Prof. Wei Liu | Composite Materials | Best Researcher Award

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Prof. Wei Liu | Composite Materials | Best Researcher Award

Prof. Wei Liu is an associate professor and postdoctoral researcher at the School of Mechanical and Electrical Engineering, Northeast Forestry University. Recognized as a “Yellow Sea Pearl” Talent of Jiangsu Province and an Outstanding Young Scholar at his university, he has established himself as a leader in mechanical and electrical systems research. His academic presence is defined by a balanced combination of research excellence, project leadership, and teaching contributions.

Prof. Wei Liu | Northeast Forestry University | China

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Education

Prof. Wei Liu’s academic foundation includes postdoctoral research and academic appointments at Northeast Forestry University. Although specific degree-level details are limited in the provided file, his elevation to associate professorship and recognition as a high-potential academic in Jiangsu and Heilongjiang Provinces confirm a consistent and credible academic path. His research and teaching span core mechanical and electrical engineering disciplines.

Experience

Prof. Liu has led a wide range of research and development projects, including major science and technology initiatives funded by Heilongjiang Province, central university grants, and strategic national university programs. He has also managed multiple horizontal research projects, showing his capability in both fundamental and application-driven research domains. In addition to academic research, his role as an educator highlights his commitment to developing future scholars and engineers.

Project Leadership

Prof. Liu has served as principal investigator on several major funded research initiatives. These include leading roles in major science and technology projects in Heilongjiang Province, central university fundamental research grants, and the “Double First-Class” university development fund. He has also overseen multiple horizontal research collaborations, indicating strong engagement with industry and applied research challenges. His leadership in diverse funding streams highlights his adaptability and impact in multiple engineering domains.

Contributions

Prof. Liu has published nearly 20 SCI-indexed journal papers, reflecting solid engagement in internationally peer-reviewed research. In addition to journal articles, he has authored or contributed to multiple textbooks, reinforcing his dual role as both researcher and educator. His publications contribute to knowledge development in mechanical and electrical engineering, and his scholarly output supports both student learning and the advancement of applied technologies.

Research Focus

Prof. Liu’s work is positioned at the intersection of mechanical and electrical engineering, a field critical to industrial innovation and automation. Although the document does not detail his specific areas of research, his leadership in major provincial science and technology projects and his extensive publication record imply a focus on applied engineering solutions with both academic and industrial relevance.

Publications

Prediction of the Radial Natural Characteristic of Sandwich Spherical Shell Based on Wave Propagation
Journal: Journal of Vibration Engineering and Technologies, 2024

Radial Vibration Analysis of Single and Composite Spherical Shells by Wave Approach
Journal: JVC – Journal of Vibration and Control, 2024

Speed Control of Sensorless PMSM Drive Based on EKF Optimized by Variable Scale Chaotic Particle Swarm Optimization
Journal: Measurement and Control (United Kingdom), 2024 – Open Access

Prof. Dr. Turgay Cakmak | Biomaterials | Best Researcher Award

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Prof. Dr. Turgay Cakmak | Biomaterials | Best Researcher Award

Professor Turgay Cakmak is a leading expert in plant molecular biology and microalgal biotechnology. He currently serves at Istanbul Medeniyet University, where he has held faculty roles. His research focuses on cellular redox regulation, alternative oxidase pathways, and the biotechnological potential of stress-adapted microalgae. With international research experience in Sweden and the USA, he has led multiple nationally funded projects and supervised numerous graduate theses. His work bridges fundamental science and applied innovation in sustainable bioenergy, environmental resilience, and molecular plant responses.

Prof. Dr. Turgay Cakmak | Istanbul Medeniyet University | Turkey

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Education 

Professor Turgay Cakmak holds a Doctor of Philosophy in Biology from Atatürk University. His doctoral research included collaborative experimental work carried out at two internationally recognized institutions: Lund University in Sweden and California State University San Marcos in the United States. His thesis, titled niversity, where he investigated the impacts of electrical field application on the cold resistance of selected plant species. His acade Plant Respiratory Chain: Regulation of Cellular Redox by Inorganic Nitrogen Sources and Redox Responses of Alternative Oxidase, was supervised by Professor Rahmi Dumlupinar. He also holds a Master of Science degree in Biology, completed in December at Atatürk Umic journey began with a Bachelor of Science in Biology at the same university.

Experience

Professor Turgay Cakmak has over two decades of academic and research experience in molecular biology and genetics. He currently serves as a professor at Istanbul Medeniyet University, where he has held academic positions including assistant and associate professorships. His postdoctoral research was conducted at Bilkent University’s National Nanotechnology Research Center. He also gained international research experience as a research assistant at Lund University in Sweden and California State University San Marcos in the United States. Earlier in his career, he served as a research assistant at Atatürk University, contributing to numerous national and international projects in plant physiology, redox biology, and microalgal biotechnology.

Awards and Recognitions

Throughout his academic journey, Professor Cakmak has earned multiple honors and competitive research fellowships. These include a postdoctoral research scholarship awarded for work on anatomical and biochemical responses of Arabidopsis thaliana to various nitrogen sources. He was selected for the Erasmus Mobility Grant, which enabled a short research visit to the University of Napoli Federico II in Italy. His poster presentation was awarded the Best Poster Prize at the International VII Molecular Biology and Genetics Winter School. Additionally, he received support from TÜBİTAK for participation in the European Molecular Biology Laboratory PhD Symposium in Heidelberg, Germany. His time at California State University San Marcos was supported by a prestigious NIH-funded research scholarship.

Contributions 

Professor Turgay Cakmak has made impactful contributions to plant molecular biology, microalgal biotechnology, and redox signaling. His work has expanded scientific understanding of how stress conditions influence metabolic pathways in plants and microalgae, particularly focusing on antioxidant mechanisms, alternative oxidase responses, and sustainable bioresource development. He has led and collaborated on numerous national and international research projects, mentored graduate students, and published widely in high-impact journals. His innovative studies on algae-based biofuels, natural pigments, and functional bioproducts highlight his commitment to integrating molecular biology with real-world applications in health, energy, and the environment.

