Prof. Ahmad Akbari | Nanofiltration | Best Researcher Award

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Prof. Ahmad Akbari | Nanofiltration | Best Researcher Award

Prof. Ahmad Akbari | Scientific Member | University Of Kashan | Iran

Prof. Ahmad Akbari is a distinguished researcher with extensive expertise in membrane technology, nanofiltration, wastewater treatment, and environmental nanotechnology. His research focuses on the design, fabrication, and modification of advanced nanostructured membranes for the treatment of textile dye effluents, pharmaceutical contaminants, and industrial wastewater. He has pioneered the development of UV-photografted nanofiltration membranes, electrospun nanofibers, and composite membranes incorporating nanomaterials such as TiO2, graphene oxide, PAMAM dendrimers, and magnetic ferrites to enhance water flux, anti-fouling properties, and selective separation efficiency. His work also extends to green synthesis of magnetic nanocomposites for biomedical and environmental applications, highlighting his interdisciplinary approach in combining chemical engineering, materials science, and nanotechnology. Akbari’s research has been widely recognized and cited, with over 3,659 citations by 3,203 documents, an h-index of 29, and i10-index of 63 according to Google Scholar, while Scopus reports 4,638 citations across 72 documents, an h-index of 27, and i10-index of 51. His contributions have significantly advanced both fundamental understanding and practical applications of membrane processes, nanomaterials, and environmental remediation technologies, demonstrating innovative strategies for pollutant removal and resource recovery.

Profile : Google Scholar | Scopus | Orcid

Featured Publications :

  • Akbari, A., Homayoonfal, M., & Jabbari, V. (2010). Fabrication of new photografted charged thin film composite (TFC) nanofiltration membrane applied to waste water treatment: Effect of filtration parameters on the rejection of salts and dyes. J. Waste Water Treatment & Analysis, 1, 1–9.

  • Yunessnia Lehi, A., & Akbari, A. (2017). A novel nanofiltration membrane prepared with PAMAM and graphene oxide for desalination. J Nanostruct, 7(4), 331–337.

  • Akbari, A., Soleimani, H., & Mojallali Rostami, S. M. (2015). Preparation and characterization of novel positively charged nanofiltration membrane based on polysulfone (PSf). J. Appl. Polym. Sci., 132(22).

  • Amiri, M., Salavati-Niasari, M., & Akbari, A. (2019). Magnetic nanocarriers: Evolution of spinel ferrites for medical applications. Advances in Colloid and Interface Science, 265, 29–44.

  • Zeinali, S., & Akbari, A. (2021). Preparation of hydrophile nanofiltration membranes using κ-Carrageenan as additive and application to treatment of anionic colored wastewater. Desalination and Water Treatment, 220, 63–72.

Assist. Prof. Dr. Malihe Pooresmaeil | Drug Delivery | Women Researcher Award

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Assist. Prof. Dr. Malihe Pooresmaeil | Drug Delivery | Women Researcher Award

Assist. Prof. Dr. Malihe Pooresmaeil | Assistant Professor | University Of Zanjan | Iran

Assist. Prof. Dr. Malihe Pooresmaeil is a distinguished researcher in the field of organic chemistry, specializing in the design, synthesis, and application of advanced polymeric, nanocomposite, and biopolymer-based drug delivery systems. Her work integrates organic synthesis with nanotechnology to develop stimuli-responsive, pH-sensitive, and biocompatible platforms for targeted therapy, particularly in cancer treatment. She has made significant contributions to the functionalization of graphene oxide, metal-organic frameworks (MOFs), covalent organic frameworks (COFs), and natural polymers such as starch, carboxymethyl cellulose, and chitosan, enabling controlled and efficient drug delivery. Dr. Pooresmaeil’s research also encompasses the development of antimicrobial and photoluminescent nanocomposites, hydrogels, and multi-functional hybrid materials with biomedical and environmental applications. Her innovative work has been widely recognized, reflected in her extensive publication record of over 63 documents, cited more than 2,668 times, with an h-index of 30 and an i10-index of 51 (Google Scholar), alongside a Scopus h-index of 32 and over 3,060 citations. She has been consistently acknowledged among the top 2% most cited scientists by Stanford University. Dr. Pooresmaeil’s research has appeared in high-impact journals, demonstrating her leadership in advancing polymeric and nanostructured materials for healthcare applications, while her work on stimuli-responsive drug delivery, biopolymer modification, and MOF/COF-based systems has influenced both academic research and practical applications in biomedical sciences.

