Prof. Saad Aljlil | Engineering | Best Researcher Award

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Prof. Saad Aljlil | Engineering | Best Researcher Award

Prof. Saad Aljlil | Chief Researcher | King Abdulaziz City for Science and Technology | Saudi Arabia

Prof. Saad A. Aljlil is a distinguished research professor at the King Abdulaziz City for Science and Technology (KACST), Saudi Arabia, specializing in sustainability, membrane technology, and water and environmental engineering. His research focuses on advanced desalination and water treatment technologies, wastewater purification, membrane synthesis, adsorption processes, and the integration of renewable energy systems for sustainable water management. Prof. Aljlil has made significant contributions to developing ceramic and polymeric membranes, nanocomposite materials, and hybrid desalination systems that enhance water purification efficiency while minimizing environmental impact. His work extends to smart water networks, solar-driven desalination, greywater reuse, and innovative applications of artificial intelligence in membrane distillation and water resource optimization. A highly cited researcher, Prof. Aljlil has achieved 1,079 citations in Scopus across 44 documents with an h-index of 19, and 1,397 citations on Google Scholar with an h-index of 20 and i10-index of 23. His interdisciplinary approach bridges chemical engineering, nanotechnology, and sustainability to address critical challenges in clean water access and environmental preservation.

Publication Profile

Scopus | ORCID | Google Scholar

Featured Publications

Ali, A., Macedonio, F., Drioli, E., Aljlil, S. A., & Alharbi, O. A. (2013). Experimental and theoretical evaluation of temperature polarization phenomenon in direct contact membrane distillation. Chemical Engineering Research and Design, 91(10), 1966–1977.

Quist-Jensen, C. A., Macedonio, F., Conidi, C., Cassano, A., Aljlil, S. A., Alharbi, O. A., & Drioli, E. (2016). Direct contact membrane distillation for the concentration of clarified orange juice. Journal of Food Engineering, 187, 37–43.

Fontananova, E., Bahattab, M. A., Aljlil, S. A., Alowairdy, M., Rinaldi, G., Vuono, D., & Drioli, E. (2015). From hydrophobic to hydrophilic polyvinylidenefluoride (PVDF) membranes by gaining new insight into material properties. RSC Advances, 5(69), 56219–56231.

Park, C. H., Tocci, E., Fontananova, E., Bahattab, M. A., Aljlil, S. A., & Drioli, E. (2016). Mixed matrix membranes containing functionalized multiwalled carbon nanotubes: Mesoscale simulation and experimental approach for optimizing dispersion. Journal of Membrane Science, 514, 195–209.

Sedighi, M., Aljlil, S. A., Alsubei, M. D., Ghasemi, M., & Mohammadi, M. (2018). Performance optimisation of microbial fuel cell for wastewater treatment and sustainable clean energy generation using response surface methodology. Alexandria Engineering Journal, 57(4), 4243–4253.

 

Assist. Prof. Dr. Mehtab Alam | Artificial Intelligence | Best Researcher Award

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Assist. Prof. Dr. Mehtab Alam | Artificial Intelligence | Best Researcher Award

Assist. Prof. Dr. Mehtab Alam |Assistant Professor | Delhi University | India

Dr. Mehtab Alam is an accomplished IT professional and academic specializing in Artificial Intelligence (AI), Internet of Things (IoT), Cyber Forensics, and Information Security. His research primarily focuses on developing AI-based smart IoT frameworks for intelligent healthcare systems, with a strong emphasis on predictive modeling, machine learning integration, and cloud-based data analytics. His scholarly contributions demonstrate a multidisciplinary approach combining computer science, data-driven healthcare innovation, and digital transformation. He has explored diverse research areas including smart city technologies, blockchain applications in e-governance, cybersecurity frameworks, and the application of swarm intelligence in network optimization. Dr. Alam has published extensively in reputed international journals and conferences, contributing to advancements in AI-driven sustainable systems and smart healthcare solutions. His works reflect technical depth and practical applicability, addressing modern challenges in digital infrastructure, public health informatics, and secure communication systems. He has authored 15 Scopus-indexed publications, with 30 Scopus citations and an h-index of 4. On Google Scholar, his research has received 256 citations with an h-index of 10 and an i10-index of 11, showcasing his growing academic influence.