Research Projects

Professor Turgay Cakmak has led and contributed to a wide array of interdisciplinary research projects focused on plant physiology, microalgal biotechnology, and cellular redox regulation. He served as Principal Investigator (PI) and researcher in projects funded by prominent institutions such, the Republic of Türkiye Ministry of Agriculture and Forestry, and Istanbul Medeniyet University Research Fund. His projects include the establishment of a microalgae culture collection, investigations into antioxidant properties and carotenoid biosynthesis in microalgae under stress conditions, and the biotechnological evaluation of algae from volcanic crater lakes. He has also led studies on biodiesel feedstock production from microalgae, cryopreservation techniques, and the role of nitrogen sources in cellular redox responses in plants. These projects highlight his leadership in integrating molecular biology with applied biotechnology and environmental sustainability.

Research Focus 

Professor Cakmak’s research is primarily centered on understanding the molecular mechanisms of redox regulation in plants, with special attention to the role of inorganic nitrogen sources and alternative oxidase activity. His work has extended to exploring the physiological and biochemical adaptations of plants and microalgae under stress conditions. Notably, his research interests have expanded into algal biotechnology and biofuel development, focusing on the biotechnological potential of microalgae under various environmental stresses. He has contributed significantly to knowledge on microalgal biodiesel production, stress biology, and redox signaling pathways, establishing himself as a recognized scholar in both plant molecular biology and environmental biotechnology.

Publications

Mycosporine-like amino acids in microalgae and cyanobacteria: Biosynthesis, diversity, and applications in biotechnology

Authors: Görünmek M., Ballık B., Cakmak Z.E., Cakmak T.
Journal: Algal Research.

Long-term diazotrophic cultivation of Trichormus sp. IMU26: Evaluation of physiological changes related to elevated phycobiliprotein content
Authors: Haddad M.F., Dayioglu T., Yaman M., Nalbantoglu B., Cakmak T.
Journal: Journal of Applied Phycology.

Study of the Ability of Lutein and Neoxanthin as Standards and in the Extract of Chlamydomonas reinhardtii to Prevent Oxidatively Induced DNA Base Damage Using Ultrasensitive GC–MS/MS Analysis
Authors: Şahin S., Aybastıer Ö., Dawbaa S., Karkar B., Cakmak T.
Journal: Chromatographia.

Antioxidant composite films with chitosan and carotenoid extract from Chlorella vulgaris: Optimization of ultrasonic-assisted extraction of carotenoids and surface characterization of chitosan films
Authors: Şahin S., Nasir N.T.B.M., Erken I., Cakmak Z.E., Cakmak T.
Journal: Materials Research Express.

Long-term diazotrophic cultivation induces phycobiliprotein production in Anabaena variabilis IMU8
Authors: Haddad M.F., Dayioglu T., Nalbantoğlu B., Cakmak T.
Journal: Biocell.

Dr. Swami Nath Maurya | Thermodynamics of Materials | Best Researcher Award

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Dr. Swami Nath Maurya | Thermodynamics of Materials | Best Researcher Award

Dr. Swami Nath Maurya is a Postdoctoral Researcher at the National Chin-Yi University of Technology (NCUT) in Taiwan, specializing in thermal management and precision manufacturing. He holds a Ph.D. in Precision Manufacturing, a Master’s in Green Energy Technology, and a B.Tech. in Instrumentation and Control Engineering. With 13 SCIE-indexed journal publications and an h-index of 5, Dr. Maurya merges experimental research with AI modeling to optimize energy and material efficiency. His multidisciplinary expertise spans semiconductors, machine tools, and advanced thermal systems.

Dr. Swami Nath Maurya | National Chin-Yi University of Technology | Taiwan

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Education 

Dr. Maurya’s academic journey is marked by a solid foundation in engineering and sustainability. He earned his B.Tech. in Instrumentation and Control Engineering, followed by a Master’s in Green Energy Technology, which underpins his commitment to sustainable development. He then pursued a Ph.D. in Precision Manufacturing, focusing on intelligent process optimization. This academic progression reflects his strong theoretical understanding and applied engineering acumen in the areas of energy efficiency, thermal modeling, and manufacturing systems.

Experience

Dr. Maurya has worked extensively as a postdoctoral researcher, contributing to thermal management in machine tool systems, semiconductor crystal growth (Czochralski process), and graphene-enhanced membranes. He has authored studies on AI-driven optimization, multiobjective cooling, and microfluidic heat sink design. His work is known for solving practical engineering problems with academic rigor, and he collaborates across Taiwan and India. Despite having no current patents or editorial roles, his contributions stand out for their technical depth and industrial relevance.

Contributions 

Dr. Swami Nath Maurya has made significant contributions to thermal management, semiconductor process optimization, and sustainable material engineering. His research includes the Czochralski crystal growth process, graphene-based membranes, and hybrid cooling systems for enhanced energy efficiency and system reliability. His 13 SCIE-indexed publications (h-index: 5) reflect innovation at the intersection of AI, thermal modeling, and advanced manufacturing. From machine tool spindle cooling to microfluidic heat sinks, his work promotes intelligent, eco-conscious engineering practices for future-ready industries.

Research Focus 

Dr. Maurya’s research centers on thermal deformation modeling, energy-efficient systems, and AI-enhanced process optimization. His work targets complex engineering challenges in machine tools, semiconductor manufacturing, and sustainable material processing. He employs finite element methods, Monte Carlo simulations, and neuro-fuzzy inference systems to optimize system efficiency. By bridging artificial intelligence, green energy, and manufacturing, he is contributing to next-generation, eco-conscious industrial solutions.

