmental engineering, where he has contributed to the development of remediation systems for emerging pollutants using electrochemical and photocatalytic processes. Furthermore, he has actively participated in the formulation and analysis of public policies and certifications related to hazardous waste, desalination, electronic waste management, and pollution control. With a strategic focus on innovation, he promotes collaborative networks through open innovation hubs based on the Penta Helix model, fostering synergies between academia, industry, government, civil society, and media to drive sustainable technological advancement.

Research Interests

Prof. Dr. Omar Israel González Peña’s research interests lie at the intersection of science, technology, education, and sustainability, approached through a holistic and interdisciplinary lens. He integrates personal and professional competencies to drive scientific inquiry, with a strong focus on knowledge management, emotional intelligence, neurocognition, and innovative teaching methodologies such as flipped classrooms, problem-based learning, and experiential education. His research is deeply rooted in the development and application of electrochemical systems for health, energy, and environmental solutions. He specializes in microelectronic materials and micromachining techniques for fabricating micro- and nanoscale structures, including microfluidic systems such as lab-on-a-chip and organ-on-a-chip platforms, which are used for drug delivery, single-cell analysis, and clinical diagnostics. His expertise also covers advanced electrochemical power systems like microbial fuel cells, supercapacitors, flow batteries, photovoltaics, and green hydrogen production. Moreover, he investigates environmental remediation technologies, including advanced oxidation processes and heterogeneous photocatalysis for removing emerging pollutants from wastewater. He is also engaged in electrodeposition techniques utilizing complex fluids and protic ionic liquids for developing multifunctional materials with electronic, magnetic, or optical properties. Additionally, he explores the design and modeling of electrochemical systems for energy storage and conversion, applying system dynamics, transport phenomena, and chemical engineering principles. His broader vision incorporates public policy, environmental legislation, and the creation of open innovation ecosystems using the Penta Helix model to facilitate technology transfer, circular economy practices, and citizen science initiatives.

Publications

Pharmaceuticals market, consumption trends and disease incidence are not driving the pharmaceutical research on water and wastewater

Cited: 279

Analysis of competency assessment of educational innovation in upper secondary school and higher education: a mapping review

Cited: 48

Use of cyclic voltammetry to describe the electrochemical behavior of a dual-chamber microbial fuel cell

Cited: 44

Mathematics anxiety and self-efficacy of mexican engineering students: Is there gender gap?

Cited: 43

Implicaciones de la gamificación en educación matemática, un estudio exploratorio

Cited: 43

Conclusion

 

Marwah Naser | Nanomaterial | Best Scholar Award

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Mrs. Marwah Naser | Nanomaterial | Best Scholar Award

Phd srudent in analytical chemistry at Ankara university, Turkey

Mrs. Marwah Naser is a Ph.D. candidate in Analytical Chemistry at Ankara University, College of Pharmacy, Turkey. She holds a Master’s degree in Analytical Chemistry from the same institution and a Bachelor’s degree from Al-Mustansiriyah University, College of Pharmacy, Iraq. Her research focuses on the development of electrochemical sensors, including electrode modification using nanomaterials and metallic nanocomposites. She specializes in analytical techniques such as differential pulse voltammetry (DPV), cyclic voltammetry (CV), and electrochemical impedance spectroscopy (EIS), with an emphasis on drug detection in biological samples and the synthesis of nanocomposites like activated carbon and Fe₃O₄.

Professional Profile:

SCOPUS

Summary of Suitability for Research for Best Scholar Award

Mrs. Marwah Naser has built a solid academic foundation in Analytical Chemistry, progressing from a Bachelor’s in Pharmacy (Iraq) to a Master’s and ongoing Ph.D. at Ankara University, Turkey—a respected institution in pharmaceutical sciences. Her scholarly journey is marked by deep specialization and an expanding research portfolio in electrochemical analysis and sensor technologies.

📘 Education Background

  • 🎓 Ph.D. in Analytical Chemistry

  • 🧪 Master’s in Analytical Chemistry (

  • 💊 Bachelor’s in Pharmacy

🔬 Research Areas & Expertise

  • ⚗️ Electrochemical Sensors for pharmaceutical and biomedical applications

  • 🧲 Electrode Modification using nanomaterials & metallic nanocomposites

  • 📉 Advanced Electroanalytical Techniques:

    • Differential Pulse Voltammetry (DPV)

    • Cyclic Voltammetry (CV)

    • Electrochemical Impedance Spectroscopy (EIS)

  • 💉 Detection of Drugs in Biological Samples

  • 🌑 Synthesis and Application of Nanocomposites
    (e.g., Activated Carbon, Fe₃O₄)