Publication Profile

Scopus | ORCID | Google Scholar

Featured Publications

Alam, M., Khan, E. R., Alam, A., Siddiqui, F., & Tanweer, S. (2023). The DIABACARE CLOUD: Predicting diabetes using machine learning. Acta Scientiarum Technology, 46(1).

Alam, M., Khan, I. R., Alam, A., Siddiqui, F., & Tanweer, S. (2023). Smart healthcare: Making medicine intelligent. Journal of Propulsion Technology, 44(3).

Alam, M., Khan, R., Alam, A., Siddiqui, F., & Tanweer, S. (2023). AI for sustainable smart city healthcare. China Petroleum Processing and Petrochemical Technology Catalyst Research, 23(2), 2245–2258.

Ansari, A. A., Narain, L., Prasad, S. N., & Alam, M. (2022). Behaviour of motion of infinitesimal variable mass oblate body in the generalized perturbed circular restricted three-body problem. Italian Journal of Pure and Applied Mathematics, 47, 221–239.

Alam, M., Parveen, S. (2021). Shipment delivery and COVID-19: An Indian context. International Journal of Advanced Engineering Research and Science, 8(8), 145–154.

Mr. Jing Zhang | Biomedical Signal Processing | Best Researcher Award

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Mr. Jing Zhang | Biomedical Signal Processing | Best Researcher Award

Mr. Jing Zhang | lecturer | Taiyuan University of Science and Technology | China

Jing Zhang is a dedicated researcher and lecturer at the School of Electronic Information Engineering, Taiyuan University of Science and Technology, China. His research primarily focuses on signal processing, emotion recognition, and video coding and transmission, with a strong interdisciplinary approach bridging neuroscience, artificial intelligence, and communication systems. His innovative work in multimodal neural signal analysis leverages EEG and fNIRS data to explore causal brain connectivity and emotional decoding. By integrating Granger causality with deep learning architectures such as convolutional and graph convolutional networks, as well as attention mechanisms, his research contributes significantly to affective computing and brain–computer interface (BCI) applications. Dr. Zhang has published several high-impact papers in reputed international journals indexed in SCI and Scopus, with over 75 citations and an h-index of 6 on Google Scholar, reflecting the growing influence and recognition of his work in the scientific community. His research outcomes demonstrate both theoretical and practical implications for advancing emotion-aware technologies, neuroadaptive systems, and hybrid video transmission models. His scholarly contributions include publications in prestigious journals such as IEEE Transactions on Circuits and Systems for Video Technology and Frontiers in Neuroscience.

Featured Publications 

Zhang, J., Zhang, X., Chen, G., Huang, L., & Sun, Y. (2022). EEG emotion recognition based on cross-frequency Granger causality feature extraction and fusion in the left and right hemispheres. Frontiers in Neuroscience, 16, 974673.

Zhang, J., Wang, A., Liang, J., Wang, H., Li, S., & Zhang, X. (2018). Distortion estimation-based adaptive power allocation for hybrid digital–analog video transmission. IEEE Transactions on Circuits and Systems for Video Technology, 29(6), 1806–1818.

Zhang, J., Zhang, X., Chen, G., & Zhao, Q. (2022). Granger-causality-based multi-frequency band EEG graph feature extraction and fusion for emotion recognition. Brain Sciences, 12(12), 1649.

Chen, G., Zhang, X., Zhang, J., Li, F., & Duan, S. (2022). A novel brain-computer interface based on audio-assisted visual evoked EEG and spatial-temporal attention CNN. Frontiers in Neurorobotics, 16, 995552.

Li, P., Yang, F., Zhang, J., Guan, Y., Wang, A., & Liang, J. (2020). Synthesis-distortion-aware hybrid digital analog transmission for 3D videos. IEEE Access, 8, 85128–85139.

Mr. Chandan Sheikder | Bio-Robotics | Best Researcher Award

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Mr. Chandan Sheikder | Bio-Robotics | Best Researcher Award

