Tang Qingjun | Scientific Breakthroughs | Best Researcher Award

Published on 19/11/202521/11/2025 by Scientist Day

Assoc. Prof. Dr. Tang Qingjun | Scientific Breakthroughs | Best Researcher Award

Assoc. Prof. Dr. Tang Qingjun | Technical Institute of Physics and Chemistry, Chinese Academy of Sciences | China

This research portfolio centers on advancing space thermal control and cryogenic refrigeration technologies, with significant emphasis on precision temperature management, lightweight system design, and enhanced performance for scientific payloads in orbit. The work covers key technological domains such as flexible heat transfer, thermal matching for low-temperature devices, insulation support structures, contamination control, and integrated thermal–mechanical engineering for spacecraft. A major focus of the research involves developing high-precision low-temperature control systems for space missions, enabling stable operation of sensitive optical payloads in complex orbital environments. Through comprehensive mastery of mechanics, thermodynamics, electromagnetics, and automated temperature regulation, several critical engineering challenges were overcome. These include improving temperature stability, reducing micro-vibration output, and optimizing thermal interfaces for high-performance detection instruments. The resulting technologies enhanced the scientific capabilities of spaceborne payloads and earned recognition from international experts in spacecraft engineering. Another central contribution lies in the development of lightweight pulse tube cryocoolers for space applications. Under major scientific and engineering programs, extensive basic and applied studies were conducted to design and optimize compact refrigeration systems. A series of prototypes was successfully built, achieving significant reductions in mass while preserving cooling capacity, operational lifespan, and structural robustness. These innovations contribute to next-generation spacecraft refrigeration solutions, supporting advanced astronomical observations and deep-space scientific missions. The research integrates theoretical modeling, high-frequency performance analysis, experimental verification, and system-level optimization. Publications include studies on coaxial and single-stage pulse tube cryocoolers, micro-scale units capable of reaching extremely low temperatures, inertance tube phase-shifting characteristics, multi-cold-finger systems, and thermo-mechanical behavior of cryogenic components. The work has appeared in leading scientific journals and international conferences covering thermal engineering, cryogenics, refrigeration science, and astronomical instrumentation. Collectively, these contributions advance cutting-edge cryogenic and thermal control technologies essential to modern space science, supporting higher-accuracy payloads, more efficient cooling solutions, and improved performance of future spacecraft systems.

Profile: Scopus

Featured Publications

Liu, C., Tian, B., Ma, J., Niu, Y., Tang, Q., Ma, Y., & Cai, J. (2025). Experimental investigation of a single-stage micro pulse tube cryocooler operating at 59 Hz with liquid nitrogen precooling: Achieving 14.8 K under 5 W input power. International Journal of Refrigeration.

Tian, B., Liu, C., Ma, J., Niu, Y., Tang, Q., Ma, Y., & Cai, J. (2025). Investigation on a micro pulse tube cryocooler operating at 152 Hz. Cryogenics.

Yuxuan Zhu | Chemical Engineering | Best Researcher Award

Published on 18/11/202518/11/2025 by Scientist Day

Mr. Yuxuan Zhu | Chemical Engineering | Best Researcher Award

Mr. Yuxuan Zhu | The Institute of Seawater Desalination and Multipurpose Utilization | China

Zhu Yuxuan is a dedicated early-career researcher specializing in electrocatalytic membrane water treatment, nano-carbon membrane engineering, and advanced materials for environmental purification. Currently a PhD candidate in Materials Chemistry at Tiangong University, a Double First-Class institution, she has built strong interdisciplinary expertise through studies spanning electrocatalysis, membrane science, wastewater treatment, and chemical engineering principles. She previously earned her master’s and bachelor’s degrees in Materials Science and Engineering from Shandong Jianzhu University, where she developed foundational skills in materials characterization, nanomaterials, and electrochemical functional materials. Zhu has made significant scholarly contributions with 9 research publications, achieving measurable academic impact with 38 citations from 26 citing documents and an h-index of 4. Many of her works are published as first author in high-ranking JCR Q1 TOP journals such as Chemical Engineering Journal, Separation and Purification Technology, and Journal of Environmental Chemical Engineering. Her research focuses on developing nano-conductive carbon membranes, transition-metal-sulfide composite electrodes, and electrocatalytically enhanced membrane separation systems for industrial wastewater treatment. She has also contributed to major national scientific initiatives, including the National Key R&D Program and the Jiangxi Provincial Key R&D Program, where she played central roles in method development, team coordination, and project reporting. Her innovation capacity is reflected in five authorized patents, spanning porous carbon composite materials, electrode technologies, and laboratory device designs. She has earned multiple honors, including the Excellent Report Award at the Beijing-Tianjin-Hebei Membrane Forum, university scholarships, and several provincial awards in innovation competitions. Technically, Zhu is proficient in SEM, Raman, IR, LC-MS, UV-Vis, electrochemistry, molecular dynamics, and MS simulation. As a student leader—serving as Chairman of the Student Union—she has demonstrated strong organizational and communication skills.