Profile : Google Scholar | Scopus | Orcid 

Featured Publications :

  • Pooresmaeil, M., Namazi, H., & Salehi, R. (2022). Photoluminescent and biocompatible starch coated bio-based-derived carbon dots as a promising platform for methotrexate delivery. European Polymer Journal, 158, 110698.

  • Pooresmaeil, M., Namazi, H., & Javanbakht, S. (2019). Green one-pot synthesis of carboxymethylcellulose/Zn-based metal-organic framework/graphene oxide bio-nanocomposite as a nanocarrier for drug delivery system. Carbohydrate Polymers, 219, 255-266.

  • Pooresmaeil, M., Namazi, H., & Salehi, R. (2022). Dual anticancer drug delivery of D-galactose-functionalized stimuli-responsive nanogels for targeted therapy of the liver hepatocellular carcinoma. European Polymer Journal, 165, 111104.

  • Pooresmaeil, M., Namazi, H., & Asl, E. A. (2021). Simple fabrication of biocompatible chitosan/graphene oxide microspheres for pH-controlled amoxicillin delivery. European Polymer Journal, 150, 110425.

  • Pooresmaeil, M., Namazi, H., & Hosseyni, R. (2020). Star-shaped polylactic acid based on triazine dendrimers; Investigation of catalyst type and time factors on the polylactic acid molecular weight. Iranian Polymer Journal, 29, 987-998.

Ms. Mahitha Pulithitta Mohanan | Sensor | Best Researcher Award

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Ms. Mahitha Pulithitta Mohanan | Sensor | Best Researcher Award

Ms. Mahitha Pulithitta Mohanan | PhD. Student | Amrita Vishwa Vidyapeetham | India 

Ms. Mahitha Pulithitta Mohanan is a research scholar in the Department of Chemistry at Amrita Vishwa Vidyapeetham, Amritapuri, Kerala, India, actively engaged inadvancing catalytic and electrochemical sciences. Her research primarily focuses on the design, synthesis, and application of ruthenium-based complexes for catalytic transformations and electrochemical sensing. She has developed innovative methodologies in coordination and organometallic chemistry, emphasizing homogeneous catalysis, bioinorganic systems, and the fabrication of electrochemical sensors for biomedical and environmental applications. Mahitha has made significant research contributions with publications in internationally reputed journals such as Microchemical Journal, New Journal of Chemistry, Critical Reviews in Analytical Chemistry, and Journal of Molecular Structure. Her scholarly impact is reflected in her 60 citations, h-index of 5, and i10-index of 2, demonstrating growing recognition of her scientific work. She has co-authored several book chapters with leading researchers, contributing to areas such as nanomaterials for neurotransmitter sensors, photochromic materials, and biomass valorization for sustainable energy applications. Her research presentations at international platforms in Turkey and India highlight her active engagement in collaborative and cross-disciplinary scientific discourse. Additionally, she has explored polymer nanocomposites and conducting materials for applications in EMI shielding and sensor development. Mahitha’s research integrates experimental chemistry with material science innovation, contributing to the next generation of catalytic and sensing systems that align with sustainability and green chemistry principles.

Profile : Google Scholar | Orcid

Featured Publications : 

  • Mahitha Pulithitta Mohanan, Gulsu Keles, Naveen V. Kulkarni, & Sevinc Kurbanoglu. (2025). Design of a simple and green electrochemical sensor based on molecularly imprinted polymer supported by ruthenium pincer complex and multi-walled carbon nanotube for the detection of anticancer drug Nintedanib. Microchemical Journal, 115701.

  • Mahitha P. M., Nakul S., Naveen V. Kulkarni, Balaji R. Jagirdar, & William D. Jones. (2023). Guerbet upgrading of ethanol to n-butanol using Ru (III) catalysts under air. New Journal of Chemistry, 47, 7470–7475.

  • Mahitha Pulithitta Mohanan, Gulsu Keles, Anaswara Sajeev Aji, Naveen V. Kulkarni, & Sevinc Kurbanoglu. (2025). Transition metal complexes based electrochemical (Bio) sensors for the detection of dopamine. Critical Reviews in Analytical Chemistry, 1–22.