Mr. Chandan Sheikder | Beijing Institute of Technology | China

Mr. Chandan Sheikder is an emerging researcher in the interdisciplinary domains of bio-robotics, animal navigation, medical robotics, and calcium imaging. His current research explores bio-inspired and neuromorphic frameworks for autonomous robot navigation in complex and GPS-denied environments, focusing on sensor fusion, swarm intelligence, and adaptive control algorithms. He integrates mechanical engineering principles with artificial intelligence and neuroscience-inspired mechanisms to develop robust robotic systems capable of navigating dynamic and uncertain conditions. His research extends to assistive and medical robotics, particularly in designing intelligent systems for human–robot interaction and healthcare applications. He has also contributed to aerospace technology research, applying soft computing and physiological sensing techniques to enhance cognitive workload assessment and performance reliability. Mr. Sheikder’s innovative work has resulted in several peer-reviewed publications in high-impact journals such as Nature Reviews Bioengineering, Sensors, and Trends in Biotechnology. His research outputs demonstrate a strong emphasis on hybrid intelligence, ethical AI, and cross-domain applications of robotics in space exploration and medical systems. He holds one pending Chinese patent on bio-inspired fusion navigation frameworks and has received notable academic awards, including the IEEE Best Paper Award. According to Google Scholar, he has 6 citations, an h-index of 1, and an i10-index of 0, reflecting his growing scholarly influence. His Scopus and Google Scholar profiles collectively highlight his promising research trajectory in advancing next-generation robotic autonomy and bio-inspired engineering systems.

Publication Profile

Scopus | ORCID | Google Scholar

Featured Publications 

Sheikder, C., Zhang, W., Chen, X., Li, F., He, X., Zuo, Z., Tan, X., & Liu, Y. (2025). Bio-inspired navigation systems for robots. Nature Reviews Bioengineering, 1–2.

Sheikder, C., Zhang, W., Chen, X., Li, F., Zuo, Z., & Tan, X. (2025). Marine-inspired multimodal sensor fusion and neuromorphic processing for autonomous navigation in unstructured subaquatic environments. Sensors, 25(216627).

Sheikder, C., Zhang, W., Chen, X., Li, F., He, X., Zuo, Z., Tan, X., & Liu, Y. (2025). A novel adaptive framework interconnects four pillars for tethered robots: Integrating fuzzy logic, genetic algorithms, and neural networks for robust dynamic environment navigation. Robotics and Autonomous Systems.

Sheikder, C., Haque, M. M. (2025). Towards the wearable cardiorespiratory sensors for aerospace applications. Journal of Aviation/Aerospace Education & Research, 34(2), 1–15.

Haque, M. M., Sheikder, C., & Djembong, R. (2023). Retroactive about robotics application with artificial intelligence toward the global pandemic scenario. European Journal of Electrical Engineering and Computer Science, 7(2), 34–43.

Assist. Prof. Dr. Manolis Adamakis | Technologies | Best Researcher Award

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Assist. Prof. Dr. Manolis Adamakis | Technologies | Best Researcher Award

Assist. Prof. Dr. Manolis Adamakis | National and Kapodistrian University of Athens | Greece

Dr. Manolis Adamakis is an accomplished Assistant Professor and Researcher specializing in Physical Education, Physical Activity, Health, and Wellbeing. His scholarly work bridges theoretical and experimental perspectives, with strong expertise in new technologies applied to physical activity and in-depth data analysis using both quantitative and qualitative approaches. His research explores the intersections of physical activity, education, mental health, and digital innovation, contributing significantly to European physical education and public health. Dr. Adamakis is recognized for his leadership in designing, validating, and implementing innovative instruments and methodologies that enhance educational practice and research quality. A highly cited researcher, he has authored 32 documents indexed in Scopus, accumulating 440 citations from 412 sources, and holds an h-index of 10. His Google Scholar record reflects 1,025 citations, an h-index of 16, and an i10-index of 22, highlighting his global academic impact. His collaborative work with international teams has advanced knowledge in teacher education, child motor development, and mental well-being through physical activity. Dr. Adamakis’s commitment to interdisciplinary and evidence-based research underlines his contribution to shaping the future of physical education and health promotion.

Publication Profile

Scopus | ORCID | Google Scholar

Featured Publications 

O’Brien, W., Adamakis, M., O’Brien, N., Onofre, M., Martins, J., & Dania, A. (2020). Implications for European physical education teacher education during the COVID-19 pandemic: A cross-institutional SWOT analysis. European Journal of Teacher Education, 43(4), 503–522.

Lopes, L., Santos, R., Coelho-e-Silva, M., Draper, C., Mota, J., Jidovtseff, B., & Adamakis, M. (2021). A narrative review of motor competence in children and adolescents: What we know and what we need to find out. International Journal of Environmental Research and Public Health, 18(1), 18.

Adamakis, M., & Zounhia, K. (2016). The impact of occupational socialization on physical education pre-service teachers’ beliefs about four important curricular outcomes: A cross-sectional study. European Physical Education Review, 22(3), 279–297.