🏆 Achievements & Highlights

  • 🧪 Developed sensitive electrochemical detection platforms

  • 🔬 Contributed to nanomaterial-based analytical techniques

  • 💡 Skilled in integrating nanotechnology into real-world drug analysis

  • 🧠 Strong foundation in both pharmaceutical and analytical sciences

📚Publication Top Notes

Comparative assessment of ZIF-based electrochemical sensors for Cabotegravir detection in environmental, biological, and pharmaceutical samples

Ms. Yossra Ounis Dkhil | Nanomaterials | Best Researcher Award

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Ms. Yossra Ounis Dkhil | Nanomaterials | Best Researcher Award

Ms. Yossra Ounis Dkhil, Faculty of Sciences of Gabes, University of Gabes, Tunisia

Yossra Ounis Dkhil, is a dedicated PhD candidate specializing in catalysis and nanomaterials for environmental applications. Currently affiliated with the Catalysis and Materials for the Environment and Processes Research Laboratory at the University of Gabes, Yossra has been a guest researcher at the Leibniz Institute for Catalysis (LIKAT) in Germany, where she explored ZnO nanomaterials for photocatalytic degradation of organic pollutants. With publications in renowned journals, she exemplifies excellence in green synthesis and advanced characterization techniques. Beyond her academic pursuits, Yossra enjoys reading, traveling, and gaming. 🌱📚🌍🎮

Professional Profile:

Orcid

Summary of Suitability for the Best Researcher Award

Yossra Ounis Dkhil stands as a strong candidate for the Best Researcher Award, given her outstanding contributions to catalysis and nanomaterials for environmental applications. Her interdisciplinary expertise, commitment to sustainability, and active engagement in both research and professional development distinguish her as a leader in her field.

Education and Experience 

🎓 Education

  • PhD (2021 – Present): Catalysis and Materials for Environment, University of Gabes
  • Master’s (2018 – 2020): Materials and Environmental Chemistry, University of Gabes, with honors
  • Bachelor’s (2014 – 2017): Chemistry, University of Gabes, with comprehensive training in analytical and organic chemistry

💼 Experience

  • Guest PhD Researcher (2023 – 2024): Leibniz Institute for Catalysis, Germany
  • Dental Assistant (2018): Gabes, Tunisia
  • Internships (2015 – 2018): Laboratory-based roles in medical analysis, quality control, and biological testing

Professional Development 

Yossra Ounis Dkhil actively participates in professional development activities to enhance her expertise in catalysis and nanomaterials. She attended international conferences such as the SPASEC-25 🌞 and 57th Jahrestreffen Deutscher Katalytiker 🔬. She has undertaken specialized training in Raman spectroscopy 🎥, ISO standards 📏, and photovoltaic systems ⚡. Yossra’s academic engagement extends to workshops on advanced oxidation technologies 🌊 and Springer training sessions 📚. These experiences have deepened her understanding of environmental challenges and strengthened her skills in green synthesis, photocatalysis, and material characterization, aligning her with global sustainability goals. 🌍🧪

Research Focus 

Yossra Ounis Dkhil focuses on the synthesis, characterization, and application of nanomaterials for environmental remediation 🌱. Her PhD research emphasizes green synthesis methods for ZnO nanoparticles, leveraging natural extracts like chia seeds 🌿 to achieve sustainable solutions. She investigates photocatalytic degradation mechanisms for pharmaceuticals and organic pollutants 🌊, aiming to mitigate their environmental impact. Additionally, Yossra explores advanced techniques such as X-ray diffraction and thermal analysis 🔬 to understand material properties. Her interdisciplinary approach bridges chemistry, environmental science, and nanotechnology, contributing to cleaner, greener technologies. 🌍🧪

Awards and Honors 

  • 🏆 2024: Presenter at the 57th Jahrestreffen Deutscher Katalytiker Conference
  • 🌞 2022: Participant in the SPASEC-25 and AOTs-26 International Conferences
  • 📚 2021: Recognition for excellence during Raman Spectroscopy training, University of Gabes
  • 🔬 2021: Participation in the International Colloquium on Arts, Sciences, and Technologies, Gabes
  • 🎓 2020: Honored for completing Springer and CABI doctoral training programs

Publication Top Notes:

Green Synthesis of Photocatalytically Active ZnO Nanoparticles Using Chia Seed Extract and Mechanistic Elucidation of the Photodegradation of Diclofenac and <i>p</i>-Nitrophenol
X-Ray Diffraction Analysis by Modified Scherrer, Williamson–Hall and Size–Strain Plot Methods of ZnO Nanocrystals Synthesized by Oxalate Route: A Potential Antimicrobial Candidate Against Foodborne Pathogens