  • Reshma G., Nakul S., Mahitha P. M., Naveen V. Kulkarni, Dineshchakravarthy Senthurpandi, Sharma S. R. K. C. Yamijala, William W. Brennessel, & William D. Jones. (2021). Synthesis and molecular structure of half-sandwich ruthenium (II) complexes containing pyrazolyl ligands. Journal of Molecular Structure.

  • P. M. Mahitha, K. Sneha, P. S. Advaith, K. Rashid Sultan, Malavika Sajith, Burney Jose, S. Hema, Sreedha Sambhudevan, & Balakrishnan Shankar. (2020). Conducting polyaniline based rubber nanocomposites – Synthesis and characterization studies. Materials Today Proceedings.

Assoc. Prof. Dr. Alicja Nowaczyk | Molecular | Medical Chemistry Award

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Assoc. Prof. Dr. Alicja Nowaczyk | Molecular | Medical Chemistry Award

Assoc. Prof. Dr. Alicja Nowaczyk | The Head Of The Department Of Pharmacometrics And Molecular Modeling | Nicolaus Copernicus University |  Poland 

Assoc. Prof. Dr. Alicja Nowaczyk is an accomplished Associate Professor at the Department of Organic Chemistry, Faculty of Pharmacy, Ludwik Rydygier Collegium Medicum in Bydgoszcz, Nicolaus Copernicus University in Toruń, Poland. She is a leading expert in pharmaceutical and medical sciences, with extensive research in computational chemistry, molecular modeling, neuropharmacology, cardiovascular pharmacology, and predictive modeling of biologically active compounds. Her scientific pursuits focus on molecular interactions related to GABA transporters (GAT), monoamine transporters (MAT), voltage-gated ion channels (VGIC), cytochrome P450 (CYP), receptor tyrosine kinases (RTK), and guanylyl cyclase (GC). Over the years, Dr. Nowaczyk has published 61 scientific documents, which have received 1,094 citations from 998 sources, reflecting her academic influence and international recognition. Her h-index of 18 and i10-index of 39 demonstrate consistent research productivity and citation impact, while since 2020, her performance has further increased with 1,421 citations and an h-index of 20, marking her as a prominent figure in computational pharmacology. She leads the Department of Pharmacometrics and Molecular Modeling, supervising several Ph.D. theses, coordinating collaborative research, and mentoring international scholars. Dr. Nowaczyk’s contributions to science are recognized through numerous awards from the Rector of Nicolaus Copernicus University and the Minister of Health, as well as through her role as a reviewer for over 200 international scientific manuscripts across major publishers like Elsevier, Springer, MDPI, Wiley, and Taylor & Francis. Her ongoing projects continue to integrate AI, machine learning, and in silico modeling into modern drug discovery and safety pharmacology.

Profile : Scopus | Orcid | Google Scholar 

Featured Publications :

  • Kubryń, N., Fijałkowski, Ł., Nowaczyk, J., Jamil, A., & Nowaczyk, A. (2025). PROTAC technology as a new tool for modern pharmacotherapy. Molecules, 30(10), 2123.

  • Kalisz, O., Tobiszewski, M., Nowaczyk, A., & Bocian, S. (2024). Exploring the potential of green chemistry in reversed-phase liquid chromatography: A review of sustainable solvents. TrAC – Trends in Analytical Chemistry, 181, 118007.

  • Ziętal, K., Mirowska-Guzel, D., Nowaczyk, A., & Blecharz-Klin, K. (2024). Cnicus benedictus: Folk medicinal uses, biological activities, and in silico screening of main phytochemical constituents. Planta Medica, 90(13), 976–991.

  • Badura, A., Pałkowski, Ł., Nowaczyk, A., Poćwiartowska-Gołąb, M., & Buciński, A. (2023). Application of artificial neural networks for predicting imidazole derivatives’ antimicrobial activity against Enterococcus faecalis. Farmacja Polska, 79(11), 665–676.

  • Grześk, G., Witczyńska, A., Węglarz, M., Wołowiec, Ł., Nowaczyk, J., & Nowaczyk, A. (2023). Soluble guanylyl cyclase activators: Promising therapeutic option in the pharmacotherapy of heart failure and pulmonary hypertension. Molecules, 28(2), 861.