Publications

Performance and Economic Enhancement of a Dewaxing Casting Process Using a Heat Pump Drying System
Authors: Win-Jet Luo, Amir Reza Ansari Dezfoli, Swami Nath Maurya, Bivas Panigrahi, Pei-Tang Wang
Journal: Case Studies in Thermal Engineering (2025)

Performance Analysis of Energy Recovery Membrane Coated with Graphene Oxide
Authors: Win Jet Luo, Prateek Negi, Swami Nath Maurya, Bivas Panigrahi, Janet Syah Putra Telaumbanua
Journal: Materials Research Express (2025)

Efficient Heat Dissipation with Hybrid Composite-Based Microfluidic Heat Sinks in Flexible Electronics
Authors: Pramod Vishwakarma, Swami Nath Maurya, Win Jet Luo, Bivas Panigrahi
Journal: Journal of Micromechanics and Microengineering (2025)

Optimization of Machine Tool Spindle Cooling for Enhancement of Thermal Prediction Accuracy and Energy Efficiency
Authors: Cheng-Kai Huang, Tsung-Chia Chen, Kun-Ying Li, Yuan-Hong Tsai, Swami Nath Maurya
Journal: International Journal of Precision Engineering and Manufacturing-Green Technology (2025)

Data-Driven Approach for Optimizing the Czochralski Process and Predictive Modeling: A Finite Element and Machine Learning Analysis
Authors: Swami Nath Maurya, Amir Reza Ansari Dezfoli, Li-Shang Lin
Journal: The International Journal of Advanced Manufacturing Technology (2025)

Process Parameter Optimization in Czochralski Growth of Silicon Ingots: A Monte Carlo-Finite Element Coupled Model
Authors: Amir Reza Ansari Dezfoli, Swami Nath Maurya, Zary Adabavazeh, Yi-Jen Huang
Journal: The International Journal of Advanced Manufacturing Technology (2025)

Impact of Top Cooling on Defect Suppression in Large-Scale Silicon Ingot Manufacturing
Authors: Yi-Jen Huang, Swami Nath Maurya, Amir Reza Ansari Dezfoli
Journal: The International Journal of Advanced Manufacturing Technology (2025)

Dr Junyong Hu | Materials Characterization Techniques | Best Researcher Award

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Dr Junyong Hu | Materials Characterization Techniques | Best Researcher Award

Dr. Junyong Hu is a researcher and lecturer at Taiyuan University of Technology, specializing in refrigeration and cryogenic engineering, reverse electrodialysis, and waste heat utilization technologies. He brings together theoretical modeling and experimental systems to create novel solutions in desalination, pollutant removal, and low-grade heat recovery. Through extensive postdoctoral work in collaboration with Taiyuan Boiler Group Co., Ltd., he has driven forward applied research in clean energy systems and environmental remediation.

Dr Junyong Hu | Taiyuan University of Technology | China

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Education

Dr. Hu earned his B.Sc. in Thermal Energy and Power Engineering from Henan University of Science and Technology, followed by M.Sc. and Ph.D. degrees in Refrigeration and Cryogenic Engineering from Dalian University of Technology. His academic path showcases deep engagement with thermodynamic systems and renewable energy applications. His doctoral research laid the foundation for his advanced work in hybrid desalination and power generation systems, emphasizing energy efficiency and sustainability.

Experience

Dr. Hu is currently a lecturer at Taiyuan University of Technology and completed a postdoctoral fellowship at Taiyuan Boiler Group Co., Ltd. His work spans experimental design, industrial R&D, and funded scientific projects focused on reverse electrodialysis, air-gap diffusion distillation, and multi-effect desalination systems. As principal investigator for several national and provincial grants, he has led projects targeting denitrification and advanced thermal systems. His hands-on contributions bridge laboratory innovation and field application.

Contributions

Dr. Junyong Hu has led and participated in multiple high-impact research projects focused on thermal energy recovery and clean energy systems. As Principal Investigator, he directed projects funded by the China Postdoctoral Science Foundation and the Shanxi Basic Research Program for Youth, exploring reverse electrodialysis heat engines and denitrification via flue gas waste heat. He also led an industrial R&D project optimizing air-gap diffusion distillation devices. Additionally, he contributed to a National Key R&D Program targeting clean combustion and flexible power generation from low-calorific-value coal. These projects reflect his leadership in applied energy and environmental technologies.

Research Focus 

Dr. Hu’s research centers on reverse electrodialysis, waste heat-driven power systems, and hybrid desalination. He aims to optimize energy conversion processes and deepen understanding of membrane-based power generation under low-grade thermal conditions. His focus areas such as pollutant removal, mixed working fluids, and energy recovery serve both environmental and industrial goals. This interdisciplinary approach fosters innovation in sustainable energy and clean water technologies.

Conclusion

Dr. Junyong Hu is a technically accomplished and innovative researcher with clear contributions to sustainable energy systems and thermal energy recovery technologies. His record of high-quality publications, funded projects, and patented inventions positions him as  a strong contender for the Best Researcher Award. With increased international collaboration
and research leadership, he is well poised to become a leading figure in energy and environmental engineering.

