Ana M. Gonzalez Ramos | Gender and Health | Best Researcher Award

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Dr. Ana M. Gonzalez Ramos | Gender and Health | Best Researcher Award

Instituto de Estudios Sociales Avanzados – Consejo Superior de Investigaciones Científicas | Spain

Dr. Ana M. Gonzalez Ramos is an accomplished sociologist whose research illuminates the intersections of gender, technology, health, and professional careers within contemporary societies. Her work integrates gender studies with socio-technology, examining how digital environments, biomedical frameworks, workplace structures, and mobility patterns shape the experiences and well-being of diverse populations. She has led and contributed to influential research on sex and gender perspectives in clinical practice, inequalities in health systems, digital culture, feminist technoscience, and gendered transformations in labour markets and academia. An active contributor to international projects, she has advanced knowledge on social determinants of health, psychosocial risks in academic institutions, feminist digital activism, and the implications of technological change for equality. Her scholarship includes a substantial body of publications in high-impact journals and multiple contributions to books addressing gender, leadership, social research methodologies, and contemporary social challenges. She has supervised doctoral research on gender, ICT, care practices, and women’s empowerment, strengthening the next generation of feminist scholarship. Her professional experience includes leadership roles in scientific associations, editorial responsibilities in respected sociology journals, and participation in expert committees shaping the field of gender studies. Through interdisciplinary collaborations, research leadership, and public engagement, she has contributed to advancing equitable scientific practices, enriching sociological theory, and informing policies aimed at reducing gendered inequalities in health, technology, and knowledge production.

Profiles: Scopus | Orcid

Featured Publications

González Ramos, A. M., Serrano del Rosal, R., & Padrón, A. G. (2025). Gender regimes influences on social perception of pain and illness among European citizens. European Sociological Association, Research Network 16 Sociology of Health & Medicine Mid-Term Conference: Health in the Anthropocene: Sociological Analysis, Reflections, and Implications.

González Ramos, A. M., Benazizi, I., & Toledo, A. (2025). Women in biomedical model: The case of the instruments of diagnosis and recommendations (CPG, Clinical Practice Guidelines). European Sociological Association, Research Network 16 Sociology of Health & Medicine Mid-Term Conference: Health in the Anthropocene: Sociological Analysis, Reflections, and Implications.

González Ramos, A. M. (2025). La cultura de la pornografía: del castillo a la pantalla. In La pornografía, un problema social global: Didáctica feminista (ISBN 978-84-1079-009-4). C.S.I.C.

Padrón Armas, A., González Ramos, A., & Serrano-del-Rosal, R. (2025). Understanding health and pain through the gender regime: A multilevel framework from a sociological view. Social Sciences, 14(11), Article 636.

González Ramos, A. M., Gavín Benavent, P., & Isern de Val, S. (2025). La incorporación de la perspectiva de sexo y género en las guías de práctica clínica. Revista Española de Salud Pública.

Congmian Zhen | Physics | Best Researcher Award

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Prof. Congmian Zhen | Physics | Best Researcher Award

College of Physics Hebei Normal University | China

Prof. Congmian Zhen is a physicist specializing in magnetic and electrical materials, with a strong research focus on complex magnetism in transition-metal oxides. Her work explores the mechanisms governing magnetic interactions, orbital ordering, magnetic anisotropy, magnetocrystalline anisotropy, and the emergence of intrinsic and topological Hall effects driven by non-coplanar magnetic structures. She has developed extensive expertise in epitaxial thin films, spinel oxides, and nanostructured functional materials, contributing significantly to the understanding of structure–property relationships in systems such as NiCo₂O₄, CoV₂O₄, MnCo₂O₄, and FeCo₂O₄. Her earlier research includes impactful studies on ohmic contacts for wide-bandgap semiconductors, low-dielectric-constant nanoporous materials, and multilayer magnetic films for high-density recording technologies. Over her career, she has produced a substantial body of publications in high-quality journals, demonstrating her leadership in investigating magnetic phase transitions, strain-induced anisotropy, electronic transport behavior, metal–insulator transitions, cation inversion, and defect-driven electronic states. Her research group has revealed important insights into how microstructure, synthesis conditions, and epitaxial strain modulate magnetic, electrical, and optical properties, providing pathways for designing next-generation spintronic and multifunctional materials. She has also collaborated internationally as a visiting scholar, enhancing global academic exchange and contributing to advanced experimental and theoretical studies in condensed-matter physics. Alongside her research, she has experience teaching core physics courses and guiding experimental training, reinforcing her commitment to both scientific discovery and academic mentorship.

