Jingyu Zhang | Nursing and Health Professions | Best Researcher Award

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Ms. Jingyu Zhang | Nursing and Health Professions | Best Researcher Award

Johns Hopkins School of Nursing | United States

Ms. Jingyu Zhang is a highly dedicated and accomplished researcher with a strong academic foundation in biotechnology, biology, and biomedical sciences. She pursued her Master of Science in Biotechnology at Johns Hopkins University, preceded by a Bachelor of Science in Biology from The Ohio State University, along with earlier academic experiences in biomedical science at Auburn University and automatization studies at Jinan University. Her diverse educational background has provided her with a unique interdisciplinary perspective bridging biotechnology, biomedical research, and clinical applications.She has enhanced her academic training with multiple professional certifications, including Clinical Research Coordinator (CRC) certification, Human Subjects Research certification, Auricular Point Acupressure (APA) training, phlebotomy training, Epic for Research Coordinators, Clinical Research Management System (CRMS) training, Oncore study team fundamentals training, and additional training in auricular therapy and research methodologies. These certifications have strengthened her expertise in clinical trial coordination, data management, and integrative health interventions, enabling her to contribute meaningfully to large-scale clinical research projects.Professionally, Ms. Zhang has held progressive research roles at the Johns Hopkins University School of Nursing, starting as a Research Coordinator and advancing to Senior Research Program Coordinator and later to Senior Research Project Coordinator II. She has contributed to multiple sponsored projects, focusing on cancer symptom management, physical activity interventions for chronic conditions.

Profile: Google Scholar

Featured Publications

Yeh, C. H., Lukkahatai, N., Huang, X., Wu, H., Wang, H., Zhang, J., Sun, X., & Smith, T. J. (2022). Biological correlates of the effects of auricular point acupressure on pain. Pain Management Nursing: Official Journal of the American Society of Pain Management Nurses, 23, 19–26.

Van de Castle, B., Lukkahatai, N., Billing, B. S. N. L., Huang, X., Wu, H., Zhang, J., Abdi, S., Kameoka, J., & Smith, T. J. (2023). Nurse-administered auricular point acupressure for cancer-related pain. Integrative Cancer Therapies, 22, 15347354231198086.

Lukkahatai, N., Nguyen, M. V., Zhang, J., Cho, Y. M., Benjasirisan, C., Jia, H. M., Campbell, C. M., Kawi, J., Wu, H., Wang, H., Bora, R., Thrul, J., Johnson, C. M., & Smith, T. J. (2024). A randomized controlled study of auricular point acupressure to manage chemotherapy-induced neuropathy: Study protocol. PloS One, 19(9), e0311135.

Li, M., Benjasirisan, C., Zhang, J., Sheng, J. Y.-S., Li, J., Allgood, S., Carducci, M., Thrul, J., & Lukkahatai, N. (2025). Evaluating the impact of weekly physical performance reports on daily physical activity and symptoms among cancer survivors: Secondary analysis of a randomized controlled trial. Cancers, 17(17), 2850.

Navindra Shekhar Shakunt | Composite | Best Researcher Award

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Dr. Navindra Shekhar Shakunt | Composite | Best Researcher Award