Publications

Experimental Performance Comparison of Helium-Gap Diffusion Distillation and Air–Gap Diffusion Distillation
Authors: Junyong Hu, Yukun Sun, Jiajie Zhang, Suxia Ma, Xuemao Guo, Jianfei Wang
Journal: Energy Conversion and Management (2022)

Influence of Output Current on Decolorization Efficiency of Azo Dye Wastewater by a Series System with Multi-Stage Reverse Electrodialysis Reactors
Authors: Xu S., Leng Q., Wu X., Xu Z., Hu J., et al.
Journal: Energy Conversion and Management (2021)

Experimental Study on Hydrogen Production with RED Reactor Powered by Concentration Gradient Energy
Authors: Xu S., Liu Z., Wu X., Zhang Y., Hu J., et al.
Journal: CIESC Journal (2020)

Heat and Mass Transfer Evaluation of Air-Gap Diffusion Distillation by ε-NTU Method
Authors: Xu L., Xu S., Wu X., Wang P., Hu J., et al.
Journal: Desalination (2020)

Experimental Investigation on the Performance of Series Control Multi-Stage Reverse Electrodialysis
Authors: Junyong Hu, Shiming Xu, Xi Wu, et al.
Journal: Energy Conversion and Management (2020)

Air-Gap Diffusion Distillation: Theory and Experiment
Authors: Xu S., Xu L., Wu X., Hu J., et al.
Journal: Desalination (2019)

Exergy Analysis for the Multi-Effect Distillation – Reverse Electrodialysis Heat Engine
Authors: Junyong Hu, Shiming Xu, et al.
Journal: Desalination (2019)

Prof. Dr Yue Cao | Nanomaterials | Best Researcher Award

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Prof. Dr Yue Cao | Nanomaterials | Best Researcher Award

Prof. Dr. Yue Cao is an innovative researcher in the field of metasurfaces, metamaterials, and nanophotonics, with active academic roles at Lanzhou Jiaotong University. A Chinese national, she completed her Ph.D. at Southeast University, including a visiting research stint at the National University of Singapore. Her work focuses on encoded metasurfaces, optical imaging, and information encryption, with impressive contributions to high-impact journals. With awards including the Chien-Shiung Wu Memorial Fund for Women Scholars, she represents the next generation of pioneers in photonic material design.

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Education

Prof. Yue Cao holds a Ph.D. from Southeast University and completed an international research exchange as a Ph.D. student at the National University of Singapore. Her academic foundation blends strong theoretical knowledge with cutting-edge experimental techniques. she has been serving as a lecturer at Lanzhou Jiaotong University, where she continues to mentor students and lead research in optical metasurfaces.

Experience

Currently a lecturer at Lanzhou Jiaotong University, Prof. Cao has contributed to the fields of metamaterials and photonic engineering through academic teaching and high-level research. Her cross-disciplinary expertise in nanophotonics, metasurface imaging, and rail transport systems highlights her versatility. She has co-authored multiple impactful papers with international collaborators, including from Singapore, showcasing her experience in global academic partnerships.

Awards

Prof. Dr. Yue Cao has been recognized with several prestigious honors that highlight her excellence in both research and education. She received an Outstanding Teacher Qualification Certification, affirming her dedication to academic leadership and instructional quality. As a standout figure in science, she was also selected for the esteemed Women Scholars Program of the Chien-Shiung Wu Memorial Fund, celebrating her contributions as a woman in advanced research. Additionally, her early promise was acknowledged through an Outstanding Graduate Student Award, marking her academic brilliance and research potential from the outset.

Research Focus

Prof. Cao’s research focuses on optical and acoustic metasurfaces, particularly for imaging, steganography, and information encryption. Her work integrates nanophotonic design, encoded metasurfaces, and programmable light control, contributing to high-resolution, secure data visualization. Beyond fundamental science, she also explores practical uses in railway transportation equipment and nanodevice design, showing a commitment to application-driven research.

Publications

Chiral Grayscale Imaging Based on a Versatile Metasurface of Spin-Selective Manipulation
Authors: Yue Cao, Yi-Fei Sun, Zi-Yang Zhu, Qian-Wen Luo, Bo-Xiong Zhang, Xiao-Wei Sun, Ting Song
Journal: Materials (2025-07-05)

Multiplexing Optical Images for Steganography by Single Metasurfaces
Authors: Yue Cao, Lili Tang, Jiaqi Li, Chengkuo Lee, Zheng‐Gao Dong
Journal: Small (May 2023)

Decoupled Phase Modulation for Circularly Polarized Light via Chiral Metasurfaces
Authors: Renchao Jin, Lin Deng, Lili Tang, Yue Cao, Yongmin Liu, Zheng-Gao Dong
Journal: ACS Photonics (2023-01-18)

Spin-Selected Bifunctional Metasurface for Grayscale Image and Metalens
Authors: Lili Tang, Yue Cao, Weijie Shi, Jin Wang, Jiaqi Li, Zheng-Gao Dong
Journal: Optics Letters (2023-01-15)

Four-Channel Display and Encryption by Near-Field Reflection on Nanoprinting Metasurface
Authors: Yue Cao, Lili Tang, Jiaqi Li, Chengkuo Lee, Zheng-Gao Dong
Journal: Nanophotonics (2022-06-27)

Spin-Decoupled Omnidirectional Anomalous Refraction Based on a Single Metasurface
Authors: Lili Tang, Yue Cao, Renchao Jin, Ying-Hua Wang, Jiaqi Li, Jin Wang, Zheng-Gao Dong
Journal: Applied Physics Letters (2022-04-25)

Grayscale Image for Broadband Linear Polarization Measurement by an Ultracompact Metasurface
Authors: Yue Cao, Lili Tang, Renchao Jin, Jiaqi Li, Jin Wang, Zheng-Gao Dong
Journal: Optics Letters (2021-03-01)

Dr Agustín Romero Vargas | Recycling and Circular Economy in Materials | Best Researcher Award

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Dr Agustín Romero Vargas | Recycling and Circular Economy in Materials | Best Researcher Award

Dr. Agustín Romero Vargas is a Spanish postdoctoral researcher specializing in bioprocess engineering and bioresource valorization. With academic roots at the University of Cádiz, his career spans undergraduate to postdoctoral research in the same institution, driven by prestigious national fellowships. His expertise lies in converting invasive macroalgae into high-value biochemicals like polyhydroxyalkanoates (PHAs) and caproic acid using microbial fermentation techniques. His work is defined by environmental impact mitigation, innovation in sustainable processes, and academic excellence.