Profile: Scopus

Featured Publications

Zhen, C., Zhang, X., Wei, W., Guo, W., Pant, A., Xu, X., Shen, J., Ma, L., & Hou, D. (2018). Nanostructural origin of semiconductivity and large magnetoresistance in epitaxial NiCo₂O₄/Al₂O₃ thin films. Journal of Physics D: Applied Physics, 51(14), 145308.

Zhen, C., Zhang, X., Wei, W., Guo, W., Pant, A., Xu, X., Shen, J., Ma, L., & Hou, D. (2017). Absence of Metallic Behavior in Epitaxial NiCo₂O₄ Thin Films: Role of Microstructural Disorder [Preprint]. arXiv.

Zhen, C., Liu, L., Lu, J., Feng, J., Hou, D., & others. (2025). Effect of trigonal distortion induced by strain on the perpendicular magnetic anisotropy of CoV₂O₄. Applied Physics Letters, 127(7), 072401.

Li, X., Zhen, C., Liu, X., … & Hou, D. (2025). Effect of Jahn–Teller distortion on magnetic anisotropy of Co-doped NiFe₂O₄. Journal, Volume(Issue), pages.

Zhao, M., Guo, W., Wu, X., Ma, L., Song, P., Li, G., Zhen, C., Zhao, D., & Hou, D. (2023). Zero-field-cooling exchange bias up to room temperature in the strained kagome antiferromagnet Mn₃.₁Sn₀.₉. Materials Horizons, 10, 4597–4608.

Jayateertha Diwan | Genetics | Best Researcher Award

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Prof. Dr. Jayateertha Diwan | Genetics | Best Researcher Award

University of Agricultural Sciences, Dharwad, Karnataka | India

Prof. Dr. Jayateertha Diwan is a distinguished agricultural scientist recognized for his extensive contributions to plant breeding, genetics, and crop improvement, with a strong focus on rice and other major field crops. His research integrates classical breeding, molecular biology, and biotechnology to enhance crop performance, develop stress-tolerant varieties, and improve resource-use efficiency. He has led and contributed to innovative studies on early vigor traits, yield-enhancing QTLs, nutrient-use efficiency, salinity tolerance, and direct-seeded rice systems, employing advanced tools such as SSR markers, MAS, genomic resources, and next-generation sequencing. His work spans germplasm characterization, multi-location trials, A/B/R line development, trait-specific molecular analysis, and breeding strategy design aligned with farmer and market needs. Professionally, he has held progressive leadership roles involving teaching, research, extension, academic management, and guidance of postgraduate and doctoral scholars across plant breeding, molecular breeding, crop genomics, and biotechnology. His experience also includes collaborative research in national and international programs, participation in multi-institutional projects, and contributions to genome sequencing initiatives involving wild rice and microbial species. He has served as a breeder, scheme head, research project investigator, and expert trainer in various advanced workshops and capacity-building programs, contributing to the scientific community through high-impact publications, project leadership, academic services, and active involvement in research on integrated farming systems, stress physiology, molecular diagnostics, and precision crop improvement. His professional journey reflects a deep commitment to advancing agricultural science, improving crop productivity, and translating research innovations for sustainable farming and societal benefit.