Dr. Chiara Pelosi | Thermal Analysis | Young Researcher Award

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Dr. Chiara Pelosi | Thermal Analysis | Young Researcher Award 

Dr. Chiara Pelosi | Tenure Track Researcher | University Of Pisa | Italy

Dr. Chiara Pelosi is a Tenure-Track Researcher (RTT) at the Department of Chemistry and Industrial Chemistry, University of Pisa, where she focuses on physical chemistry, thermal analysis, calorimetry, and deep eutectic solvents. She earned her Ph.D. in Chemistry and Materials Science through a joint research collaboration between the University of Pisa and the Max Planck Institute for Polymer Research, Mainz, Germany. Her research has significantly contributed to the understanding of protein-polymer conjugates, biodegradable polymers, green solvents, and cultural heritage materials, integrating sustainability and innovation in material science. Dr. Pelosi has published 30 peer-reviewed scientific papers, garnering 371 citations from 301 documents, with an h-index of 13 and an i10-index of 15, reflecting her growing scientific influence in the field. She has presented at 20 national and international conferences and serves as co-guest editor for the Elsevier journal Thermal Advances. Her ongoing projects include ArtDECOW  and AGM for CuHe , focusing on collagen-based and cultural heritage materials. Recognized for her excellence, she received the Lucci Prize and the INSTM/Polymer Award for her outstanding research contributions. She has established collaborations with leading international institutions such as the Institute Laue-Langevin, University of Twente , and Center for Blood Research . Dr. Pelosi is a member of several professional organizations, including the Italian Chemical Society and AICAT/GICAT, and actively contributes to advancing sustainable chemistry and materials science education.

Profile:   Scopus | Orcid | Google Scholar 

Featured Publications :

  • Volpe, A., Pelosi, C., Duce, C., Ciancaleoni, G., & Bernazzani, L. (2025). Solvent effects in biomass-derived activated carbons: New insights for their doping/functionalization toward potential hydrogen storage applications. Journal of Molecular Liquids, 127937.

  • Pelosi, C., Duce, C., Wurm, F. R., & Ciancaleoni, G. (2024). Biodegradable protein–polymer conjugates: Structure-property relationships and biocompatibility assessment. Polymer Degradation and Stability, 211, 110299.

  • Pelosi, C., Barone, G., Russo, D., & Cametti, C. (2023). Thermal and morphological analysis of novel geopolymers and coordination polymers for restoration materials. Journal of Applied Polymer Science, 139(45), 52107.

  • Pelosi, C., Catauro, M., Duce, C., & Ciancaleoni, G. (2022). Deep eutectic solvents in polymer processing: Calorimetric insights and structural evolution. Thermochimica Acta, 700, 178931.

  • Pelosi, C., Duce, C., Rosi, F., et al. (2021). Thermal behavior and characterization of metal-based deep eutectic solvents for electrochemical applications. Journal of Thermal Analysis and Calorimetry, 148(3), 1672–1683.

Prof. Atif Javaid | Polymer Composites | Best Researcher Award

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Prof. Atif Javaid | Polymer Composites | Best Researcher Award

Prof. Atif Javaid | Professor | University of Engineering and Technology Lahore | Pakistan

Prof. Atif Javaid, Ph.D., is a distinguished Professor in the Department of Polymer and Process Engineering at the University of Engineering and Technology (UET), Lahore, Pakistan, with extensive expertise in polymer science, nanocomposites, and energy storage materials. With 638 citations from 480 documents, 23 publications, and an impressive h-index of 16, Dr. Javaid has established himself as a recognized contributor to the field of multifunctional polymer composites and advanced materials engineering. He earned his Ph.D. in Chemical Engineering from Imperial College London (2012), where he worked under eminent scientists such as Professors Alexander Bismarck and Milo Shaffer, followed by a Visiting Fellowship at the University of Michigan, Ann Arbor in the group of Prof. Nicholas A. Kotov. His research focuses on multifunctional structural composites, conducting polymers, fire-retardant materials, and polymer-based energy storage devices. Dr. Javaid has successfully led national and international funded projects, including those supported by the Higher Education Commission (HEC), Pakistan, and has been recognized with numerous awards such as the Challenging Engineering Project Award (Imperial College London) and the MAST UK Ministry of Defence Scholarship. As a researcher and educator, he has supervised several MSc and Ph.D. projects, contributed book chapters, and delivered invited talks at global conferences. His professional registrations include PEC . Through his sustained contributions, Dr. Javaid continues to drive innovation in polymer engineering, smart materials, and structural energy storage systems.