Profile: Orcid | Scopus

Featured Publications

Zhu, Y., Wu, Y., Zhao, H., Wang, H., Lei, H., & Zhong, Y. (2026). Mediation of superoxide radicals enhances the efficient degradation of dimethylacetamide in continuous flow-through three-dimensional electrochemical membrane reactor. Separation and Purification Technology, 506, 135619. https://doi.org/10.1016/j.seppur.2025.135619

Wang, Y., Chen, Z., Zhu, Y., Wang, H., Cui, Z., Li, X., Mo, J., & Li, J. (2025). An ultrathin Al2O3 ceramic membrane prepared by organic-inorganic blending with solvent evaporation and high-temperature sintering for highly efficient oil/water separation. Journal of Water Process Engineering, 107116. https://doi.org/10.1016/j.jwpe.2025.107116

Wang, Y., Zhu, Y., Wang, H., Chen, Z., He, B., & Li, J. (2025). Conductive carbon/Al2O3 mixed-matrix membrane cathode for efficient electrocatalytic production of H2O2. Separation and Purification Technology, 134120. https://doi.org/10.1016/j.seppur.2025.134120

Zhu, Y., Chen, Z., Wang, H., Ma, A., & Li, J. (2025). Continuous flow-through electro-Fenton membrane reactor with Fe−N4-doped carbon membrane as cathode for efficient removal of dimethylacetamide. Separation and Purification Technology, 354, 129290. https://doi.org/10.1016/j.seppur.2024.129290

Chen, Z., Wang, H., Zhu, Y., Chen, X., Gui, S., Ma, A., & Li, J. (2025). Electrochemical reactor with carbon membrane electrodes for efficient phenol removal via anode and cathode synergism. npj Clean Water, 8, Article 43. https://doi.org/10.1038/s41545-024-00432-4

Zhu, Y., Feng, Y., Wang, H., & Li, J. (2025). Fabrication of nitrogen-doped conductive carbon membranes both as anode for degradation of phenol and as cathode for electro-synthesis of hydrogen peroxide in flow-through electrochemical membrane reactor. Separation and Purification Technology, 359, 130586. https://doi.org/10.1016/j.seppur.2024.130586

Huan Wang | Smart Manufacturing | Best Researcher Award

Published on 18/11/202518/11/2025 by Scientist Day

Dr. Huan Wang | Smart Manufacturing | Best Researcher Award

Dr. Huan Wang | sun yat-sen university | China

Huan Wang is a dedicated researcher currently pursuing a Ph.D. at the School of Advanced Manufacturing, Sun Yat-sen University, building upon a strong academic foundation established during his master’s studies in aerospace engineering at the same institution. His research focuses on advancing sensor technology through innovative approaches in temperature compensation, fault diagnosis, and the reliability assessment of pressure scanners—key components in precision measurement and industrial instrumentation. Over the years, he has contributed significantly to national and industry-driven scientific efforts, including participation in one National Key R&D Program, one National Natural Science Foundation project, and three important commissioned projects involving electronic pressure scanning valves. His expertise extends to instrumentation and measurement consultancy, allowing him to bridge academic research with practical engineering applications. Dr. Wang’s scholarly output includes more than eight peer-reviewed research articles, several of which he authored as first author in highly regarded SCI-indexed journals such as Measurement, Measurement Science and Technology, Micromachines, Instrumentation Science and Technology, and Metrology and Measurement Systems. His research demonstrates a strong commitment to integrating intelligent optimization algorithms with sensor systems to improve accuracy, stability, and reliability in real-world applications. Alongside his research achievements, he is a professional member of AAAS and IEEE, showcasing his active engagement with the global scientific community. Through his interdisciplinary skills, academic rigor, and industry collaborations, Huan Wang continues to make meaningful contributions to the fields of sensor technology, advanced manufacturing, and applied measurement science. His growing body of work reflects not only technical depth but also a forward-looking approach aimed at enhancing next-generation intelligent measurement systems. With a strong commitment to innovation, integrity, and scientific excellence, he stands out as a promising researcher who significantly contributes to the advancement of engineering research and instrumentation technologies.