Profiles: Scopus | Orcid

Featured Publications

Diwan, J. R., Mahadevaswamy,., Patil, S., Bhanu, D., Devi, K. L., Hegde, S. N., Krishnaraj, P. U., Namitha, R., Pradhan, B. B., & Vashisht, D. (2025). Genome characterization of Acinetobacter species from the rice rhizosphere: A potential plant growth promoting rhizobacteria (PGPR). Current Genetics.

Kavyashree, N. M., Diwan, J. R., Mahantashivayogayya, K., Lokesha, R., & Naik, N. M. (2022). Micro-morphological diversity of rice (Oryza sativa L.) as seen under foldscope. Environment Conservation Journal.

Kariyanna, B., Prabhuraj, A., Mohan, M., Bheemanna, M., Kalmath, B., Pampanna, Y., & Diwan, J. R. (2020). Insecticide usage pattern and evolution of resistance in eggplant shoot and fruit borer, Leucinodes orbonalis Guenée (Lepidoptera: Crambidae) in India. Plant Archives. (EID: 2-s2.0-85090445715)

Umar Farooq, M. S., Diwan, J. R., Mahantashivayogayya, K., Kulkarni, V. V., & Shakuntala, N. M. (2019). Genetic evaluation of rice (Oryza sativa L.) genotypes for yield and nutritional quality traits. Journal of Experimental Biology and Agricultural Sciences, 7(2), 117–127.

Muniswamy, S., Lokesha, R., Yamanura, R., Ramesh,., & Diwan, J. R. (2017). Stability for disease, genotype × environment interaction for yield and its components in pigeonpea [Cajanus cajan (L.) Millsp.]. Legume Research.

Jinming Liang | Engineering | Best Researcher Award

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Mr. Jinming Liang | Engineering | Best Researcher Award

Nanjing University of Aeronautics and Astronautics | China

Mr. Jinming Liang is a dynamic early-career researcher whose work spans electrical impedance tomography, liquid–liquid phase separation, electrochemical impedance spectroscopy, and deep learning for biomedical sensing. His research focuses on developing innovative microscale and portable impedance-based diagnostic systems that enable real-time, high-resolution analysis of cellular behaviors and fluid phase transitions. He has contributed to the advancement of impedance technologies by designing systems capable of accurately monitoring biophysical processes, integrating microfabricated sensors with computational models, and exploring data-driven approaches for improved interpretation of complex impedance signals. His publications include studies on real-time phase separation analysis using electrochemical impedance methods and microscale impedance tomography techniques for detecting cell phase separation, highlighting his ability to translate engineering principles into practical tools for life-science applications. His broader scientific contributions also include work on summarizing progress in phase-separation detection methods as well as participation in patentable innovations related to microscale cell detection and imaging solutions. Through his interdisciplinary expertise, he aims to push the frontier of biomedical instrumentation by creating more compact, intelligent, and accessible sensing platforms that support early diagnosis, mechanistic studies, and precision medicine.

Profile: Orcid

Featured Publications

Liang, J., Zhao, W., Liu, K., Sun, B., Zhu, C., & Yao, J. (2025). Real-time analysis of liquid–liquid phase separation with electrochemical impedance spectroscopy. Microchemical Journal, 116076.

Liang, J., Gao, B., Liu, K., Chai, X., Ji, J., Sun, B., & Yao, J. (2025). Microscale electrical impedance tomography method for cell phase separation detection. IEEE Nanotechnology Magazine.

Ismail Esen | Mechanics | Best Researcher Award

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Prof. Ismail Esen | Mechanics | Best Researcher Award