Indian Institute of Technology (Indian School of Mines), Dhanbad | India

Dr. Navindra Shekhar Shakunt is an accomplished materials scientist and engineer specializing in materials processing, with a particular focus on powder metallurgical processing of tungsten heavy alloys (WHAs), high-entropy alloys (HEAs), and structure-performance correlations. He currently serves as a Postdoctoral Fellow at the Indian School of Mines, Dhanbad, India, where he investigates the heat treatment and mechanical properties of advanced high-strength steels for automotive applications. Previously, he worked as a Research Associate at the Indian Institute of Technology Kanpur, contributing to the development of refractory alloys using additive manufacturing and studying their tribological behavior. Navindra completed his Ph.D. in Materials Science and Engineering at the Indian Institute of Technology Kanpur, with a thesis on powder metallurgical processing and characterization of W-Ni-Cu heavy alloys modified with La₂O₃ and Fe, under the guidance of Professors Anish Upadhyaya and Gouthama. He also holds an M.Tech. in Materials Engineering from the University of Hyderabad, where he focused on the development and mechanical properties of multicomponent high-entropy alloys, and a B.Tech. in Mechanical Engineering from Uttar Pradesh Technical University. His research expertise includes liquid-phase and super-solidus sintering, mechanical characterization using TEM, nanoindentation, tribological studies, and the design and evaluation of quenching and partitioning steels. Navindra has published extensively in high-impact journals such as International Journal of Refractory Metals and Hard Materials, Materials Chemistry and Physics, Journal of Materials Engineering and Performance, and Journal of Alloys and Compounds, and has presented his work at numerous national and international conferences. his work has been cited by 33 documents across 5 published research articles, with an h-index of 3. Known for his meticulous experimental skills, analytical mindset, and commitment to advancing materials science, Navindra continues to pursue innovative research in alloy design, mechanical performance, and additive manufacturing, contributing significantly to the development of advanced structural materials with enhanced reliability, durability, and tribological performance.

Profile: Scopus

Featured Publications

  • Shakunt, N. S., Gouthama, & Upadhyaya, A. (2024). Microstructure and mechanical characterizations of liquid phase sintered W-Ni-Cu heavy alloy modified with La₂O₃ and Fe addition. International Journal of Refractory Metals and Hard Materials, 127, 105488.

  • Shakunt, N. S., Gouthama, & Upadhyaya, A. (2024). Effect of La₂O₃ addition on microstructure and mechanical properties of W-Ni-Cu tungsten heavy alloy. Materials Chemistry and Physics, 318, 128404.

  • Shakunt, N. S., Gouthama, & Upadhyaya, A. (2024). Tribological investigations of La₂O₃ dispersed W-Ni-Cu heavy alloy processed through powder metallurgy process. Journal of Materials Engineering and Performance, 34, 1234–1245.

  • Shakunt, N. S., Gouthama, & Upadhyaya, A. (2023). Effect of Fe addition in W-Ni-Cu heavy alloy processed through powder metallurgy on microstructure and mechanical properties. Journal of Alloys and Compounds, 970, 171948.

  • Shakunt, N. S., Gouthama, & Upadhyaya, A. (2022, December 14–16). Addition of La₂O₃ content in the W-Ni-Cu heavy alloy processed through the powder metallurgy route. In Proceedings of the International Conference on Frontiers in Materials Engineering: Abstract Book INIS (Vol. 54). IIT Indore.

 

Tongxing Wang | Civil Engineering | Young Scientist Award

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Dr. Tongxing Wang | Civil Engineering | Young Scientist Award

Beijing Engineering Consultation Co., Ltd of CARS| China

Dr. Tongxing Wang is a dedicated and accomplished researcher and engineer specializing in civil and structural engineering, with a focus on structural reliability, durability of prefabricated structures, and bridge wind resistance. He currently works at Beijing Engineering Consultation Co., Ltd of CARS, Beijing, where he applies his expertise in designing and optimizing resilient and high-performance bridge structures. Tongxing has extensive experience in both theoretical and practical aspects of civil engineering, demonstrating strong skills in software tools including Microsoft Office, Origin, AutoCAD, Abaqus, MATLAB, and OpenSEES, and possesses high proficiency in English. His academic background includes advanced studies in civil and bridge engineering, equipping him with a solid foundation for tackling complex challenges in infrastructure design and safety. Tongxing has contributed to several significant research projects, including the development of new systems and design methods for functionally restorable bridge structures under seismic events, and the design of bridge structures emphasizing seismic toughness. These projects highlight his ability to integrate innovative concepts into practical solutions for improving structural performance under extreme conditions. Tongxing has authored multiple influential publications in peer-reviewed journals such as Journal of Building Engineering, Construction and Building Materials, Engineering Structures, and Structures, addressing topics such as mechanical behavior of half-grouted sleeve connections, time-varying seismic fragility of precast bridges, and wind-resistance performance of large-span steel truss suspension bridges. He has also contributed to several patents in seismic-resistant and vibration-isolating bridge devices, reflecting his focus on practical engineering innovation. To date, Tongxing’s work has been cited by 15 documents across 5 published research articles, with an h-index of 3. Known for his analytical approach, problem-solving skills, and commitment to advancing civil engineering research, Tongxing continues to pursue innovative solutions for safe, durable, and resilient infrastructure, contributing significantly to the fields of structural reliability, seismic engineering, and bridge design.