Dr Agustín Romero Vargas, Universidad de Cádiz, Spain

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Education

Dr. Romero Vargas completed his B.Sc. and M.Sc. in Biotechnology and later earned a Ph.D. in Agri-Food Resources from the University of Cádiz. His doctoral thesis graded cum laude with international mention focused on PHA production from macroalgae, showcasing his deep understanding of microbial fermentation, enzyme interactions, and advanced analytical techniques. Each academic phase was supported by competitive fellowships, and he consistently maintained high academic performance.

Experience

Professionally, Dr. Romero Vargas has held research roles throughout his academic progression from student collaborator to predoctoral and postdoctoral researcher. He contributed to Spain’s leading national research projects in PHA biosynthesis and chain elongation fermentation using model organisms like Cupriavidus necator and Clostridium kluyveri. His work includes lab-scale bioreactor operations, enzyme hydrolysis modeling, fermentation optimization, and analytics (HPLC, GC, TOC). He also completed international research stays in Greece and Spain to broaden his biotechnological impact.

Contributions

Dr. Agustín Romero Vargas has authored 10 peer-reviewed JCR-indexed articles, with 9 in Q1 journals and 4 in the top decile, alongside 9 conference presentations (national and international). His core focus lies in the valorization of macroalgae biomass notably Rugulopteryx okamurae for producing fermentable sugars and polyhydroxyalkanoates (PHAs). 🚢🧫 His optimized hydrolysate extraction and high-yield microbial fermentation with Cupriavidus necator have achieved performance levels comparable to the best in literature. These outcomes support sustainable biotechnology while addressing the ecological threat posed by invasive marine species.

Research Focus

Dr. Romero’s research explores sustainable biotechnology, particularly microbial valorization of invasive macroalgae into PHAs and short-chain fatty acids like caproic acid via dark fermentation. He employs reverse β-oxidation, enzymatic hydrolysis, and metabolic modeling to optimize yield and minimize environmental footprint. His interdisciplinary work aligns with global green technology priorities and contributes solutions to marine invasive species control. His collaborations span institutions in Spain and Greece, reinforcing the international value of his innovations.

Publications

Polyhydroxyalkanoates Production by Cupriavidus necator Using Dark Fermentation Effluents
Authors: Caro, I.; Romero-Vargas, A.; Huertas, J.
Journal: SSRN (2025)

Innovative Pretreatments for the Valorisation of the Invasive Macroalga Rugulopteryx okamurae
Authors: Romero-Vargas, A.; Georgiadou, E.; Cabrera, G.; Fdez-Güelfo, L.A.; Blandino, A.; Koutinas, A.; Díaz Sánchez, A.B.
Journal: Industrial Crops and Products (2025)

Rugulopteryx okamurae: Effect of Microwave Pretreatment on PHB Fermentation
Authors: Romero-Vargas, A.; Fernández-Medina, P.; Blandino, A.; Álvarez-Gallego, C.J.; Díaz, M.J.
Journal: Industrial Crops and Products (2025)

Bioconversion of the Invasive Seaweed Rugulopteryx okamurae into Enzymes and Polyhydroxyalkanoates
Authors: Romero-Vargas, A.; Cala, K.; Blandino, A.; Díaz, A.B.
Journal: Algal Research (2024)

Ultrasound Pretreatment of Third-Generation Biomass (Invasive Macroalga Rugulopteryx okamurae) to Obtain Platform Biocommodities
Authors: León-Marcos, L.; Fuente-Zapico, E.; Romero-Vargas, A.; Blandino, A.; Romero-García, L.I.
Journal: Journal of Applied Phycology (2024)

Polyhydroxybutyrate Production from the Macroalga Rugulopteryx okamurae: Effect of Hydrothermal Acid Pretreatment
Authors: Romero-Vargas, A.; Fdez-Güelfo, L.A.; Blandino, A.; Díaz, A.B.
Journal: Journal of Marine Science and Engineering (2024)

Ultrasound Pretreatment to Enhance the Enzymatic Hydrolysis of Dictyota dichotoma for Sugars Production
Authors: Romero-Vargas, A.; Muñoz, I.; Marzo, C.; Díaz, A.B.; Romero-García, L.I.; Blandino, A.
Journal: Algal Research (2023)

Mehrdad Esmaeilipour | Sustainability in Material Science | Electronics Advancements Award

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Mr. Mehrdad Esmaeilipour | Sustainability in Material Science | Electronics Advancements Award

Mr. Mehrdad Esmaeilipour is a senior electronics engineer and technology innovator with extensive expertise in green technologies, intelligent systems, and sustainable engineering solutions. He currently serves as the Senior Electronics Engineer at Arya Plasma Gostar Pars Company (Plasma Systems) and CEO of Parsa Pardazesh Bushehr Sanat Company (PPBS Co.). Known for his entrepreneurial spirit and commitment to social impact, Mr. Esmaeilipour has made significant contributions to air and water purification technologies, AI-powered wearable devices, and education in electronics and robotics. His inventions and leadership in both academia and industry have garnered national and international recognition.

Mr. Mehrdad Esmaeilipour, Arya Plasma Gostar Pars, Iran

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Education

Mr. Esmaeilipour holds a degree in Electronics Engineering and has continually advanced his technical expertise through hands-on engineering, innovation, and international collaboration. He has authored multiple technical books and contributed significantly to journals and conferences, demonstrating mastery in control systems, AI integration, and photovoltaic systems.

Experience

Mr. Esmaeilipour has over a decade of professional experience leading complex electronics projects. At Arya Plasma Gostar Pars Company, he has led the development and implementation of cutting-edge air purification and water filtration systems utilizing cold plasma technology. He has also managed smart control systems and sensor-based applications for the environmental and public health sectors. As the founder and CEO of PPBS Co., he has mentored young engineers, provided employment for students, and executed numerous tech infrastructure projects including cybersecurity systems and robotics development. Additionally, he plays a key voluntary role in the Robotics Team at Islamic Azad University, guiding students in sensor integration, PID control, and robotic prototyping.