Academician | Karabuk University | Turkey

Prof. Ismail Esen is a distinguished scholar in mechanical engineering whose research focuses on structural dynamics, machine theory, vibration analysis, advanced materials, and computational modeling using the finite element method. His work spans the dynamic behavior of mechanical systems, structural responses under moving loads, vibration control in engineering applications, and performance optimization of mechanical components. He has made significant contributions to rail systems engineering, including wheel–rail interaction modeling, dynamic analysis of rail vehicles, and noise mitigation in high-speed and urban transportation systems. His expertise extends to the mechanical and tribological behavior of metal alloys and composite materials, including studies on wear, corrosion, reinforcement effects, microstructural properties, and machinability of advanced alloys and hybrid composites. Prof. Esen has supervised numerous graduate theses covering topics such as drilling mechanics, welding strength, solar energy systems, composite material behavior, aerodynamic analyses, and design optimization for engineering applications. He has also contributed to research on vibration reduction in household appliances, optimization of rolling processes, and dynamic modeling of automotive and railway components. His participation in national and international projects includes work on advanced sensors, nanoscale structural behavior, energy absorption systems, vibration modeling, turbine blade optimization, and the development of domestic production technologies for critical engineering components. Through his extensive research, mentorship, and project leadership, he has played a key role in advancing mechanical engineering knowledge and supporting innovations in materials, manufacturing, transportation, and dynamic system analysis.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Esen, İ. (2100). Experimental investigation of the effect of process parameters on springback behavior of SCGADUB1180 high strength sheet. Pamukkale University Journal of Engineering Sciences.

Das, T., Ozdemir, M. T., & Esen, I. (2025). The effect of hexachiral auxetic metamaterial on the thermomechanical vibration response of doubly-curved sandwich nanoplates with foam FGM face layers. ZAMM – Journal of Applied Mathematics and Mechanics.

Ozalp, A. F., & Esen, I. (2025). Wave dispersion analysis with FGM face layers and GPL-reinforced metallic foam core thermally loaded sandwich nanoplate using NSGT. Archive of Applied Mechanics.

Ozalp, A. F., & Esen, I. (2025). Vibration analysis of a hexachiral core and composite sandwich nanoplate resting on Pasternak foundation under magnetic thermal conditions. Acta Mechanica.

Ertenli, M. F., & Esen, I. (2025). Investigation of the thermomechanical buckling characteristics in auxetic sandwich dome structures featuring metal–ceramic composite face layers. Mechanics Based Design of Structures and Machines.

Mohammad Reza Anani Sarab | Language | Best Researcher Award

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Dr. Mohammad Reza Anani Sarab | Language | Best Researcher Award

Faculty Member | Shahid Beheshti University | Iran

Dr. Mohammad Reza Anani Sarab is a distinguished scholar in applied linguistics and TESOL, recognized for his extensive contributions to language education, teacher development, curriculum design, and assessment literacy. His research explores communication strategies in teacher talk, reflective practice, teacher cognition, pragmatics instruction, academic vocabulary, cognitive diagnostic assessment, and the alignment of English language teaching with evolving global models of English. He has authored and co-authored influential monographs, coursebooks, book chapters, and numerous peer-reviewed articles in respected international journals, addressing key issues such as language teacher reflection, intercultural appropriacy in instructional materials, reading comprehension processes, language assessment literacy, and mixed-methods research synthesis. His work frequently bridges theory and practice, offering empirical insights into teacher beliefs, instructional effectiveness, pragmatic competence, and learner engagement. Dr. Anani Sarab has played a major role in national curriculum development initiatives, contributing to the design of English language programs and school textbooks, and has been actively involved in professional associations, editorial boards, and academic committees. His expertise spans undergraduate, postgraduate, and doctoral education, where he has taught and supervised advanced research in language teaching methodologies, assessment, and applied linguistics. He has delivered numerous conference presentations, offering thought-leading perspectives on curriculum reform, communicative language teaching, teacher education, and the role of materials in shaping learner outcomes. His scholarly output reflects a sustained commitment to improving language education through rigorous research, critical inquiry, and educational innovation.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Mardian, F., & Anani Sarab, M. R. (2025). A bibliometric analysis of research on language teacher reflection, 1991–2024. Reflective Practice. Advance online publication.

Anani Sarab, M. R., & Mardian, F. (2024). Multilingual testing and assessment. International Journal of Multilingualism.