Profile: Orcid

Featured Publications

Wang, H., Chen, X., Xia, J., Zhao, H., & Maddaiah, P. N. (2026). Newton-Raphson-based optimizer combined with LSSVM: Temperature compensation applied to small-range electronic pressure scanners. Flow Measurement and Instrumentation. https://doi.org/10.1016/j.flowmeasinst.2025.103127

Wang, H., Chen, X., Xia, J., Liu, P., & Zhao, H. (2025). A novel model fusing ALA and integrated learning: Temperature compensation for 700 kPa pressure scanners. International Journal of Thermophysics. https://doi.org/10.1007/s10765-025-03638-x

Wang, H. (2025). Hybrid mechanism and data driven approach for high-precision modeling of gas flow regulation systems of VFDR. Journal article. https://doi.org/10.1007/s40747-025-01899-5

Wang, H., Wu, T., Liu, P., Zou, Y., & Zeng, Q. (2025). Kernel extreme learning machine combined with gray wolf optimization for temperature compensation in pressure sensors. Metrology and Measurement Systems. https://doi.org/10.24425/mms.2025.152773

Wu, T., Wang, H., Huang, Z., & Maddaiah, P. N. (2025). Optimal tracking differentiator algorithm for accurate pressure scanner measurements. Instrumentation Science and Technology. https://doi.org/10.1080/10739149.2025.2556107

Liu, C., Wang, H., Zhu, H., Zhou, W., & Zhao, H. (2025). Optimized design of support points in solar panels based on thermal deformation analysis. Journal of Physics: Conference Series, 3039(1), 012004. https://doi.org/10.1088/1742-6596/3039/1/012004

Prof. Dr. Zhifei Li | Environmental Science | Best Researcher Award | 2605

Published on 18/11/202518/11/2025 by Scientist Day

Prof. Dr. Zhifei Li | Environmental Science | Best Researcher Award

Prof. Dr. Zhifei Li | Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou | China

Zhifei Li is a distinguished researcher known for advancing aquaculture science, environmental engineering, and sustainable fisheries. His work spans freshwater pond healthy aquaculture, industrial recirculating aquaculture systems, ecological treatment of aquaculture tailwater, and large-water-area ecological fisheries. He has taken on significant scientific and advisory responsibilities within research institutions, engineering technology centers, and regional environmental governance bodies. His contributions are recognized through leadership roles in aquaculture pollution remediation, rural science and technology service, and expert consultation for large-scale aquaculture improvement initiatives. Zhifei Li has led numerous national and provincial research programs, including foundational research projects, key R&D initiatives, and regional technological innovation schemes. He has also collaborated on multiple multidisciplinary projects involving biofilm regulation, quorum sensing mechanisms, engineered bacteria, and low-temperature wastewater treatment systems for aquaculture. His research emphasizes practical and scalable solutions for improving water quality, enhancing aquaculture system efficiency, and promoting ecological fisheries development. Scientifically, his contributions are well-documented. He has authored 120 research documents, accumulating 1,756 citations from 1,362 citing documents, and holds an h-index of 23, reflecting strong academic influence. His publication record includes articles in recognized international journals, as well as contributions to several academic books. His innovation output features multiple authorized invention patents, software copyrights, and ongoing patented technologies with domestic and international relevance. Zhifei Li is also active in consultancy and industry-linked projects, providing technical solutions to aquaculture enterprises and environmental management programs. His collaborations extend to engineered microbial systems for wastewater treatment and biofilm regulation. Professionally, he serves in important roles within committees related to aquaculture environment and wastewater treatment and contributes to the development of future researchers as a supervisor in advanced academic programs.

Profile: Scopus | Orcid

Featured Publications

Li, J., Ma, J., Li, Z., Xie, J., Zhang, Y., Yu, M., Xia, Y., Gong, W., Zhang, K., Wang, G., et al. (2025). C4-HSL drives rapid biofilm formation in low-temperature aquaculture effluent: Strengthening structural stability of biofilm and improving nitrogen removal efficiency. Environmental Research. https://doi.org/10.1016/j.envres.2025.122408

Zhang, W., Ji, M., Wang, B., Xie, J., Wang, G., Gong, W., Li, H., Xia, Y., Zhang, K., Li, Z., et al. (2025). Comparative analysis of muscle metabolomics and gut microbiome provides new insights into the high fat intolerance mechanism of juvenile grass carp (Ctenopharyngodon idella). Aquaculture Reports. https://doi.org/10.1016/j.aqrep.2025.102864

Zhang, K., Luo, Y.-M., Xie, J., Gong, W.-B., Li, Z.-F., Xia, Y., Xie, W.-P., Tian, J.-J., Li, H.-Y., Wang, G.-J., et al. (2025). Effect of complex carbon sources on the vertical distribution and exchange flux of nitrogen nutrient at the sediment–water interface. SSRN. https://doi.org/10.2139/ssrn.5098069

Tian, J., Wang, B., Ji, M., Gong, W., Li, H., Xia, Y., Zhang, K., Li, Z., Xie, W., Wang, G., et al. (2025). Effects of berberine combined with Pennisetum sinese Roxb meal on growth, hepatic lipid metabolism, and intestinal health of grass carp (Ctenopharyngodon idella). Aquaculture Reports. https://doi.org/10.1016/j.aqrep.2025.102702