Profile : Scopus | orcid 

Featured publications :

  1. Javaid, A., Ho, K. K. C., Bismarck, A., Shaffer, M. S. P., Steinke, J. H. G., & Greenhalgh, E. S. (2014). Multifunctional structural supercapacitors for electrical energy storage applications. Journal of Composite Materials, 48(12), 1409–1416.

  2. Javaid, A., Ho, K. K. C., Bismarck, A., Steinke, J. H. G., Shaffer, M. S. P., & Greenhalgh, E. S. (2016). Carbon fiber-reinforced poly(ethylene glycol) diglycidylether based multifunctional structural supercapacitor composites for electrical energy storage applications. Journal of Composite Materials, 50(16), 2155–2163.

  3. Javaid, A., Noreen, S. (2022). Mechanically robust structural hybrid supercapacitors with high energy density for electric vehicle applications. Journal of Energy Storage, 55, 105818.

  4. Javaid, A., Hashmi, S. (2022). Development of fire-retardant truss core sandwich structures using carbon fiber reinforced epoxy composites. Fire Technology, 58, 1493–1507.

  5. Cao, Y., Luo, B., Javaid, A., Lim, C. M., Emre, A., Wang, X., & Kotov, N. A. (2023). Complex materials with stochastic structural patterns: Spiky colloids with enhanced charge storage capacity. Advanced Science, 11, 2305085.

Dr. Ramon Paredes Camacho | Sodium-Ion Batteries | Best Researcher Award

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Dr. Ramon Paredes Camacho | Sodium-Ion Batteries | Best Researcher Award

Dr. Ramon Paredes Camacho | Research Fellow | National University of Singapore Chongqing Research Institute | China

Dr. Ramon Alberto Paredes Camacho is a highly accomplished researcher in materials science, electrochemistry, and nanotechnology, currently serving as a Postdoctoral Researcher and Research Fellow at the National University of Singapore, Chongqing Research Institute (China). His research focuses on the design and electrochemical performance optimization of advanced materials for sodium-ion batteries, all-solid-state batteries, and supercapacitors, contributing significantly to the advancement of next-generation energy storage systems. Dr. Paredes has earned 274 citations across 268 scientific documents, published 10 research papers, and maintains an impressive h-index of 7, reflecting his growing influence in the global scientific community. His academic journey includes a Ph.D and Master’s degree  in Materials Physics and Chemistry from Dalian University of Technology, China, and a Bachelor’s degree in Chemical Engineering from the University of the Andes, Venezuela. His technical expertise spans nanomaterials synthesis, interface engineering, quantum dot fabrication, and electrochemical characterization. Over his career, he has held key roles at the Chinese Academy of Sciences (NIMTE), Nestlé, and Lácteos Los Andes, blending industrial experience with advanced research leadership. Dr. Paredes has successfully led funded projects supported by the National Natural Science Foundation of China and the Chongqing Postdoctoral Science Fund, resulting in patent publications and journal papers. His dedication to innovation and mentorship has made him a recognized contributor in electrochemical materials research, actively shaping sustainable and high-efficiency energy technologies.

Profile : Scopus | Orcid 

Featured Publications :

  • Paredes Camacho, R. A., Zhao, Y., Wang, X., Wang, Q., Shen, L., Gu, J., Gao, M., & Lu, L. (2025). Lattice engineering of Zn-doped Na3V2(PO4)2F3 for high-rate, wide-temperature sodium-ion batteries. Journal of Power Sources.

  • Sun, M., Liu, S., Leung, P., Wan, X., Li, L., Zhang, Z., Walsh, F. C., Paredes Camacho, R. A., & Liao, Q. (2025). Polymer-based solid-state batteries: Anion synergistic effect activates organic cathode with high voltage and high energy density. Advanced Functional Materials.

  • Paredes Camacho, R. A., Wang, X., Shen, L., Wang, Q., Zhao, Y., Gao, M., & Lu, L. (2025). Optimizing electrochemical performance and temperature stability of NVPF via copper doping. Chemical Engineering Journal.

  • Wang, X., Paredes Camacho, R. A., Xu, X., Wang, Y., Qiang, Y., Kungl, H., Eichel, R.-A., Zhang, Y., & Lu, L. (2023). Aerosol deposition technology and its applications in batteries. Nano Materials Science.

  • Xu, X., Wang, Y., Yi, Q., Wang, X., Paredes Camacho, R. A., Kungl, H., Eichel, R.-A., Lu, L., & Zhang, H. (2023). Ion conduction in composite polymer electrolytes: Potential electrolytes for sodium-ion batteries. ChemSusChem.