Profile: Scopus

Featured Publications

  • Wang, T., Song, Y., Wang, L., & Han, Q. (2024). Experimental investigation of uncertain factors on the mechanical properties of half-grouted sleeve connected with large-diameter high-strength reinforcement. Journal of Building Engineering, 109087.

  • Wang, T., Wen, J., Hu, M., & Han, Q. (2024). Mechanical behavior of half-grouted sleeve connection under the coupling of sulfate erosion and dry-wet cycles. Construction and Building Materials, 456, 139281.

  • Wang, T., Hu, M., Jia, X., Bi, K., Han, Q., & Du, X. (2025). Time-varying seismic fragility and risk analysis of precast concrete bridges under the coupling of chloride corrosion and freeze-thaw cycles. Engineering Structures, 335, 120413.

  • Zhao, W., He, B., Zhang, Z., Wang, T.*, & Yang, H. (2025). Experimental and numerical study on wind-resistance performance of large-span steel truss suspension bridge across deep-cut canyon. Structures, 110124.

Shreanshi Agrahari | Chemistry | Best Scholar Award

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Ms. Shreanshi Agrahari | Chemistry | Best Scholar Award

Banaras Hindu University | India

Ms. Shreanshi Agrahari, a dedicated researcher from Varanasi, has built a distinguished academic and research career in the field of electrochemistry, nanomaterials, and biosensor development. She holds a Master’s degree in Organic Chemistry from Banaras Hindu University with specialization in organic synthesis and a Bachelor’s degree in Chemistry with distinction. Throughout her academic journey, she has developed strong expertise in the development of electrochemical sensors, nanomaterials synthesis, and biosensor fabrication, with a particular focus on environmental pollutant detection and biomedical applications. Her research work encompasses the design and fabrication of advanced sensors for the detection of environmental pollutants and biological molecules, synthesis of metal-organic frameworks, nanocomposites, and nanostructured materials, as well as comprehensive characterization using advanced techniques such as elemental analysis, TGA, FT-IR, SEM, AFM, XPS, UV-Vis, Raman spectroscopy, TEM, electrochemical methods, and EIS measurements. She has also skillfully prepared and modified glassy carbon electrodes and screen-printed electrodes using synthesized nanostructured materials and applied aptamer technology for precise electrode modification, leading to the development of electrochemical biosensors for cancer biomarker detection.Ms. Agrahari’s significant research contributions are reflected in her numerous publications in reputed journals. Some of her notable works include Electrochemical oxidation and sensing of para benzoquinone using a novel SPE based disposable sensor published in Chemosphere, Millimolar analysis of para benzoquinone in water samples using MnO2 coupled bimetallic MOF-functionalized carbon nanotubes based nanocomposite in Materials Research Bulletin, Fabrication of Gadolinium Decorated Spherical Zinc Oxide Attached on Carbon Nanotubes (Gd@ZnO-MWCNTs) for Electrochemical Detection of a Bisphenol Derivative BPSIP in Real Sample Matrices in Journal of Applied Electrochemistry, Voltammetric analysis of epinephrine using glassy carbon electrode modified with nanocomposite prepared from Co-Nd bimetallic nanoparticles.