Wang, Z., Xie, J., Wang, G., Li, Z., Zhang, K., He, Z., Tian, J., Xie, W., Li, H., & Xia, Y., et al. (2025). Effects of Clostridium butyricum or Chinese herbal preparation on hepatic antioxidant capacity, immune function, and gut microbiota of bullfrog tadpoles and froglets (丁酸梭菌或中草药制剂对牛蛙蝌蚪和幼蛙肝脏抗氧化能力、免疫功能及肠道菌群的影响). Chinese Journal of Animal Nutrition. https://doi.org/10.12418/CJAN2025.438

Mahdi Salehi | Energy Sustainability | Editorial Board Member

Published on 18/11/202518/11/2025 by Scientist Day

Prof. Dr. Mahdi Salehi | Energy Sustainability | Editorial Board Member

Prof. Dr. Mahdi Salehi | Ferdowsi University of Mashhad | Iran

Dr. Mahdi Salehi is a highly respected Professor of Accounting at Ferdowsi University of Mashhad, known for his extensive scholarly contributions to the fields of auditing, financial management, and corporate governance. Born in Hidaj City, Zanjan Province, he has established a strong academic presence through a combination of rigorous research, influential teaching, and active engagement in the professional accounting community. Dr. Salehi’s academic background includes degrees in business management, financial management, and accounting. His early academic work explored the role of financial intermediaries in supporting companies listed on the Tehran Stock Exchange, while his doctoral research examined the corporate audit expectation gap in Iran. These foundational studies helped shape his research trajectory and continue to inform his scholarly outlook. His research interests encompass financial management, ownership structure, auditing, banking, corporate governance, and capital markets. He has authored an extensive body of publications in well-regarded refereed and indexed journals. His work addresses key issues such as audit expectations, audit independence, fraud detection, capital market behavior, financial distress prediction, customer satisfaction in banking and insurance, and the relationship between corporate governance structures and organizational performance. Dr. Salehi’s research often focuses on emerging markets, offering valuable insights into the dynamics of financial systems, regulatory environments, and organizational behavior. His comparative studies—particularly those examining audit practices across different countries—have contributed to a deeper global understanding of audit quality and stakeholder expectations. He is fluent in English, Farsi, and Turkish, enabling him to collaborate widely and contribute to international academic dialogue. With active profiles on major scholarly platforms such as Google Scholar and Scopus, Dr. Salehi is recognized for the reach and impact of his research. Through continuous publication, academic leadership, and engagement with diverse research themes, he has become a prominent and influential voice in the field of accounting.

Profile: Google scholar

Featured Publications

Salehi, M., & Rostami, V., & Mogadam, A. (2010). Usefulness of accounting information system in emerging economy: Empirical evidence of Iran. International Journal of Economics and Finance, 2(2), 186–195.

Salehi, M., & Alipour, M. (2010). E-banking in emerging economy: Empirical evidence of Iran. International Journal of Economics and Finance, 2(1), 201–209.

Alipour, M., Salehi, M., & Shahnavaz, A. (2009). A study of on the job training effectiveness: Empirical evidence of Iran. International Journal of Business and Management, 4(11), 63–68.

Hemmatfar, M., Salehi, M., & Bayat, M. (2010). Competitive advantages and strategic information systems. International Journal of Business and Management, 5(7), 158–168.

Salehi, M., Fakhri Mahmoudi, M. R., & Daemi Gah, A. (2019). A meta-analysis approach for determinants of effective factors on audit quality: Evidence from emerging market. Journal of Accounting in Emerging Economies, 9(2), 287–312.