Achievements

Mr. Mehrdad Esmaeilipour has achieved notable success in developing innovative technologies at the intersection of electronics, artificial intelligence, and environmental engineering. He invented a smart bracelet for the visually impaired, earning national recognition for enhancing assistive mobility using AI and sensor fusion. As the lead developer of cold plasma-based air and water purification systems, he introduced chemical-free sterilization solutions now applied in industrial and public health sectors. He has authored four technical books and published impactful research in control systems, AI-driven motors, and green energy. His work has been recognized by international organizations such as the World Technology Group (Germany) and INT UNIONS, and he has received multiple certifications in cybersecurity, HSE, and solar technologies. As CEO of PPBS Co., he has mentored over 100 students, led over 10 infrastructure projects, and continues to bridge academic innovation with real-world applications, solidifying his reputation as a leading force in sustainable and intelligent engineering.

Contributions 

Mr. Mehrdad Esmaeilipour has made remarkable contributions to the field of electronics and sustainable engineering through his visionary integration of intelligent systems, cold plasma technology, and green innovation. His development of advanced air and water purification systems using cold plasma has provided chemical-free solutions for environmental hygiene, while his AI-powered smart bracelet has improved mobility and safety for visually impaired individuals. Through his leadership at Arya Plasma Gostar Pars and PPBS Co., he has not only pioneered multiple patented technologies but also fostered a culture of innovation and mentorship, training young engineers in robotics, control systems, and applied electronics. His work bridges the gap between theoretical research and real-world application, addressing critical global challenges in health, energy, and accessibility. By blending technical expertise with a deep commitment to social impact, Mr. Esmaeilipour continues to drive forward transformative solutions that contribute to a more sustainable and inclusive technological future.

Research Projects

Mr. Mehrdad Esmaeilipour’s flagship research projects involves the design and development of a smart cold plasma system for wastewater treatment and environmental sterilization. This project combines advanced electronics, embedded AI algorithms, and sustainable energy techniques to offer a chemical-free, energy-efficient solution for industrial and municipal water purification. By integrating intelligent control systems with cold plasma discharge technology, the project achieved significant results in reducing microbial contamination and improving treatment speed, while maintaining low operational costs. The system has been successfully prototyped and tested in collaboration with Arya Plasma Gostar Pars, demonstrating scalable applications in public health, environmental safety, and electronic sterilization. Mr. Esmaeilipour’s leadership in this project reflects his broader mission to fuse innovation with environmental responsibility and real-world impact.

Research Focus

Mr. Mehrdad Esmaeilipour’s research is centered on the development of intelligent, sustainable, and socially impactful engineering systems. His work integrates artificial intelligence, control systems, and embedded electronics to design innovative solutions for pressing global challenges. Key focus areas include cold plasma technology for water and air purification, AI-assisted smart wearables for health and accessibility, and photovoltaic energy systems for sustainable power generation. He is also deeply engaged in robotics engineering, specializing in PID and fuzzy logic control for autonomous systems. His interdisciplinary approach blends hardware and software innovation, with applications in public health, environmental protection, and smart infrastructure. Mr. Esmaeilipour’s research bridges theory and practice, aiming to create technologies that are not only efficient and scalable but also affordable and inclusive for broader societal benefit.

Publications

Design, Construction and Performance Comparison of Fuzzy Logic Controller and PID Controller for Two-Wheel Balance Robot
Authors: M. Esmaeilipour, M.H. Zalzar

The Utilization of Artificial Intelligence Technologies in the Domain of Electronic Data Engineering
Author: M.H.Z. Mehrdad Esmaeilipour

Advances and Challenges in Lithium-Ion Battery Technology
Author: M. Esmaeilipour

Design of an Optimal Proportional-Integral-Derivative Controller Utilizing AI Techniques for Brushless Direct Current Motor with Phase Shift
Author: M. Esmaeilipour

Advancements in Cold Plasma Technology for Electronic and Surface Sterilization Applications
Author: M. Esmaeilipour

Prof Hongzheng ZHU | Surface Science | Best Researcher Award

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Prof Hongzheng ZHU | Surface Science | Best Researcher Award

Prof. Hongzheng Zhu is a distinguished materials and mineral processing engineer, originally from Yancheng, Jiangsu Province. Currently a full professor and doctoral advisor at Anhui University of Science & Technology (AUST), he was recruited as a national “Class‑A overseas talent” and recognized as an outstanding young talent in Anhui. Since earning his doctorate in Mineral & Materials Engineering from Universidad Autónoma de San Luis Potosí in Mexico in 2019, he has become a key academic figure in teaching and research at AUST.

Prof Hongzheng ZHU, Anhui University of Science and Technology, China

Profile

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Education

Prof. Zhu completed his B.Sc. and M.Sc. in Mineral Processing Engineering at Anhui University of Science & Technology before pursuing his Ph.D. (awarded in February 2019) in Mineral & Materials Engineering under the supervision of a Mexican Academy of Sciences member in Mexico. He now serves as a doctoral supervisor, guiding students in advanced mineral processing and material innovation. 

Experience

As a professor and doctoral advisor at AUST, Prof. Zhu has taught core subjects like fluid mechanics in mineral processing, flotation reagents, and mechanical vibration. He has led 10+ significant national and provincial research projects—including NSFC and provincial youth key talent programs—and authored over 45 peer‑reviewed articles (41 indexed in SCI/EI, with 14 in Top‑tier journals) as well as 21 national and 3 European patents. He also chaired projects that earned provincial and industrial awards.