Rocliffe, P., Adamakis, M., O’Keeffe, B. T., Walsh, L., & Bannon, A. (2024). The impact of school physical activity provision on adolescent mental health and well-being: A systematic literature review. Adolescent Research Review, 9(2), 339–364.

Wälti, M., Sallen, J., Adamakis, M., Ennigkeit, F., & Gerlach, E. (2022). Basic motor competencies of 6-to-8-year-old primary school children in 10 European countries: A cross-sectional study. Frontiers in Psychology, 13, 804753.*

Dr. Xiaofeng Liu | Wireless Communication | Best Researcher Award

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Dr. Xiaofeng Liu | Wireless Communication | Best Researcher Award

Dr. Xiaofeng Liu | Lecture | Yancheng Teachers University | China

Dr. Xiaofeng Liu is a dedicated researcher and lecturer in Artificial Intelligence with a strong background in wireless communications, machine learning, and statistical inference. His research primarily focuses on developing advanced algorithms for massive MIMO systems, channel estimation, and machine learning-driven communication models. Dr. Liu has significantly contributed to the integration of statistical learning frameworks in communication system design, particularly through innovations like correlated hybrid message passing and generative diffusion models for channel estimation. His collaborative work with experts from leading research laboratories has produced high-impact publications in IEEE journals, reflecting both theoretical advancement and practical application in intelligent communication systems. His inventive contributions are further evident in several granted Chinese invention patents related to MIMO positioning, channel modeling, and beamspace communications. Dr. Liu’s research achievements are widely recognized, with his publications indexed in Scopus and Google Scholar, accumulating over 135 citations, an h-index of 6, and an i10-index of 5. His scholarly record demonstrates consistent contributions to next-generation wireless communication technologies, bridging the gap between deep learning models and complex signal processing challenges.

Publication Profile

Google Scholar | ORCID

Featured Publications 

Liu, X., Gong, X., & Fu, X. (2025). Activity detection and channel estimation based on correlated hybrid message passing for grant-free massive random access. Entropy.

Fu, X., Gong, X., Liu, X., Sun, R., Shen, Q., & Gao, X. (2025). Beamspace multi-ACB for mMTC in massive MIMO system. IEEE Transactions on Vehicular Technology.

Gong, X., Liu, X., Lu, A. A., Gao, X., Xia, X. G., Wang, C. X., & You, X. (2025). Digital twin of channel: Diffusion model for sensing-assisted statistical channel state information generation. IEEE Transactions on Wireless Communications.

Gong, X., Lu, A. A., Fu, X., Liu, X., Gao, X., & Xia, X. G. (2023). Semisupervised representation contrastive learning for massive MIMO fingerprint positioning. IEEE Internet of Things Journal.

Liu, X., Wang, W., Gong, X., Fu, X., Gao, X., & Xia, X. G. (2023). Structured hybrid message passing based channel estimation for massive MIMO-OFDM systems. IEEE Transactions on Vehicular Technology.

Mr. Ibra Fall | Computational Fluid Dynamics | Best Researcher Award

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Mr. Ibra Fall | Computational Fluid Dynamics | Best Researcher Award

Mr. Ibra Fall | PhD | National Research Center of Pumps | China

Dr. Fall Ibra is a Senegalese researcher specializing in Power Engineering, Thermo-Physics, and Computational Fluid Dynamics (CFD). His research encompasses applied fluid mechanics, multiphase flow theory, hydraulic design, and numerical simulation of gas–liquid two-phase flow systems. His work focuses on exploring the hydrodynamic mechanisms, energy conversion efficiency, and entropy generation in rotodynamic multiphase pumps and related systems. With a strong background in CFD, population balance modeling, and machine learning applications in fluid dynamics, he integrates computational modeling with experimental data to analyze flow structures, cavitation phenomena, and energy performance under complex multiphase conditions. His contributions extend to deep-sea oil and gas transport, hydraulic stability of pumping systems, and advanced turbulence modeling for gas–liquid interactions. Dr. Ibra has published extensively in high-impact journals such as Physics of Fluids, Alexandria Engineering Journal, Chaos, Solitons and Fractals, and Engineering Applications of Computational Fluid Mechanics. He has also presented his work at international symposiums on cavitation and multiphase flow. According to Scopus, Dr. Fall Ibra has authored 10 documents, cited by 49 other publications, with an h-index of 4. His Google Scholar profile similarly reflects a growing citation record and international research visibility.