Profile: Google Scholar

Featured Publications

Agrahari, S., Gautam, R. K., Singh, A. K., & Tiwari, I. (2022). Nanoscale materials-based hybrid frameworks modified electrochemical biosensors for early cancer diagnostics: An overview of current trends and challenges. Microchemical Journal, 172, 106980.

Singh, A. K., Gautam, R. K., Agrahari, S., & Tiwari, I. (2023). Oxidized g-C3N4 decorated with Cu–Al layered double hydroxide as a sustainable electrochemical sensing material for quantification of diclofenac. Materials Chemistry and Physics, 294, 127002.

Singh, A. K., Agrahari, S., Gautam, R. K., & Tiwari, I. (2024). Fabrication of an innovative electrochemical sensor based on graphene-coated silver nanoparticles decorated over graphitic carbon nitride for efficient determination of estradiol. Environmental Science and Pollution Research, 31(27), 38628–38644.

Agrahari, S., Singh, A. K., Gautam, R. K., & Tiwari, I. (2023). Voltammetric analysis of epinephrine using glassy carbon electrode modified with nanocomposite prepared from Co-Nd bimetallic nanoparticles, alumina nanoparticles and … Environmental Science and Pollution Research, 30(60), 124866–124883.

Singh, A. K., Gautam, R. K., Agrahari, S., Prajapati, J., & Tiwari, I. (2024). Graphene oxide supported Fe3O4-MnO2 nanocomposites for adsorption and photocatalytic degradation of dyestuff: ultrasound effect, surfactants role and real … International Journal of Environmental Analytical Chemistry, 104(15), 3506–3532.

Shiwani Singh | Polymer Chemistry | Women Researcher Award

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Ms. Shiwani Singh | Polymer Chemistry | Women Researcher Award

Banaras Hindu University | India

Ms. Shiwani Singh is a dedicated and passionate research scholar at Banaras Hindu University, Varanasi, specializing in polymer science and materials chemistry. She holds an M.Sc. in Chemistry from the University of Allahabad, demonstrating exceptional academic performance. Shiwani is highly skilled in laboratory techniques including organic synthesis, recrystallization, handling reactive precursors, and characterizing materials using advanced instruments such as NMR, HRMS, GPC, TGA/DSC, TEM/DLS, XRD, and IR spectroscopy. She is proficient in MS Word, MS Excel, Origin, PowerPoint, and specialized NMR software such as JEOL and MNOVA, combining experimental expertise with data analysis skills. Her research focuses on polymer synthesis, including Free Radical Polymerization (FRP), Controlled Radical Polymerization (CRP), RAFT polymerization, hydrogels, and their applications. Shiwani has contributed to publications in high-impact journals such as ACS Applied Polymer Science, International Journal of Biological Macromolecules, and Journal of Applied Polymer Science, exploring topics like thermoresponsive RAFT block copolymers and pharmaceutical drug modification through co-crystallization. She has also presented her work at prestigious international conferences, showcasing her research in polymer science and material development. Shiwani is motivated by applying machine learning and data analysis techniques in chemical research, aiming to enhance the functionality and therapeutic potential of polymer-based materials, including their anticancer activity and cytotoxic behavior. Her research contributions have been cited by 55 documents across 11 publications, with an h-index of 4. Known for her analytical mindset, meticulous laboratory skills, and dedication to advancing scientific knowledge, Shiwani continues to pursue innovative research opportunities, contributing significantly to the fields of polymer chemistry and materials science.

Profile: Scopus

Featured Publications

Author(s). (2025). Hermite-Hadamard type inequalities for preinvex functions with applications. Korean Journal of Mathematics.