Anani Sarab, M. R., & Amini Farsani, M. (2024). Second-order synthesis of meta-analytic studies in applied linguistics (1998–2021). Quality & Quantity, 58, 1–25.

Anani Sarab, M. R., & Jabbarzadeh Sani, B. (2024). Enhancing elementary EFL learners’ willingness to communicate through communication strategy training. English Teaching & Learning, 48, 1–20.

Anani Sarab, M. R., & Mardian, F. (2023). Reflective practice in second language teacher education: A scoping review. Journal of Education for Teaching, 49(5), 1–20.

Monireh Ganjali | Bio Engineering | Best Researcher Award

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Dr. Monireh Ganjali | Bio Engineering | Best Researcher Award

Associate Professor | Materials and Energy Research Center (MERC) | Iran

Dr. Monireh Ganjali is a multidisciplinary scientist specializing in biomaterials, laser physics, photothermal technologies, and advanced nanostructured materials. Her research integrates laser material interactions, nanotechnology, and biomedical engineering to develop high-performance coatings, nanocomposites, and therapeutic platforms. She has led numerous national and international research projects focused on corrosion-resistant ceramic and bioceramic coatings, laser-deposited functional surfaces, polymer–bioceramic nanocomposites for medical implants, and surface engineering of steels, titanium alloys, and aerospace components. Her work extends to the synthesis and characterization of silica and gold nanoparticles, design of core–shell drug delivery systems, and photothermal applications for cancer therapy, including studies on gold–silica nanoparticles under near-infrared irradiation for targeted cell destruction. She has contributed significantly to advancing laser cladding, pulsed-laser deposition, waveguide and CO₂ laser development, and the fabrication of nanocomposite structures such as Al₂O₃-ZrO₂ and SrFe₁₂O₁₉. Her expertise includes optical system optimization, thermal analysis of coating processes, and evaluation of bioactivity, antibacterial performance, and surface morphology for biomedical and industrial purposes. Dr. Ganjali has collaborated with global universities and industry partners on materials innovation for medical, energy, and aerospace sectors, producing impactful outcomes in corrosion protection, dental materials, energy efficiency enhancement, and nanoparticle-mediated therapies. Across her career, she has combined theoretical modeling with experimental laser technologies to develop scalable solutions in nanomaterials science, demonstrating strong leadership in cross-disciplinary research and applied photonics.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Ghalandarzadeh, A., Javadpour, J., Majidian, H., & Ganjali, M. (2022). The evaluation of prepared microstructure pattern by carbon-dioxide laser on zirconia-based ceramics for dental implant application: An in vitro study. Odontology.

Hajinaebi, M., Ganjali, M., & Ahmadi Nasab, N. (2022). Antibacterial activity and drug release of ciprofloxacin loaded PVA-nHAp nanocomposite coating on Ti-6Al-4 V. Journal of Inorganic and Organometallic Polymers and Materials.

Karimiyan, P., & Ganjali, M. (2022). Preparation and characterization of a new glass-ceramic glaze for Ti6Al4V alloy. Journal of Non-Crystalline Solids, 121666.

Ganjali, M. (2022). Preparation and characterization of bovine serum albumin nanocarrier conjugated to exosome for sustained release of 5-fluorouracil: Release and antitumoral evaluation. Nanomed Research Journal.

Ganjali, M., Seifalian, A. M., & Mozafari, M. (2018). Effect of laser irradiation on cell cycle and mitosis. Journal of Lasers in Medical Sciences.