Prof. Dr. Vladimir Martens | Plasma Technologies | Best Researcher Award

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Prof. Dr. Vladimir Martens | Plasma Technologies | Best Researcher Award

Prof. Dr.  Vladimir Martens | Professor | North-Caucasus Federal University | Russia

Prof. Dr. Vladimir Yakovlevich Martens is a distinguished physicist currently serving at the Department of Experimental Physics, North-Caucasus Federal University, Russia. With an academic career spanning over four decades, he has made remarkable contributions to the fields of plasma emission electronics, gas discharge physics, and electron-ion-plasma technologies. He obtained his Engineer degree from Tomsk State University of Control Systems and Radioelectronics (TSUCSR), followed by a Ph.D. and Doctor of Technical Sciences from North-Caucasus Federal University . Throughout his career, he has served in multiple prestigious positions including Lecturer, Associate Professor, Department Head, and Research Group Leader. Professor Martens has published 20 scientific documents, accumulating 56 citations across 48 referencing papers, with an h-index of 4. His research includes the study of electron and ion emission from gas-discharge plasma and the development of charged particle sources applied to advanced plasma-based technologies. He has led or participated in 18 research projects, authored one book, contributed to 31 indexed journal articles, and holds 4 patents. He is a member of the New York Academy of Sciences and has served as a Rusnano expert, reviewer for journals such as Vacuum and Technical Physics Letters, and a member of various scientific boards. His pioneering work on electron emission and plasma synthesis of materials like AlN through PEALD has had a lasting impact on semiconductor and thin-film technology.

Profile: Scopus | Orcid

Featured Publications :

  • Martens, V. Y. (2023). Study of positively charged electron beams in low-pressure gas discharge. Journal of Plasma Physics Research, 45(2), 134–142.

  • Martens, V. Y., & Ivanov, A. P. (2022). Development of plasma-based electron and ion sources for material processing. Technical Physics Letters, 48(3), 356–362.

  • Martens, V. Y. (2021). Plasma emission electronics and gas discharge dynamics in confined systems. Vacuum, 192, 110412.

  • Martens, V. Y., & Petrova, L. A. (2020). Low-density plasma generation for resistless lithography applications. Applied Physics and Engineering, 76(1), 55–63.

  • Martens, V. Y. (2019). Electron emission control in high-voltage Penning discharges. Journal of Experimental and Theoretical Physics, 129(5), 978–987.

 

Assist. Prof. Dr. Rajesh Kumar | Chemistry | Excellence in Research Award

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Assist. Prof. Dr. Rajesh Kumar | Chemistry | Excellence in Research Award

Assist. Prof. Dr.  Rajesh Kumar | Assistant Professor | Government Degree College Chaubattakhal Pauri Garhwal Uttarakhand India | India

Assist. Prof. Dr. Rajesh Kumar is an Assistant Professor in the Department of Chemistry, Government Degree College, Chaubattakhal, Pauri Garhwal, Uttarakhand, India. He holds a Ph.D. in Chemistry (Nanochemistry) from Kumaun University, Nainital, and has demonstrated exceptional academic excellence throughout his education, qualifying national-level examinations such as CSIR-NET , GATE, and U-SET. His primary research areas include mixed oxide-based nanoparticles for adsorption and photocatalytic applications, water remediation, biofuels, and the biological activities of nanomaterials. Dr. Kumar has published 35 scholarly works (25 research papers and 10 book chapters), contributing significantly to the advancement of nanochemistry and environmental science. His publications have collectively earned 167 citations (158 since 2020) with an h-index of 7 (6 since 2020) and an i10-index of 4, demonstrating sustained research impact and scholarly productivity. He has also filed three published patents focused on nanomaterial-based adsorption and biofuel synthesis methods. A recipient of multiple honors, including Best Oral Presentation Awards  and Young Scientist Awards , Dr. Kumar actively contributes as an editorial board member and reviewer for several international journals. His professional memberships include ISCA, STRA, and TERA. Dr. Kumar’s dedication to teaching, research, and scientific dissemination reflects his commitment to both organizational and personal growth, fostering interdisciplinary collaboration in environmental and material chemistry.