Syed Muhammad Kazim Abbas Naqvi | Optoelectronics | Best Researcher Award

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Dr. Syed Muhammad Kazim Abbas Naqvi | Optoelectronics | Best Researcher Award

Shenzhen MSU-BIT University  | Pakistan

Dr. Syed Muhammad Kazim Abbas Naqvi is a highly motivated researcher specializing in the development and optimization of perovskite-based optoelectronic devices, with strong expertise in theoretical modeling, computational analysis, and advanced material engineering. He is completing his Ph.D. in Material Science & Engineering at the School of Material Science & Engineering, Beijing Institute of Technology, China. His doctoral research focuses on improving the performance and stability of perovskite solar cells (PSCs) and perovskite light-emitting diodes (PeLEDs), using advanced theoretical calculations, simulations, and innovative fabrication techniques. His thesis, titled Theoretical Investigation of the Effects of Charge Transport Materials on Interfacial Performance in Perovskite-Based Optoelectronic Devices, highlights his commitment to deepening understanding of interfacial charge transport mechanisms and material behavior. Before his Ph.D., Dr. Naqvi earned an M.S. in Physics and a B.S. in Physics from COMSATS University Islamabad, Pakistan. He is driven by a passion for tackling challenging problems in materials science, developing novel perovskite compositions, and integrating theoretical insights into practical device improvements. Dr. Naqvi has actively contributed to the scientific community through several high-impact, peer-reviewed publications in journals such as Computational Condensed Matter, Nanoscale Advances, RSC Advances, and Journal of Physical Chemistry C. His research addresses key challenges in photovoltaic efficiency, electronic band structure optimization, and the longevity of perovskite devices. He has also presented at multiple international conferences, including the Shenzhen MSU-BIT Youth Forum and the International Conference on Industry-Education Integration. To date, his work has been cited by 30 documents, published across 6 key research articles, with an h-index of 3. Known for his strong problem-solving skills, analytical mindset, and dedication to innovation, Dr. Naqvi seeks a challenging part-time role in a competitive organization where he can apply his expertise in material science to contribute meaningfully to technological advancement.

Profile: Scopus

Featured Publications

  1. Aslam, F., Islam, A. U., Niazi, S. U. K., Al-Hazmi, G. A. A. M., Shaheen, M., Saleem, S., & Naqvi, S. M. K. A. (2025). Theoretical exploration of multi-functional K₂RbInX₆ (X = Cl, Br) halide perovskites for optoelectronic and thermoelectric applications. Computational Condensed Matter.

  2. Naeem, H., Alrebdi, T. A., Salem, K. H., Imran, M., Almohammedi, A., Soliman, M. S., Naeem, H., Faizan, M., Naqvi, S. M. K. A., & Khera, R. A. (2025). Heterocyclic π-linkers for reduced energy dissipation in symmetrical IDT-core based non-fullerene acceptors: A route to efficient organic solar cells. Nanoscale Advances.

  3. Khan, Z., Alathlawi, H. J., Salem, K. H., Naqvi, S. M. K. A., Jaghdam, I. H., Soliman, M. S., Hasanin, T. H. A., Ali, S., Bhatti, H. N., & Khera, R. A. (2025). Computational insights into phthalimide-core non-fullerene acceptors for next-generation organic solar cells. RSC Advances, 15, 31019–31031.

  4. Naqvi, S. M. K. A., Zhu, Y., & Chang, S. (2023). Manipulating interfacial performance of TPBi–FAPbI₃ perovskite interfaces based on TPBi orientations: A theoretical perspective. Journal of Physical Chemistry C, 127(46), 22752–22759.

  5. Naqvi, S. M. K. A., Baig, M. F., Farid, T., Nazir, Z., Mohsan, S. A. H., Liu, H., Cai, W., & Chang, S. (2023). Unraveling degradation processes and strategies for enhancing reliability in organic light-emitting diodes. Nanomaterials, 13(23), 3020.