Publication Profile

Scopus

Featured Publications

Falla, I., Geng, L., Gao, Y., Appiah, D., Ali, A., & Zhang, D. (2025). Effect of bubble coalescence and breakup on entropy generation in rotodynamic multiphase flow pumps. Physics of Fluids.

Falla, I., Geng, L., Gao, Y., Appiah, D., Ali, A., & Zhang, D. (2025). Numerical investigation of CFD-PBM coupled air–water flow in pipes under varying flow regimes. Alexandria Engineering Journal.

Shah, F., Falla, I., & Zhang, D. (2025). Experimental and CFD evaluation of bubble diameter and turbulence model influence on nonlinear flow dynamics. Chaos, Solitons and Fractals.

Ali, A., Yuan, J., Si, Q., & Falla, I. (2024). Comprehensive analysis of unsteady two-phase flow patterns in multiphase flow models. Engineering Applications of Computational Fluid Mechanics.

Gao, Y., Geng, L., Verdin, P. G., Falla, I., Zhang, R., Tian, Z., & Zhang, D. (2023). Modeling of dual-factor drag correction for bubbly flow under elevated pressures. Chemical Engineering and Technology.

Dr. Fernanda Diaz | Complementary Agriculture | Best Researcher Award

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Dr. Fernanda Diaz | Complementary Agriculture | Best Researcher Award

Dr. Fernanda Diaz | University of Guanajuato | Mexico

Fernanda Díaz Sánchez is a dedicated researcher in agribusiness and natural resource management, focusing on sustainable agricultural systems, rural innovation, and agri-environmental development. With an academic background in agribusiness and a master’s in innovation for natural resource management, she integrates ecological, social, and economic perspectives to enhance rural productivity and biodiversity conservation. Her research emphasizes sustainable models for germplasm production, agricultural diversification, and conservation practices in semi-arid and rural regions of Mexico. Fernanda has made significant contributions to understanding the ecological and socioeconomic dimensions of agricultural resilience, with her work being recognized through awards and academic success stories that highlight her innovative approaches to rural development. Her studies have been published in reputable journals such as Agro-Disculgation and Agroproductivity, reflecting her commitment to advancing agricultural sustainability through interdisciplinary collaboration. Fernanda actively participates in national and international conferences, presenting research on agri-food competitiveness, rural business models, and ecosystem-based management strategies. Her scholarly impact continues to grow, with publications indexed in Scopus and Google Scholar, supported by citations that underline the relevance of her work in sustainable agriculture and agribusiness management. She currently holds an h-index of 3 on Scopus and 5 on Google Scholar, demonstrating early-career influence in her field.

Publication Profile

ORCID

Featured Publication 

Díaz Sánchez, F., Cadena Iñiguez, J., Ruiz Vera, V. M., Barrera Guzmán, L. A., Cadena Zamudio, J. D., & Silos Espino, H. (2024). Conservation and production of Opuntia spp. under a complementary agricultural scheme in the Mexican highlands. Agro-Disculgation, 4(5).

Dr. Ohad Gluck | Gynecology | Best Researcher Award

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Dr. Ohad Gluck | Gynecology | Best Researcher Award

Dr. Ohad Gluck | Senior OBGYN | Wolfson Medical Center | Israel

Dr. Ohad Gluck, MD, is a distinguished clinician-scientist specializing in obstetrics and gynecology, with significant contributions to women’s health, maternal care, and reproductive surgery. His research primarily focuses on optimizing surgical outcomes, improving maternal-fetal safety, and advancing gynecological practices through evidence-based interventions. Dr. Gluck’s studies have explored key areas such as the impact of anesthesia on postoperative pain management, assessment of visual blood loss during cesarean deliveries, and reproductive outcomes following salpingectomy and tubal ligation. His work demonstrates a balance between clinical innovation and patient-centered care, often addressing real-world challenges in obstetric and gynecologic surgery. He has collaborated extensively with international experts and has contributed to several high-impact journals, including Human Reproduction, American Journal of Obstetrics and Gynecology, and Journal of Minimally Invasive Gynecology. His scientific influence is reflected in over 492 Scopus citations across 55 publications, with an h-index of 14, demonstrating consistent scholarly impact. On Google Scholar, his citation record continues to grow, emphasizing his ongoing relevance in the global research community.