Masoumeh Bararzadeh Ledari | Energy Sustainability | Editorial Board Member

Published on 18/11/202518/11/2025 by Scientist Day

Dr. Masoumeh Bararzadeh Ledari | Energy Sustainability | Editorial Board Member

Dr. Masoumeh Bararzadeh Ledari | Amirkabir University of Technology | Iran

Dr. Masoumeh Bararzadeh Ledari is an accomplished academic, researcher, and technical consultant specializing in energy engineering, climate change, sustainable resource management, and decarbonization strategies, with significant experience across academia, industry, and international collaborations. She earned her Ph.D. in Energy Engineering from Sharif University of Technology, Tehran (2014–2021), where her doctoral thesis focused on hybrid technology evaluation models for minimizing ecosystem sustainability impacts, following her M.Sc. in Energy Engineering from the same institution (2009–2011) and a B.Sc. in Chemical Engineering from the University of Tehran (2004–2008). Throughout her career, she has held academic positions as Lecturer, Adjunct Professor, and Instructor at leading Iranian universities, including AmirKabir University of Technology, Sharif University of Technology, and the University of Tehran, where she has taught courses in renewable energy systems, waste management, building energy simulation, and optimization. Her professional experience extends to leadership roles such as Scientific Director at Tadbirgaran Energy Company, Technical Manager at the Presidential Center for Progress and Development, and Head of Technology Management Groups at multiple organizations, including Butia Steel Company and Engineering & Industrial Management Consultants Group, where she has directed projects in hydrogen energy transition, carbon capture and storage, petrochemical value chains, and energy-environmental modeling. She has also contributed internationally as a Research Scientist at the International Institute for Applied Systems Analysis (IIASA) in Austria and the Research Centre for Energy Resources and Consumption in Spain, focusing on water-food-energy nexus models and thermodynamic modeling of biosystems. Her research interests include climate change mitigation, regenerative life models, corporate decarbonization in petrochemical and steel industries, exergy-based ecosystem analysis, and AI-driven energy optimization. Skilled in technical-economic feasibility studies, LCA/LCP modeling, energy policy, greenhouse gas accounting, and process simulation, she has authored influential research cited over 400 times (h-index 11). Her honors include leading multi-sectoral projects with UNDP, FAO, and national ministries on climate policy, stakeholder engagement, and natural resource management. In conclusion, Masoumeh Bararzadeh Ledari has established herself as a versatile scholar and practitioner who bridges academia, industry, and policymaking, advancing innovative approaches to sustainable energy, climate resilience, and decarbonization pathways, while contributing to both national development and global sustainability initiatives.

Profile: Scopus | Google scholar

Featured Publications

Sabet, A. F., Ledari, M. B., Maleki, F., & Fani, M. (2025). Exergy and thermoeconomic comparison of sustainable methanol and ammonia production from waste and CO₂. Journal of Environmental Chemical Engineering, 119148.

Ledari, M. B., Barkhordar, Z. A., & Maleki, F. (2025). Unveiling the potential of bio-based petrochemical development for a sustainable circular economy: A global perspective. Chemical Engineering Journal, 167974.

Kordi, A., Mohebbi, K., Ledari, M. B., & Shirafkan, S. M. (2025). Transforming ports for a low-carbon future: Nexus modeling of hydrogen infrastructure, employment, and resource management in contrasting climates. Energy Nexus, 100515.

Shirafkan, S. M., Ledari, M. B., Mohebbi, K., Fani, M., & Vahedi, R. (2025). Revolutionising the petrochemical supply chain: Integrating waste and CO₂ from CCUS into a low-carbon circular economy framework. Journal of Environmental Chemical Engineering, 116722.

Alimorad Rashidi | Academic Recognition | Editorial Board Member

Published on 18/11/202518/11/2025 by Scientist Day

Prof. Alimorad Rashidi | Academic Recognition | Editorial Board Member

Prof. Alimorad Rashidi | Research institute of petroleum industry | Iran

Alimorad Rashidi is a leading chemical engineering researcher recognized internationally for pioneering contributions to carbon nanostructures, nanofluids, and nanotechnology-driven energy solutions. His work spans fundamental materials science to industrial-scale innovation, with a strong emphasis on applications in the oil, gas, and petrochemical sectors. As head of an advanced carbon nanostructures research group, he has led major initiatives in the mass production of nanomaterials—including carbon nanotubes, graphene, nanoporous carbons, metal oxides, and hybrid nanomaterials—using scalable chemical, catalytic, and CVD-based processes. His expertise includes nanofluid development for enhanced oil recovery (EOR), drilling fluids, heat transfer systems, and next-generation fuel formulations. He has significantly advanced adsorption and separation technologies, contributing to natural gas storage (ANG), CO₂ capture, gas purification, and smart adsorbent design. His research also encompasses nanocatalysts for hydrogenation, hydrodesulfurization, heavy oil upgrading, selective H₂S conversion, and methane-to-ethylene catalytic processes. He has extensive experience designing and optimizing pilot plants, adsorption systems (PSA), nanofilter membranes, and large-scale nanomaterial production units. His academic background is complemented by teaching expertise in heat transfer, mass transfer, fluid mechanics, nanostructured materials, surface science, and catalytic processes. Rashidi’s contributions are reflected in a substantial portfolio of international patents, including technologies for carbon nanotube production, advanced hydrodesulfurization catalysts, alumina nanotube-supported catalysts, highly ordered nanostructure arrays, nanohybrid systems for NOx removal, heavy crude upgrading catalysts, carbon nanotube-based nanohybrids for oil recovery, nanofluid synthesis, and graphene and nanoporous graphene production. His work has earned numerous national and international recognitions, including multiple top researcher awards, major innovation accolades, elite scientific honors, and global citations ranking him among the top 1–2% of scientists worldwide. His combination of scientific leadership, industrial impact, and sustained innovation positions him as a key figure in advancing nanotechnology for energy and environmental applications.