Natalia Falidea | Gerodontology | Best Researcher Award

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Mrs. Natalia Falidea | Gerodontology | Best Researcher Award

National and Kapodistrian University of Athens |  Greece

Mrs. Natalia Falidea is an accomplished dentist and researcher specializing in gerodontology, geriatric syndromes, and the physiology of aging. She holds a Doctor of Dental Surgery (DDS) degree and is currently pursuing a Master of Science (MSc) in Geriatric Syndromes and Physiology of Aging at the National and Kapodistrian University of Athens, Greece. Driven by a strong passion for improving elderly care, Mrs. Falidea serves as a Clinical and Research Associate in the Division of Gerodontology at the university’s Department of Prosthodontics. Her research primarily investigates the relationship between oral health indicators and physical frailty in community-dwelling older adults, aiming to enhance the understanding of how oral health impacts overall geriatric well-being. She has presented her findings at several prominent European conferences, including the European Geriatric Medicine Society (EuGMS) annual meetings and the PROGRAMMING CA 21122 Spring event, showcasing studies on factors like age and sex effects on bite force, oral function parameters, and the role of interprofessional education in older people care. In addition to her research contributions, Mrs. Falidea actively practices dentistry, working as a private dentist in Athens, Greece, while also holding roles as an associate dentist in a periodontal clinic and at the Athens Naval Hospital. Her clinical work spans general dentistry, pediatric dentistry, and voluntary service, with a strong focus on delivering patient-centered care to diverse populations. Fluent in English and French and proficient in Microsoft Office, she holds memberships in the European College of Gerodontology, the Gerodontology Special Interest Group of EuGMS, and the Piraeus Dental Association. Mrs. Falidea is dedicated to advancing interdisciplinary collaboration in elderly healthcare, integrating rigorous academic research with hands-on clinical practice. Her ongoing work reflects a commitment to improving patient outcomes, advancing geriatric oral health knowledge, and contributing to innovations in the field.

Profile: Orcid

Featured Publications

  1. Falidea, N. (2025). Association between oral health indicators and physical frailty indicators in community-dwelling Greek adults (Unpublished dissertation).

  2. Falidea, N., Konstantopoulou, K., Kotsani, M., Soulis, G., Schimmel, M., Polychronopoulou, A., & Kossioni, A. (2025). Association between oral health and physical frailty in an adult community‐dwelling Caucasian population. Journal of Oral Rehabilitation.

 

Pushpanjali Singh | Material science | Young Scientist Award

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Ms. Pushpanjali Singh | Material science | Young Scientist Award

Teerthanker mahaveer University | India

Pushpanjali Singh is a dedicated physicist and academic currently serving as Guest Faculty at Teerthanker Mahaveer University, Moradabad, India. She is pursuing a Ph.D. in Physics, specializing in phosphates, pyrophosphates, and their nanocomposites and polymers for fuel cell applications. Pushpanjali earned her M.Sc. and B.Sc. in Physics from Teerthanker Mahaveer University, consistently demonstrating strong academic performance and a passion for scientific advancement. Her research expertise includes material science, nanotechnology, and electrochemical applications, with a focus on developing functional materials for energy devices. She has published multiple peer-reviewed journal articles on structural, thermal, optical, and transport properties of advanced compounds, contributing to the field of solid acid fuel cells. Pushpanjali actively participates in national and international conferences, presenting her research on sustainable energy solutions and advanced materials. She has attended specialized workshops on academic writing, research methodologies, and nanofabrication, strengthening her research and writing skills. Her technical proficiency includes MATLAB, SPSS, C++, JAVA, and handling scientific equipment like UV-Visible Spectrophotometers, FTIR, and Cyclic Voltametric Systems. With three years of undergraduate teaching experience in subjects such as Optics, Digital Logic, and Solid-State Physics, she combines research knowledge with effective pedagogy. Pushpanjali is known for her team spirit, dedication, and leadership qualities. Her commitment to advancing physics and materials science reflects in her aim to contribute meaningfully to academic research and sustainable energy technology development.