Achievements

Prof. Hongzheng Zhu has received multiple prestigious awards recognizing his scientific innovations in coal slurry treatment, flotation technology, and mineral processing. These include the Anhui Provincial Science and Technology First Prize (2016) and multiple Patent Excellence Awards (2021, 2023) for his groundbreaking device inventions. He also earned national recognition, including the China Coal Industry Science and Technology Second Prize and the China Safety Production Technology Award. He is celebrated as a Top Talent of AUST, Outstanding Young Talent of Anhui, and Distinguished Teacher, exemplifying excellence in both research and education.

Contributions 

Prof. Hongzheng Zhu has developed several patented innovations in the field of mineral processing and environmental systems engineering. His inventions include advanced flotation systems, microbubble classifiers, and vaporization devices for coal slurry treatment. Notably, he holds five invention patents across China and the Netherlands, such as a mineral flotation system (ZL201810719849.2) and an automatic slime water concentration system (2027664). His work significantly enhances wastewater treatment, resource recovery, and green mining operations using smart engineering and interface control techniques. These patented technologies have practical industry relevance and global innovation potential.

Research Focus

Prof. Zhu’s research specializes in mineral processing engineering, focusing on interface control in fine particle systems, advanced flotation reagent dynamics, and engineering fluid mechanics. He works extensively on the kinetic and dynamic behavior of frothing agents for efficient coal flotation and waste water treatment. The research advances smarter mining, cleaner production, and environmental management.

Publications

Effect of Inorganic Cations on Bubble-Oil Droplet Coalescence in Aqueous Solution
Authors: Hongzheng Zhu
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects (2025)

Effect of Static Pressure on Dynamic Inner Pressure and External Shape During Bubble Generation in Ca²⁺ Solutions
Authors: Hongzheng Zhu
Journal: Chemical Engineering Science (2025)

Effect of Non-Ionic Frothers on Bubble Characteristics in Flotation: A Review
Authors: Hongzheng Zhu
Journal: Review Article (2025)

Dynamic Characteristics and Energy Variation of Droplet Impacting on a Quartz Surface
Authors: Hongzheng Zhu
Journal: Physics of Fluids (2025)

Dosing Interval of Coagulant and Flocculant Influences Settling Behavior of Coal Slime
Authors: Hongzheng Zhu
Journal: International Journal of Coal Preparation and Utilization (2025)

Experimental Study on Separation of Lumpish Coal and Gangue Using X-Ray
Authors: Hongzheng Zhu
Journal: Energy Sources, Part A: Recovery, Utilization, and Environmental Effects (2025

Lorenzo Nissen | Mechanical Properties of Materials | Best Researcher Award

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Assist. Prof. Dr. Lorenzo Nissen | Mechanical Properties of Materials | Best Researcher Award

Dr. Lorenzo Nissen is an Assistant Professor (fixed-term Researcher) in Food Microbiology at the University of Bologna, Italy. He holds a PhD in Microbial Ecology and has over 15 years of research experience in food microbiology, gut microbiota, and microbial biotechnology. His work focuses on probiotic and functional food development, in vitro gut models, and the microbial valorization of food by-products. He has contributed to numerous European and national projects, and currently leads a working group in the EU COST Action INFOGUT. Dr. Nissen is also nationally habilitated as an Associate Professor in Agricultural Microbiology and actively collaborates with international research networks in food science and microbiome research.

Assist. Prof. Dr. Lorenzo Nissen,Università di Bologna, Italy

Profile

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Education

Lorenzo Nissen earned his Master’s Degree in Agricultural Science and Technology from the University of Bologna, completing a thesis on the construction of a genomic library in Bifidobacterium longum. He served as a Guest Research Assistant at the Laboratory of Biotechnology of Lactic Acid Bacteria, IATA-CSIC in Valencia, Spain. He went on to pursue a Ph.D. in Microbial Ecology through an international co-tutoring program between the University of Bologna and the University of Maribor, Slovenia. His doctoral research focused on the apoptotic deletion mediated by Bifidobacterium longum and the construction of recombinant strains for Serpin encoding genes, using pig cell models.

Experience

Since February, Lorenzo Nissen has been serving as a fixed-term Researcher (Assistant Professor) at the Department of Agricultural and Food Sciences (DISTAL), University of Bologna. Prior to this role, he spent over a decade as a Research Fellow at the University of Bologna, working in multiple capacities including Agricultural Microbiology, Food Microbiology, and Industrial Crops. He was also a Visiting Research Fellow at the University of Zurich and a Researcher in Molecular Microbiology at the Edmund Mach Foundation in Trento. His extensive academic trajectory is marked by a strong presence in laboratory research, academic tutoring, and supervising graduate and PhD students across several institutions and programs.

Awards

Lorenzo Nissen’s appointment to national and international research evaluation panels, including UKRI, ANR, and The Wellcome Trust, underscores his expertise and leadership in food microbiology. He has held editorial and academic review roles and actively collaborates with international research institutions such as the University of Laval (Canada), IATA-CSIC (Spain), University of Maribor (Slovenia), University of Zurich (Switzerland), and Laimburg Research Center (Italy). His academic engagement is also evidenced by his coordination within the INFOGUT network involving over 200 global researchers.

Contributions

Lorenzo Nissen has made notable contributions to food microbiology, particularly in understanding the role of microorganisms in food functionality, safety, and gut health. He has advanced the use of in vitro gut models to study microbiota–food interactions and led research on probiotics, prebiotics, and bioactive food compounds. His work has supported the valorization of food by-products through microbial biotechnology, promoting sustainability in the food industry. Through active participation in numerous EU and national research projects, as well as leadership in the INFOGUT network, he has contributed significantly to international collaboration and innovation in microbiome and food research.