Profiles: Orcid | Scopus

Featured Publications

Sharafinia, S., Saadati Ardestani, N., Rashidi, A., Abbasy, F., & Eskandari Sabzi, P. (2025). CO₂/N₂ selectivity with high efficiency using new flexible coordinate organic polymer-based core–shell. RSC Advances. https://doi.org/10.1039/D5RA03873A

Mir, S., Rashidi, A., Naderifar, A., Seif, A., Silvestrelli, P. L., & Alonso, J. A. (2025). Development of a smart plasma-treated nano-filter using carbon nitride nanostructures for oil–water emulsion separation: Experimental and theoretical studies. Journal of Materials Chemistry A. https://doi.org/10.1039/D5TA00294J

Sirati Gohari, M., Rezaei, S. A., Rashidi, A., Javadpour, S., & Ebadzadeh, T. (2025). MXenes and hydride nanostructures: Fundamental, properties, surface modification, properties, and application. In Book chapter. https://doi.org/10.1016/B978-0-443-21853-8.00002-5

Zafari, T., Sharafinia, S., Rashidi, A., Esrafili, M. D., Keyvani, B., & Mousavi, M. (2025). Optimized adsorption of volatile organic compounds on graphene oxide and nanoporous graphene activated with ZnCl₂: A combined experimental and computational study. Nanoscale Advances. https://doi.org/10.1039/D5NA00199D

Mousavi, R., Fazlinezhad, A., Fallah Shojaei, A., Rashidi, A., & Fattahi, M. (2025). Evaluation of vanadium oxide nanocatalysts over graphene for propylene production through oxidative propane dehydrogenation. Catalysts, 15(5), 409. https://doi.org/10.3390/catal15050409

Nouri, M., Sadeghi, M. T., Rashidi, A., & Norouzbeigi, R. (2024). Hydrothermally synthetized WO₃-coated stainless steel mesh for oil–water separation purposes. Journal of Petroleum Exploration and Production Technology. https://doi.org/10.1007/s13202-023-01741-z

Ehsan kianfar | Chemical Engineering | Editorial Board Member

Published on 18/11/202518/11/2025 by Scientist Day

Prof. Dr. Ehsan kianfar | Chemical Engineering | Editorial Board Member

Prof. Dr. Ehsan kianfar | Young Researchers and Elite Club | Iran

Dr. Ehsan Kianfar is a highly productive researcher in chemical engineering with extensive expertise in catalyst science, nanotechnology, zeolite modification, gas separation membranes, and advanced material synthesis. His research spans the development of high-performance catalysts for critical industrial processes such as methanol-to-gasoline (MTG), methanol-to-olefins (MTO), ethylene-to-propylene (ETP), and dimethyl ether (DME) synthesis. He has made significant contributions to the design, synthesis, and optimization of nano-zeolites, SAPO-based catalysts, and metal-modified ZSM-5 structures aimed at improving olefin production, selectivity, and reaction efficiency. He has authored numerous peer-reviewed research papers in reputable international journals, including Microchemical Journal, Catalysis Letters, Colloid and Polymer Science, Macromolecular Research, Journal of the Taiwan Institute of Chemical Engineers, Journal of Environmental Chemical Engineering, and Silicon. His work covers diverse areas such as polymeric and nanocomposite membranes for CO₂/N₂, O₂/N₂, and C₂H₆/CH₄ separations, CO₂ absorption using hollow fiber membrane contactors, CFD modeling of reactive flow systems, and the characterization of novel nanoparticle-based functional materials. Dr. Kianfar’s research contributions include a patented nanocomposite membrane developed using isophthalic acid and aluminum nitrate for enhanced gas separation and water treatment. He has also written multiple books and book chapters with respected international publishers, particularly on zeolite catalysts, methanol conversion processes, nanomaterials, gas hydrates, ionic liquids, and energy optimization methods. He serves as a reviewer for several high-impact international journals such as Applied Catalysis A, Topics in Catalysis, ACS Omega, Progress in Natural Science, Reviews in Inorganic Chemistry, and others. His broad academic output reflects strong capabilities in experimental design, catalyst characterization, membrane engineering, and nanomaterial innovation. Driven by a commitment to advancing sustainable catalytic technologies, Dr. Kianfar is actively seeking opportunities to further expand his research in catalysts, separation processes, and advanced nanoscale materials.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Mahmoud, Z. H., AL-Salman, H. N. K., Hussein, U. A.-R., Hameed, S. M., Hussein, A. A., Abbas, J. M., Thajeel, S. K., Al Ghezy, W. D. K., & Kianfar, E. (2026). Recent advances in the applications of smart nanomaterials in biomedicine: A review. Nano LIFE. https://doi.org/10.1142/S1793984425300055

Jasim, A. A., Dhabab, J. M., Rheima, A. M., Zaidan, H. K., Al-Sharify, Z. T., Athair, D. M., & Kianfar, E. (2026). A review of hydrogel nanoparticles in drug delivery: Properties and applications. Nano LIFE. https://doi.org/10.1142/S1793984424300085