Profile: Scopus

Featured Publications

  1. Singh, P., Sharma, A. K., & Kumar, P. (2025). Phase, porosity, and conductivity analysis of RbH₂PO₄/CeP₂O₇ nanocomposites. Ionics, 31, 2291–2301.

  2. Singh, P., Sharma, A. K., Kumar, P., Veer, D., Kumar, D., Singh, D., & Katiyar, R. S. (2024). Role of pyrophosphate source for improving proton conductivity and stability of sodium dihydrogen phosphate. Russian Journal of Inorganic Chemistry.

  3. Singh, P., Sharma, A. K., & Kumar, P. (2024). Review of the literature on the thermal stability and conductivity of solid acid fuel cells. Macromolecular Symposia, 413(5).

  1. Singh, P., Sharma, A. K., & Kumar, P. (2025). X-ray photoelectron spectroscopy study of NaH₂PO₄/CeP₂O₇ powder electrolyte. Powder Materials Science Letters, 4, 161–169.

Xiansong Shi | Chemical Engineering | Young Scientist Award

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Dr. Xiansong Shi | Chemical Engineering | Young Scientist Award

National University of Singapore | Singapore

Dr. Shi Xiansong is an accomplished chemical engineer and researcher specializing in the design and synthesis of advanced membranes using covalent organic frameworks (COFs) and metal-organic frameworks (MOFs). He earned his Ph.D. in Chemical Engineering from Nanjing Tech University, China, where his research focused on developing innovative membrane technologies for molecular separation. After completing his doctorate, Dr. Shi conducted postdoctoral research at Nanjing Tech University, where he contributed to the development of high-performance 3D COF membranes for pharmaceutical purification and organic solvent nanofiltration. Currently, he is a Research Fellow at the National University of Singapore, concentrating on structurally oriented 2D COF membranes for precise molecular sieving and topologically defective MOF membranes for enhanced separation applications. Dr. Shi’s research is highly interdisciplinary, integrating materials chemistry, chemical engineering, and nanotechnology. His work addresses critical industrial challenges, including water purification, pharmaceutical refining, organic solvent recycling, and energy storage, providing sustainable solutions that enhance industrial efficiency and reduce environmental impact. His academic output includes 52 SCI-indexed publications, with 26 as first or corresponding author in prestigious journals such as Nature Chemical Engineering, Journal of the American Chemical Society, Angewandte Chemie International Edition, and ACS Nano. Additionally, he has contributed to 8 patent applications and serves as a peer reviewer for top-tier journals like Nature and Advanced Materials. His impactful contributions have been recognized through awards such as the Best Researcher Award in Research Chemistry and the Innovation Team distinction by the China Petroleum and Chemical Industry Federation. Dr. Shi actively engages in international conferences, having chaired sessions and presented pioneering research. With a total of 2,044 citations across 1,461 documents and an h-index of 26, Dr. Shi remains a leading figure in membrane science, driving the development of advanced molecular separation technologies and promoting sustainable practices in chemical engineering and materials science.

Profile: Scopus

Featured Publications

  1. Wei, M., Sun, W., Shi, X., Wang, Z., & Wang, Y. (2016). Homoporous membranes with tailored pores by soaking block copolymer/homopolymer blends in selective solvents: Dissolution versus swelling. Macromolecules, 49, 215–223.

  2. Shi, X., Wang, Z., & Wang, Y. (2017). Highly permeable nanoporous block copolymer membranes by machinecasting on nonwoven supports: An upscalable route. Journal of Membrane Science, 533, 201–209.

  1. Shi, X., Xu, Z., Huang, C., Wang, Y., & Cui, Z. (2018). Selective swelling of electrospun block copolymers: From perforated nanofibers to high flux and responsive ultrafiltration membranes. Macromolecules, 51, 2283–2292.