Research Projects

Lorenzo Nissen is actively involved in several national and international research projects focused on food microbiology, gut health, and sustainable food systems. He leads a working group in the COST Action CA23110 – INFOGUT, coordinating global efforts to standardize in vitro colon models for studying gut microbiota interactions. He is part of the CALIMERO project , which investigates how wholemeal semolina and pasta processing impact metabolic responses. Additionally, he contributes to the GourMed project , which focuses on improving the governance and equity of Mediterranean food value chains. In past years, he participated in several major European projects such as PATHWAY-27, BIORICE, FutureEUAqua, and SUCCIPACK, addressing topics ranging from functional foods and sustainable packaging to food safety and the valorization of agro-industrial by-products.

Research Focus

His current research spans microbial modulation of food systems, gut microbiota interactions, and food safety. He is currently involved as a Working Group Leader in the European COST Action CA23110 INFOGUT, a global initiative focused on in vitro colon models. He is also part of the PRIN-funded CALIMERO project exploring wholemeal pasta’s metabolic effects, and the PRIMA-funded GOURMED project, which aims to ensure quality and profit equity in Mediterranean food supply chains. In the past, he has contributed to major European research consortia such as BIORICE, PATHWAY-27, EcoPROLIVE, and FutureEUAqua, all focused on food innovation, safety, and sustainable production.

Publication

Title: Personalized and precise functional assessment of innovative flatbreads toward the colon microbiota of people with metabolic syndrome: Results from an in vitro simulation
Authors: Gianotti, A., Marin, V., Cardone, G., Bordoni, A., Mancini, E., Magni, M., … & Nissen, L.
Journal: Food Research International, Volume 209.

Title: Microbial and Quality Changes of Seabream Fillets Processed with Cold Plasma During Refrigerated Storage
Authors: Tappi, S., Nissen, L., Pinheiro, A. C. D. A. S., D’Elia, F., Casciano, F., Antonelli, G., … & Rocculi, P.
Journal: Foods, Volume 14, Issue 9.

Title: Functional foods acting on gut microbiota-related wellness: The multi-unit in vitro colon model to assess gut ecological and functional modulation
Authors: Marangelo, C., Marsiglia, R., Nissen, L., Scanu, M., Toto, F., Siroli, L., … & Vernocchi, P.
Journal: Food Research International.

Title: Nutritional, Chemical, and Functional Properties of Wholegrain Einkorn Pasta Through Cooking and Digestion: A Comparative Study with Wholegrain Durum Wheat Pasta
Authors: Mercatante, D., Santoni, M., Nissen, L., Didos, S., Salvatori, G., D’Ambrosio, G. J., … & Rodriguez-Estrada, M. T.
Journal: Foods, Volume 14, Issue 3.

Title: Carob Syrup: Prebiotic Potential of a Neglected Functional Beverage of Mediterranean Countries
Authors: Nissen, L., Addazii, D., Casciano, F., Danesi, F., Rodriguez-Estrada, M. T., Mercatante, D., … & Gianotti, A.
Journal: Foods, Volume 13, Issue 24.

Dr Gum-Chol Jang | Nanomaterials | Best Researcher Award

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Dr Gum-Chol Jang | Nanomaterials | Best Researcher Award

Dr. Gum-Chol Jang is a materials scientist specializing in nanofiber research and electrospinning technologies. He obtained his B.Sc. and M.Sc. degrees in Nano Materials Engineering from Kim Chaek University of Technology, where he also earned his Ph.D. in 2021. Currently working at the Institute of Nanoscience and Nanotechnology, Dr. Jang has been actively engaged in developing antibacterial nanofibers and exploring microwave-assisted processes for material disinfection and drying. His innovative work aims to tackle real-world challenges in healthcare and environmental safety through nanoscale engineering.

Dr Gum-Chol Jang, Institute of Nanoscience and Nanotechnology, Kim Chaek University of Technology, North Korea

Profile

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🎓 Education

Dr. Jang’s academic journey began at the Faculty of Materials Science and Technology, Kim Chaek University of Technology. He pursued a Master’s degree in Nano Materials Engineering and later completed his Ph.D at the same institution. His educational progression reflects a strong foundation in materials engineering with a specific focus on nanoscience and electrospinning methods laying the groundwork for his current research on antibacterial nanofibers and microwave heating.

💼 Experience

Since 2018, Dr. Jang has served as a researcher at the Institute of Nanoscience and Nanotechnology, where he works on electrospinning systems, nanofiber design, and microwave applications. His Ph.D. work and post-doctoral research have contributed to the understanding and innovation in electric field optimization for multi-needle electrospinning systems. His practical skills in laboratory processes, combined with his academic rigor, have made him a valuable contributor to the nanomaterials research community.

🧪 Contributions

Dr. Gum-Chol Jang’s research contributions primarily focus on the development and functional application of nanofibers using electrospinning technology. His work emphasizes the fabrication of antibacterial nanofibers for use in healthcare, filtration, and environmental protection. Through precision control of electrospinning parameters, he enhances fiber performance and bioactivity. Additionally, Dr. Jang explores the use of microwave heating for material disinfection and drying, offering an efficient, eco-friendly solution for sterilization processes. His interdisciplinary research bridges nanotechnology, materials science, and public health, contributing significantly to next-generation material innovation.

🔬 Research Focus

Dr. Jang’s research is primarily focused on nanofiber development via electrospinning, with a special emphasis on antibacterial properties for biomedical and environmental use. Additionally, he explores microwave heating technologies as eco-friendly, efficient alternatives for material disinfection and drying. His interdisciplinary work combines electrical engineering, nanotechnology, and materials science to address both theoretical challenges and practical needs in public health and manufacturing.

📘 Publication

  • Title: Optimization of parameters of auxiliary electrodes for electric field uniformity around spinneret needles in multi-needle electrospinning by using Taguchi method

  • Authors: Gum-Chol Jang, Dong-Chol Im, Yong-Ho Pak

  • Journal: Journal of Electrostatics, Volume 136, Article 104100 (2025)

This peer-reviewed publication showcases Dr. Jang’s engineering approach to enhancing electrospinning efficiency—a crucial advancement in the scalable production of nanofibers.