Al-Jamal, A. N., Hussein, U. A.-R., Aljbory, N., Mahmoud, Z. H., Mirani, A., Kianfar, E., & Maleknia, L. (2026). Electrospun ZnO and GSH co-loaded PU/CS nanofibrous films as potential antibacterial wound dressings. Nano LIFE. https://doi.org/10.1142/S1793984424500284

Joseph, T. M., Thomas, M. G., Mahapatra, D. K., Unni, A. B., Kianfar, E., Haponiuk, J. T., & Thomas, S. (2025). Adaptive and intelligent polyurethane shape-memory polymers enabling next-generation biomedical platforms. Case Studies in Chemical and Environmental Engineering, 101165. https://doi.org/10.1016/j.cscee.2025.101165

Abdelbasset, W. K., Jasim, S. A., Bokov, D. O., Oleneva, M. S., Islamov, A., Hammid, A. T., Mustafa, Y. F., Yasin, G., Alguno, A. C., & Kianfar, E. (2025). Retraction Note: Comparison and evaluation of the performance of graphene-based biosensors. Carbon Letters. https://doi.org/10.1007/s42823-024-00785-3

Adul-Rasool, A. A., Athair, D. M., Zaidan, H. K., Rheima, A. M., Al-Sharify, Z. T., Mohammed, S. H., & Kianfar, E. (2024). 0D, 1D, 2D, 3D nanostructures, types of bulk nanostructured materials, and drug nanocrystals: An overview. Cancer Treatment and Research Communications. https://doi.org/10.1016/j.ctarc.2024.100834

Hsu, C.-Y., Ajaj, Y., Mahmoud, Z. H., Ghadir, G. K., Alani, Z. K., Hussein, M. M., Abed Hussein, S., Karim, M. M., Al-khalidi, A., Abbas, J. K., … Kianfar, E. (2024). Adsorption of heavy metal ions using chitosan/graphene nanocomposites: A review study. Results in Chemistry, 101332. https://doi.org/10.1016/j.rechem.2024.101332

Hassan Aljaberi | Research Excellence | Editorial Board Member

Published on 18/11/202518/11/2025 by Scientist Day

Dr. Hassan Aljaberi | Research Excellence | Editorial Board Member

Dr. Hassan Aljaberi | Optical Techniques Department, College of Health and Medical Techniques | Iraq

Hasan Abdulhadi Al-Jabri, 38, is an Assistant Lecturer specializing in Optical Techniques at the Department of Optical Techniques, Al-Mustaqbal University, Babylon, Iraq. With a strong academic foundation, including a BSc in Optical Techniques and an MSc in Engineering, he has built an active career in both teaching and research. His academic work is reflected in 12 published documents, 35 citing documents, and an h-index of 4, demonstrating a growing impact within the fields of optometry, biosensing, and optical materials. In his academic role, Al-Jabri teaches key courses in optical techniques and supervises undergraduate graduation projects, contributing to the development of future professionals in optical sciences. His research portfolio spans critical areas such as corneal physiology, refractive error assessment, biosensing materials, and photocatalytic nanocomposites. His notable publications include investigations into the effects of soft contact lenses on corneal endothelial cells, advancements in porphyrin-MOF-based biosensing of chemical contaminants, and a comprehensive meta-analysis on refractive errors among Iraqi school students. He has also explored advanced functional materials, such as Pt-decorated tetragonal graphene for anticancer drug detection and S-Scheme nanocomposite photocatalysts for efficient degradation of organic pollutants under visible light. Beyond research papers, Al-Jabri has contributed scientific articles, including a 2025 review on modern keratoconus treatment approaches. He has also demonstrated active scientific engagement through participation in the Arab Health Exhibition 2024 in Dubai, gaining exposure to cutting-edge diagnostic technologies in ophthalmology. His skills encompass scientific writing, operation of optical and diagnostic devices, and data analysis. His research interests include the impact of contact lenses on corneal health, biosensing technologies, and refractive error epidemiology. Through teaching, research, and scientific participation, Hasan Abdulhadi Al-Jabri continues to advance optical science and contribute valuable insights to both academic and clinical communities.