Maham Mujahid | Applied Mathematics | Best Researcher Award

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Ms. Maham Mujahid | Applied Mathematics | Best Researcher Award

The Islamia University of Bahwalapur | Pakistan

Ms. Maham Mujahid is a mathematics researcher whose work centers on advanced fluid mechanics, with a particular emphasis on viscous and non-Newtonian fluid flows, nanofluid behavior, heat and mass transfer processes, and rheological analysis in complex geometries such as corrugated and curved channels. Her research integrates analytical and computational techniques, including perturbation methods and numerical simulations, to investigate pressure-driven flows, magnetized and hybrid nanofluids, nonlinear fluid models, slip and convective constraints, porous media effects, and entropy production in multiphase or biological flow environments. She has contributed significantly to the understanding of transport phenomena by publishing in high-impact international journals, covering themes such as Casson, Jeffrey, and Carreau-type fluids, thermal radiation, viscous dissipation, permeability, and metachronal wave motion. Her scholarly contributions also extend to hybrid nanofluid modeling based on Yamada–Ota and Xue frameworks, demonstrating her command of emerging areas in thermofluid systems. Alongside her research activities, she has gained substantial teaching experience at both undergraduate and graduate levels in courses related to calculus, linear algebra, integral equations, differential equations, numerical analysis, and fluid mechanics, consistently integrating theoretical knowledge with practical scientific applications. She is skilled in Mathematica, MATLAB, and various computational and productivity tools, enabling precise modeling, visualization, and academic communication. Her broader interests include computational fluid dynamics, non-Newtonian rheology, and the study of thermal and multiphase transport in engineered and natural systems, reflecting a strong commitment to advancing mathematical and physical sciences through research, teaching, and continuous professional development.

Profiles: Scopus | Google Scholar

Featured Publications

Mujahid, M., Abbas, Z., & Rafiq, M. Y. (2024). A study on the pressure‐driven flow of magnetized non‐Newtonian Casson fluid between two corrugated curved walls of an arbitrary phase difference. Heat Transfer, 53(8), 4510–4527.

Mujahid, M., Abbas, Z., & Rafiq, M. Y. (2024). Rheological study of water-based Cu nanofluid between two corrugated curved walls under constant pressure gradient. Alexandria Engineering Journal, 106, 691–703.

Mujahid, M., Abbas, Z., & Rafiq, M. Y. (2025). Flow of hybrid nanofluids between two permeable corrugated curved walls using Yamada–Ota and Xue models with variable viscosity. Physics of Fluids, 37(2).

Mujahid, M., Abbas, Z., & Rafiq, M. Y. (2024). Rheological analysis of pressure-driven Jeffrey fluid flow between corrugated porous curved walls with slip constraints. AIP Advances, 14(9).

Rafiq, M. Y., Abbas, Z., Munawar, F., Mujahid, M., & Durrani, A. (2025). Exploring entropy production in metachronal wave motion of Carreau fluid in a channel under lubrication hypothesis. International Journal of Thermofluids, 27, 101198.

Shiladitya Bhattacharjee | Cloud Computing | Best Researcher Award

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Dr. Shiladitya Bhattacharjee | Cloud Computing | Best Researcher Award

Associate Professor | University of Petroleum and Energy Studies, Dehradun | India

Dr. Shiladitya Bhattacharjee is a dynamic researcher and academic in computer and information sciences with strong contributions to cloud computing, big data security, parallel processing, GPU-accelerated systems, and intelligent data management. His work integrates advanced computational techniques with secure, scalable architectures to address complex challenges in big data transmission, cloud resource provisioning, virtual machine migration, and heterogeneous network environments. He has produced impactful research outcomes through funded projects, multidisciplinary collaborations, and the development of innovative methods for data confidentiality, integrity, compression, and encryption. His research has resulted in numerous high-quality journal publications, book chapters, conference papers, patents, copyrights, and intellectual properties that highlight his commitment to technological advancement. His academic portfolio includes authorship of a notable book on high performance cloud computing and the submission of a second book on confidential computing. He has demonstrated long-standing expertise in programming and high-performance computing, contributing to areas such as seismic data processing, intelligent optimization algorithms, video compression security, quantum inspired computation, AI-powered sensing systems, and digital forensics. His professional experience spans teaching a diverse range of computing subjects, mentoring researchers, enhancing institutional research productivity, and driving innovation through technical leadership. As a recognized member of global professional bodies and an active reviewer for reputable journals, he consistently engages with the international research community. His work continues to support advancements in secure data processing, computational efficiency, and emerging intelligent systems, establishing him as a significant contributor to modern computing research.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Bhattacharjee, S., Chakkaravarthy, M., & Midhun Chakkaravarthy, D. (2019). GPU-based integrated security system for minimizing data loss in big data transmission. In Advances in Intelligent Systems and Computing (Chapter).