 

Assist. Prof. Dr. Israa M.S. Al-Kadmy | Nanobiotechnology Awards | Women Researcher Award

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Assist. Prof. Dr. Israa M.S. Al-Kadmy | Nanobiotechnology Awards | Women Researcher Award

Assist. Prof. Dr. Israa M.S. Al-Kadmy ,Al-Mustansiriya University \ College of Science \ Department of Life Sciences , Iraq

Israa Mohammed Safa Abd Ali AL-Kadmy, born on November 30, 1984, in Baghdad, Iraq, is an accomplished researcher and academic in the fields of microbiology and nanotechnology. She earned her BSc in Biology and an MSc in Microbiology from Mustansiriyah University, Iraq. Her academic career includes positions as Assistant Lecturer, Lecturer, and Assistant Professor at various institutions, with a focus on biotechnology, molecular biology, and nanobiotechnology. She has been a Visiting Academic at Plymouth University and has taught courses at Queen’s University Belfast, Lancaster University, and Teesside University. Her research interests include molecular microbiology, nano-biotechnology, and graphene-based biosensors. Dr. AL-Kadmy is actively involved in numerous professional societies and has participated in various international conferences. She is dedicated to advancing the field of nanomaterials and their applications in health care and environmental sustainability.

Professional Profile:

Scopus

Orcid

Summary of Suitability for the Research for Women Researcher Award

Candidate: Israa Mohammed Safa Abd Ali Al-Kadmy

Israa Al-Kadmy’s dedication to advancing nanobiotechnology, her comprehensive teaching and research experience, and her active involvement in scientific communities make her an exemplary candidate for the Research for Women Researcher Award. Her work not only contributes to scientific knowledge but also has practical implications for healthcare and biosensor technologies. Her achievements in a challenging field, combined with her active engagement in both academic and charitable activities, highlight her as a leading female researcher making a meaningful impact in her domain.

🎓Education:

Israa Mohammed Safa Abd Ali AL-Kadmy completed her undergraduate studies with a Bachelor of Science in Biology from Mustansiriyah University, College of Science, Iraq, in 2006. She pursued her postgraduate education at the same institution, earning a Master of Science in Microbiology in 2012. Her MSc thesis focused on the “Detection of 16S rRNA Methylation Gene between Two Species of Gram Negative with High-Level Resistance to Aminoglycosides,” reflecting her deep engagement with molecular microbiology and resistance mechanisms

🏢Work Experience:

Israa Mohammed Safa Abd Ali AL-Kadmy has held several notable academic and research positions across prestigious institutions. She has been an Assistant Professor at Mustansiriyah University, Iraq, since May 2020. Prior to this, she served as a Lecturer at Teesside University, UK, from October 2021 to September 2022, where she taught modules on Sustainability in Chemical Engineering and Environmental and Sustainable Processing. She is currently a Lecturer in Chemical Engineering at Lancaster University, UK, starting in September 2022, where she covers Hydrogen and Fuel Cell Technologies and Chemical Process Design Project

🏆Awards and Honors:

Israa Mohammed Safa Abd Ali AL-Kadmy is an active member of several esteemed professional societies. She is affiliated with the Biological Organization Iraqis, the Science and Engineering Institute (SCIEI), and the Iraqi Society of Nanotechnology STAF ID. Her involvement extends to the International Society for Development and Sustainability (ISDS), the European Society of Clinical Microbiology and Infectious Diseases (ESCMID), and the Global Research & Development Services (GRDS). Additionally, she is a member of the European Biosafety Association (EBSA), the British Ecological Society (BES), the Microbiological Society in Europe, and the British Society for Immunology (BSI). Her participation in these organizations underscores her commitment to advancing research and development in her fields of expertise.

Publication Top Notes:

  • Sequencing Analysis and Efficient Biodiesel Production by Lipase from Pseudomonas aeruginosa
    Citations: 1
  • “The Secrets of Environmental Pseudomonas aeruginosa in Slaughterhouses: Antibiogram Profile, Virulence, and Antibiotic Resistance Genes”
    Citations: 1
  • “The Predominance of Virulence Genes Associated with Multidrug-Resistant Serratia marcescens Isolated from Urinary Tract Infections”
  • “Reducing Environmental Pollutants of Chicken Feathers by Production and Biodegradation of the Chicken Feather Keratinase from Aspergillus niger and Its Role as the Anti-biofilm Activity”
  • “COVID-19 Associated Mucormycosis Among ICU Patients: Risk Factors, Control, and Challenges”