Profile : Google Scholar

Featured Publications :

  1. Tamta, A., Lohiya, G., Kumar, R., Kandpal, A., Chandra, B., Joshi, R., & Kandpal, N. D. (2025). Evaluating the in-vitro antioxidant, anti-inflammatory and anticancer potentials of NiO-cellulose nanocomposites. BioNanoScience, 15, 1–17.

  2. Kumar, R., Ali, S. R., Karmakar, R., Sharma, R., & Haider, N. (2024). Adsorption potential of iron-zirconium oxide nanoparticles for 3-chlorophenol and 3-nitrophenol: Thermodynamic, kinetic and mechanistic studies. Russian Journal of General Chemistry, 94, 1419–1435.

  3. Semwal, N., Mahar, D., Chatti, M., Kumar, R., & Arya, M. C. (2024). Ni-Zn/CeO₂ nanocomposites for enhanced adsorptive removal of 4-chlorophenol. Environmental Science and Pollution Research, 31, 51934–51953.

  4. Vaishali, Sharma, S., Sharma, P., Das, D., Vashistha, V. K., Dhiman, J., Sharma, R., Kumar, R., Singh, M. V., & Kumar, Y. (2024). Magnetic nanoparticle-catalysed synthesis of quinoline derivatives: A green and sustainable method. Heliyon, 10, 1–54.

  5. Kumar, R., Bhoj, G. S., Arya, M. C., Karmakar, R., Sharma, P. K., & Tripathi, V. (2024). Polymer precursor method for the synthesis of zinc oxide nanoparticles: A novel approach. Environmental Conservation Journal, 1–7.

Prof. Adel Ashery | Semiconductor Devices | Best Researcher Award

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Prof. Adel Ashery | Semiconductor Devices | Best Researcher Award

Prof. Adel  Ashery | National Research Centre | Egypt

Prof. Adel Ashery Saleh Khalil, is an eminent Egyptian physicist currently serving as a full-time Professor and Head of the Department of Solid State Physics at the National Research Center, Cairo, Dokki. He earned his Ph.D. in Physics from the Leningrad Institute of Electronic Engineering , following a Science Diploma from Russia and a Bachelor of Science degree from Cairo University . His scientific expertise lies in the preparation and characterization of single-crystal devices and thin films using advanced techniques such as liquid phase epitaxial technology, electrochemical ionization, photolithography, diffusion furnaces, sol-gel, and chemical vapor deposition. Over his distinguished career, Dr. Khalil has contributed significantly to the fields of solid-state physics and materials science, particularly in developing heterojunction structures, dielectric materials, and nanocomposites for electronic and optoelectronic device applications. He has authored 89 scientific documents, accumulating 996 citations from 617 sources, with an h-index of 17, demonstrating his impactful research contributions. His publications appear in leading journals such as Physica B: Condensed Matter, ECS Journal of Solid State Science and Technology, and Nanotechnology Reviews. Dr. Khalil’s research provides crucial insights into dielectric tunability, negative capacitance, and high-dielectric materials, which are vital for future electronic device innovations. His scientific leadership continues to influence advancements in materials synthesis, device engineering, and applied physics at both national and international levels.

Profile: Scopus | Orcid

Featured Publications 

Ashery, A. (2025). Interfacial Engineering and Dielectric Tunability in Ag/Al/SiO2/n-Si/Ag Heterostructures: Novel Insights for Resistive Memory and High-κ Electronics. Physica B: Condensed Matter, 417758.

Ashery, A. (2025). Ag/MWCNTs-PVA Composite/n-Si/Ag Exhibits a Novel Combination of High Electrical Conductance and Tunable Capacitance in Magnitude and Sign. ECS Journal of Solid State Science and Technology.

Ashery, A., Gaballah, A. E. H., Elmoghazy, E., & Kabatas, M. A. B. M. (2025). Investigation of the optoelectronic properties of a novel polypyrrole-multi-well carbon nanotubes/titanium oxide/aluminum oxide/p-silicon heterojunction. Nanotechnology Reviews, 14(1), 20250174.

Ashery, A., Gaballah, A. E. H., Elnasharty, M. M. M., & Kabatas, M. A. B. M. (2024). Dielectric properties of epitaxially grown lattice-mismatched GaAs/p-Si heterojunction diode. iScience, 27(9).

Ashery, A., Gaballah, A. E. H., Turky, G. M., & Basyooni-Murat Kabatas, M. A. (2024). Gel-Based PVA/SiO2/p-Si Heterojunction for Electronic Device Applications. Gels, 10(8), 537.