Profiles: Scopus | Orcid | Google Scholar | Research Gate | LinkedIn

Featured Publications

Elzahra, Z. A., Aljaberi, H. A., Al-Robayi, E. M., & Amer, S. (2025). Investigation of optoelectronic properties using single-molecule laser active media. Opto-Electronics Review. https://doi.org/10.24425/OPELRE.2025.155865

Yaqoubi, M., Ghanbari, M., Maya, R. W., Jasim, H. A., & Salavati-Niasari, M. (2025). Synthesis and characterization of S-Scheme NiMn₂O₄/g-C₃N₄ nanocomposites heterojunction photocatalyst for effective degradation of organic pollutants under visible light. Results in Engineering, Article 104037. https://doi.org/10.1016/j.rineng.2025.104037

Rusho, M. A., Ahmed, A. T., Kanjariya, P., Ballal, S., Singh, A., Supriya, S., Ray, S., Sultan, M. K., Jasim, H. A., & Alkahtani, H. M. (2025). Unveiling a new type of boron-doped carbon sheets as an anode for calcium-ion batteries. Ionics. https://doi.org/10.1007/s11581-025-06423-w

Flayyih, R. A., Alwan, K. J., & Aljaberi, H. A. (2025, December). Comparative heat transfer analysis of helical coil and straight tube heat exchangers. Case Studies in Thermal Engineering. https://doi.org/10.1016/j.csite.2025.107386

Aljaberi, H. A., Rahmani, S., & Muhammad, G. A. (2025, October). Effect of soft contact lens wear on corneal endothelial cell characteristics. Contact Lens and Anterior Eye. https://doi.org/10.1016/j.clae.2025.102441

Shailendra Pratap Singh | Environmental Science | Editorial Board Member

Published on 17/11/202517/11/2025 by Scientist Day

Mr. Shailendra Pratap Singh | Environmental Science | Editorial Board Member

Mr. Shailendra Pratap Singh | Dr. Bhimrao Ambedkar University | India

Shailendra Pratap Singh is an emerging researcher in Atmospheric Chemistry with a specialized focus on bio-aerosols and the biochemical and physical characteristics of particulate matter (PM₂.₅ and PM₁₀). He is currently pursuing a Ph.D. at Dr. Bhimrao Ambedkar University, Agra, where his research centers on understanding the chemical composition, microbial load, and environmental behavior of airborne particulates in urban regions. His academic foundation includes an M.Phil. in Chemistry with research on toxic metal levels in maternal and neonatal biological samples, and an M.Sc. in Chemistry, both from the same university. He has hands-on expertise with advanced aerosol and air-quality monitoring instruments, including the Grimm Aerosol Spectrometer, SKC Sioutas Cascade Impactor, Dichotomous Sampler, Fine Particulate Sampler, and Aerosol Black Carbon Monitor. His technical experience is supported by more than two and a half years as a Post Project Assistant in a state-funded research project focusing on indoor and outdoor particulate pollution in school environments and its associated health impacts. Shailendra has published research in prominent journals covering aerosol chemistry, metal concentrations in particulate matter, morphology of primary aerosol particles, seasonal pollution patterns, and black carbon variability. His contributions also include a book chapter with Springer on the geographic distribution and transport of atmospheric particulate matter. He has actively engaged in national training programs, workshops, and conferences organized by premier institutions such as IIT Delhi, IITM Pune, CSIR-NPL, CSIR-NEERI, and UNESCO-affiliated bodies. His scientific work has been recognized through conference presentations and awards, including Best Oral Presentation at an international conference. He has also been awarded the prestigious International Travel Grant by the Anusandhan National Research Foundation (ANRF) to present his work at the European Aerosol Conference 2025.

Profiles: Orcid

Featured Publications

Singh, S. P., Gupta, A., Tripathi, T., & Taneja, A. (2025). Metal concentration in PM₂.₅ and PM₁₀ and their microbial nature in ambient air of Agra region during winter season. Trends in Environmental Sciences, 1(1), 8–15. https://doi.org/10.21124/tes.2025.08.15

Pipal, A. S., Kaur, P., Singh, S. P., Rohra, H., & Taneja, A. (2024). Morphology, aspect ratio, and surface elemental composition of primary aerosol particles at an urban region of India. Environmental Science and Pollution Research, 31, 47946–47959. https://doi.org/10.1007/s11356-024-34372-w

Rajouriya, K., Dubey, S., Singh, S. P., Tripathi, T., John, R., & Taneja, A. (2023). Levels of particulate matter, black carbon, and toxic gases (O₃, NO₂) in Taj City Agra and their health implications on human beings. Pollution, 9(3), 1208–1224. https://doi.org/10.22059/poll.2023.352851.1731

Pipal, A. S., Dubey, S., Singh, S. P., & Taneja, A. (2022). Geographical distribution and transport of atmospheric particulate matter. In Airborne Particulate Matter (pp. 29–46). Springer. https://doi.org/10.1007/978-981-16-5387-2_3

Pipal, A. S., Singh, S. P., Tripathi, T., & Taneja, A. (2022). Variations in black carbon and particulate matter (PM₁, PM₂.₅, and PM₁₀) during firecracker bursting episodes and biomass burning: A case study during the Diwali festival. Journal of Air Pollution and Health, 7(4), 347–360. https://doi.org/10.18502/japh.v7i4.11383