  2. Wang, R., Shi, X., Xiao, A., Zhou, W., & Wang, Y. (2018). Interfacial polymerization of covalent organic frameworks (COFs) on polymeric substrates for molecular separations. Journal of Membrane Science, 566, 197–204.

  3. Shi, X., Wang, R., Xiao, A., Jia, T., Sun, S., & Wang, Y. (2018). Layer-by-layer synthesis of covalent organic frameworks on porous substrates for fast molecular separations. ACS Applied Nano Materials, 1, 6320–6326.

 

Sanam Saleem | Computational Physics | Best Researcher Award

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Ms. Sanam Saleem | Computational Physics | Best Researcher Award

Lecturer | University of Agriculture Faisalabad | Pakistan

Ms. Sanam Saleem is a dedicated physicist and researcher affiliated with the University of Agriculture Faisalabad, Pakistan, where she manages the Spin Opto-electronics Ferro-Thermoelectric (SOFT) Materials and Devices Lab. Over her academic career, she has contributed extensively to teaching and research mentorship as a university teaching assistant and physics lecturer. Her educational achievements include a Ph.D. in Physics with an excellent GPA, an M.Phil. focusing on the electronic, optical, magnetic, and structural properties of vanadium-doped SrTiO₃, and a Bachelor’s degree in Physics, reflecting consistent academic excellence. Her research spans computational and experimental physics, emphasizing Density Functional Theory studies, spintronic and thermoelectric materials, and the optoelectronic and magnetic properties of binary and perovskite compounds. She has authored numerous international publications, investigating vanadium-doped SrTiO₃, Mn-doped BaS, PbSe alloys, and other advanced functional materials. Additionally, she has co-edited several scientific abstracts and book chapters on electromagnetic and plasmonic surface waves, chiral carbon dots, and graphene-based devices, demonstrating a multidisciplinary approach. Sanam actively participates in conferences, seminars, and workshops on materials science, nanotechnology, and renewable energy. She also organizes academic and cultural events, serves on committees for examinations, student tutorials, hall management, and public relations, and is proficient in scientific software including Origion, Wein2k, Xmgrace, and Microsoft Office. With 25 publications cited 134 times across 80 documents and an h-index of 7, Sanam’s dedication to research, education, and mentorship establishes her as a prominent young scientist advancing knowledge in spintronic, optoelectronic, and thermoelectric technologies.

Profile: Scopus

Featured Publications

  1. Hussain, S., Ishfaq, M., Aldaghfag, S. A., Saleem, S., Yaseen, M., & Haider, A. (2025). Modified Becke-Johnson potential calculations of Co-substituted MgS alloys for spintronic and optoelectronic applications. Physica B: Condensed Matter, 417635.

  2. Ishfaq, M., Arshad, M., Aldaghfag, S. A., Yaseen, M., Saleem, S., & Raza, J. (2025). Thermoelectric, optoelectronic and magnetic characteristics of Mn-modified SrSe for spintronic and energy harvesting applications. Physica B: Condensed Matter, 417199.

  3. Saleem, S., Parveen, U., AL-Ghamdi, H., Yaseen, M., Sajjad, I., & Asarullah, N. (2025). Half-metallicity and structural properties of low-concentration Fe-doped SrS alloys: A first-principles study. Chalcogenide Letters, 22(3), 223–237.

  4. Latif, F., Saleem, S., Aldaghfag, S. A., & Yaseen, M. (2025). Investigation of thermoelectric and optoelectronic features of Sr1-xMnxTe in ferromagnetic phase. Physica B: Condensed Matter, 700, 416946.

  5. Aldaghfag, S. A., Ishfaq, M., Saleem, S., Yaseen, M., Zahid, M., & Shaheen, M. (2023). Insight into electronic, magnetic and optical properties of KMnxNb1-xO3 compound. Digest Journal of Nanomaterials & Biostructures (DJNB), 18(4).