Publication Profile

Scopus | ORCID

Featured Publications 

Gluck, O., Mizrachi, Y., Ginath, S., Bar, J., & Sagiv, R. (2017). Obstetrical outcomes of emergency compared with elective cervical cerclage. Journal of Maternal-Fetal & Neonatal Medicine, 30(14), 1650–1654.

Ganer Herman, H., Gluck, O., Keidar, R., Kerner, R., Kovo, M., Levran, D., Bar, J., & Sagiv, R. (2017). Ovarian reserve following cesarean section with salpingectomy vs tubal ligation: A randomized trial. American Journal of Obstetrics and Gynecology, 217(4), 472.e1–472.e6.

Mizrachi, Y., Dekalo, A., Gluck, O., Miremberg, H., Dafna, L., Feldstein, O., Weiner, E., Bar, J., & Sagiv, R. (2017). Single versus repeat doses of misoprostol for treatment of early pregnancy loss—a randomized clinical trial. Human Reproduction, 32(6), 1202–1207.

Weiner, E., Gluck, O., Levy, M., Ram, M., Divon, M., Bar, J., & Kovo, M. (2016). Obstetric and neonatal outcome following minor trauma in pregnancy: Is hospitalization warranted? European Journal of Obstetrics & Gynecology and Reproductive Biology, 203, 78–81.

Gluck, O., Mizrachi, Y., Bar, J., & Barda, G. (2018). The impact of advanced maternal age on the outcome of twin pregnancies. Archives of Gynecology and Obstetrics, 297(4), 891–895.*

Mr. Hafiz Muhammad Rehan Tariq | Metallurgy | Best Academic Researcher Award

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Mr. Hafiz Muhammad Rehan Tariq | Metallurgy | Best Academic Researcher Award

Mr. Hafiz Muhammad Rehan Tariq | PhD Candidate | Incheon National University | South Korea

Hafiz Muhammad Rehan Tariq is an emerging materials scientist and mechanical engineer specializing in mechanical metallurgy, deformation behavior, and microstructural evolution of lightweight metals, particularly magnesium and its alloys. His research focuses on understanding the fundamental deformation mechanisms under extreme environmental and thermomechanical conditions using advanced microscopy, diffraction, and analytical techniques. He aims to develop high-performance, lightweight material systems with improved strength, ductility, and corrosion resistance for next-generation engineering applications. His expertise spans cryogenic and high-temperature mechanical testing, texture control, recrystallization, and alloy design strategies to enhance the formability and mechanical efficiency of metallic materials. He has contributed significantly to the fields of materials characterization and thermo-mechanical processing through publications in high-impact journals. His scholarly impact is reflected by Scopus (145 citations, 19 documents, h-index 7) and Google Scholar (250 citations, h-index 10, i10-index 11), demonstrating growing recognition in the international research community. He also serves as a peer reviewer for Springer Nature’s Journal of Materials Science.

Publication Profile

Scopus | ORCID | Google Scholar

Featured Publications 

Kannan, A. R., Tariq, H. M. R., Ishtiaq, M., Baek, H. S., Chaudry, U. M., & Jun, T. S. (2025). Impact of post-annealing treatment on the microstructure, recrystallization, and mechanical behavior of hot-rolled Mg-Al-Zn-Ca alloy. Materials.

Tariq, H. M. R., Chaudry, U. M., Asif, Z., Niaz, S., Farooq, A., Dong, H. B., & Jun, T. S. (2025). Investigating the role of Al2Ca particles in the corrosion behavior of AZX311 Mg alloy in chloride and sulfate electrolytes. Electrochimica Acta.

Tariq, H. M. R., Chaudry, U. M., Lee, J. R., Ansari, N., Ali, M., & Jun, T. S. (2025). Tensile failure mode transitions from subzero to elevated deformation temperature in Mg-6Al-1Zn alloy. International Journal of Minerals, Metallurgy and Materials.

Tariq, H. M. R., Kang, H. H., Chaudry, U. M., Khan, M. K., & Jun, T. S. (2025). Impact of surface roughness on the yield drop of hot-rolled AZX311 Mg alloy. Advanced Engineering Materials.

Tariq, H. M. R., Chaudry, U. M., Ishtiaq, M., Kim, M., Ali, M., & Jun, T. S. (2024). Effect of Al addition on the room and cryogenic temperature deformation of Mg-xAl-1Zn-1Ca alloy (x = 2, 3 wt.%). Journal of Magnesium and Alloys.