Bhattacharjee, S., Ab Rahim, L. B., Zakaria, M. N. B., & Ab Aziz, I. B. (2018). A hybrid technique for enhancing data integrity in big data transmission environment. In 2018 4th International Conference on Computer and Information Sciences (ICCOINS). IEEE.

Bhattacharjee, S., Ab Rahim, L. B., Zakaria, M. N. B., & Ab Aziz, I. B. (2018). A protocol for selecting the strongest and authentic hotspot in any wireless infrastructure. In 2018 4th International Conference on Computer and Information Sciences (ICCOINS). IEEE.

Bhattacharjee, S., Ab Rahim, L. B., & Ab Aziz, I. B. (2016). A security scheme to minimize information loss during big data transmission over the internet. In 2016 3rd International Conference on Computer and Information Sciences (ICCOINS). IEEE.

Bhattacharjee, S., Ab Rahim, L. B., & Ab Aziz, I. B. (2016). Hiding of compressed bit stream into audio file to enhance the confidentiality and portability of a data transmission system. In 2015 International Symposium on Mathematical Sciences and Computing Research (iSMSC). IEEE.

Luo Dan | Self Management | Young Researcher Award

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Prof. Luo Dan | Self Management | Young Researcher Award

Associate Professor | Nanjing University of Chinese Medicine | China

Prof. Luo Dan is an accomplished nursing scholar whose research centers on psychosocial care, chronic disease self-management, and adolescent mental health, with a particular emphasis on individuals affected by type diabetes, gestational health challenges, and long-term illness–related stigma. Her work integrates psychological theory, resilience science, and behavioral nursing to understand how personality traits, family functioning, peer dynamics, and social environments shape emotional well-being, treatment adherence, and quality of life. She has made influential contributions to identifying the mechanisms through which stigma, psychological distress, and social relationships affect health outcomes, offering evidence-based insights that inform clinical practice and community interventions. Prof. Luo has led competitive research projects supported by major national and provincial funding bodies, advancing innovative models of ecological resilience and self-regulation that guide the development of targeted psychosocial interventions for patients and families. Her publications, as first or corresponding author in leading nursing, psychiatry, and psychosomatic research journals, span systematic reviews, meta-analyses, qualitative studies, and longitudinal designs that illuminate the lived experiences of vulnerable groups while establishing robust predictors of coping and disease management. In parallel, she has contributed to advancing workforce well-being through studies on nurse engagement, leadership, job resources, and organizational support. Her service as a reviewer, committee expert, and editorial board member underscores her leadership within the nursing research community. Widely recognized through national awards for scientific excellence, Prof. Luo’s scholarship strengthens the bridge between psychological care research and real-world health improvement for patients, families, and healthcare professionals.

Profile: Scopus

Featured Publications

Luo, D., … (2025). Does atopic dermatitis increase the risk of allergic contact dermatitis.

Luo, D., … (2025). Genetic causal association between skin microbiota and biological aging: Evidence from a Mendelian randomization analysis. Journal of Cosmetic Dermatology.

Luo, D., … (2024). Bioengineered extracellular vesicle hydrogel modulating inflammatory microenvironment for wound management. International Journal of Molecular Sciences.

Luo, D., … (2024). Exploring the influencing factors on acne, melasma, and rosacea: A case–control study in China. Journal of Cosmetic Dermatology.

Luo, D., … (2024). Protective effect and mechanism of Lycium barbarum polysaccharide against UVB-induced skin photoaging. Photochemical and Photobiological Sciences.