Vinutha Moses | Biomaterials | Biomaterials Excellence

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Vinutha Moses | Biomaterials | Biomaterials Excellence

Dr Vinutha Moses, RV College of Engineering, India

Dr. Vinutha Moses is a dedicated researcher and educator in biomaterials and chemical engineering, with extensive experience as an Assistant Professor at R.V. College of Engineering and Sapthagiri College of Engineering. Her work focuses on sustainable materials, innovative biomaterials, and eco-friendly solutions. Key publications include studies on bio-resins from organic waste, nanotechnology in water treatment, and high-strength cellulose resins for wood composites. Actively engaged in conferences and workshops, she continually enhances her expertise in AI, sustainable technologies, and biomaterial applications. Her strong academic background and commitment to sustainable innovation make her a valuable contributor to biomaterials research. 🌱🔬📚

Publication Profile

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Educational Background 🎓

Dr. Vinutha Moses holds an MSc(Res) and is pursuing a Ph.D. in Chemical Engineering from RV College of Engineering, Bangalore, Karnataka, India. Her advanced studies emphasize the development of sustainable and innovative materials, highlighting her expertise in chemical processes and biomaterials. Her academic background is grounded in rigorous research and applications that bridge chemical engineering with environmental sustainability. This educational foundation supports her ongoing contributions to the field, aligning with her broader interests in eco-friendly solutions and innovative research. Dr. Moses’ qualifications reflect her commitment to academic excellence and impactful research. 🎓🔬🌱

Current Role and Focus 💼

Dr. Vinutha Moses has extensive teaching experience in chemical engineering, having worked as an Assistant Professor at R.V. College of Engineering since 2016 and Sapthagiri College of Engineering from 2012 to 2016. She has also served as a Lecturer in various institutions, including R.V. College of Engineering (2007), Nijaiingappa Educational Centre (2002-2003), and Good Wills Polytechnical College (2001-2002). In addition to her academic roles, she has coordinated technical and non-technical events, showcasing her leadership and organizational skills. Dr. Moses’ diverse teaching career reflects her dedication to education and research in chemical engineering. 👩‍🏫🔬📚

Research Focus Area 🌱🧬

Dr. Vinutha Moses’ research primarily focuses on biomaterials, sustainable materials, and environmental applications of chemical engineering. Her work includes the development of bio-resins from organic waste for high-strength composites, wastewater treatment using nanotechnology and microbial fuel cells, and exploring eco-friendly solutions like bio-based polymers and biofuels. She has also researched advanced applications in oil recovery, including microbial enhancement and biosurfactants. With a strong background in nanotechnology, her work spans the intersections of sustainability, chemical engineering, and innovative biomaterials for environmental impact. 🌱🔬💡

Participation at National/International Conference 🎓🌍

Dr. Vinutha Moses has actively contributed to various international conferences, showcasing her expertise in sustainable engineering and technology. She presented on “Integrated Waste Management Systems” at the International Conference on Sustainable Environment and Engineering (ICSEE’19) in 2019. Additionally, her work on “Nanotechnology as Antibacterial and Heavy Metal Removal in Wastewater Treatment” was featured at the International Conference on Sustainable Engineering and Technology (iConset 2018). Her contributions also include the development of bio-resins from organic waste for high-strength composites and research on electroless gold plating bath. Dr. Moses’ research continues to impact both environmental and material sciences. 🌍🔬♻️

Publication Top Notes📄✨

Microbial hydraulic acid fracturing

Economical synthesis of oxygen to combat the COVID-19 pandemic

Hydroxymethyl furfural (HMF) a high strength cellulose resin for wood composite laminates

Development of a bio-resin from organic waste and its application to make high strength composites

Biological synthesis of copper nanoparticles and its impact

Phytochemical profile, antibacterial and antidiabetic effects of crude aqueous leaf extract of Datura stramonium

Production of biofuel from micro algae (Chlorella pyrenoidosa) using vertical reactor system and effect of nitrogen on growth and lipid content

Use of Keratin Present in Chicken Feather as a Hydrogen Storage Material: A Review

Wastewater Treatment Using Anaerobic Fluidized Bed Membrane Bioreactor Coupled with Microbial Fuel Cells for Circular Economy

Conclusion 🔍

Dr. Vinutha Moses’ combination of academic roles, publication record, conference participation, and continuous professional development makes her well-suited for contributing to Research for Biomaterials Excellence. Her deep understanding of chemical engineering principles, applied research in sustainable materials, and active engagement in educational and research initiatives position her as a strong candidate for leading and collaborating on innovative biomaterials projects.

Tianyu Ma | Metals and Alloys | Best Researcher Award

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Tianyu Ma | Metals and Alloys | Best Researcher Award

Dr Tianyu Ma, Xi’an Jiaotong University, China

Dr. Tianyu Ma is a renowned researcher in materials science, specializing in high-performance materials for aerospace applications. He holds a Ph.D. from Beijing University of Aeronautics and Astronautics and has postdoctoral experience at the National Institute for Materials Science (Japan) and Zhejiang University. Currently a professor at Xi’an Jiaotong University, his research focuses on materials for bearings and high-entropy alloys. With multiple publications in top journals like Nature and Advanced Materials, Dr. Ma’s work impacts aerospace, automotive, and energy industries, focusing on enhancing material performance in extreme environments. ✈️🔬

Publication Profile

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Educational Background 🎓

Dr. Tianyu Ma holds a Ph.D. in Materials Science and Engineering from Beijing University of Aeronautics and Astronautics, where he also completed his Bachelor’s degree. His research focuses on multi-scale analysis of materials for high-performance bearings, specifically in aeroengines. These bearings endure extreme conditions like high temperatures, high speeds, and depleted oil, making them prone to failure. Dr. Ma investigates the damage mechanisms of bearing materials across macro to micro scales, aiming to understand and improve the evolution of bearing failure. His work plays a critical role in enhancing the durability and performance of aerospace components. ✈️🔬

Current Role and Focus 💼

Dr. Tianyu Ma is currently a Professor at Xi’an Jiaotong University’s Frontier Institute of Science and Technology, a position he has held since November 2017. Prior to this, he served as a Postdoctoral Researcher and Associate Professor at Zhejiang University’s Department of Materials Science and Engineering from 2006 to 2017. Additionally, Dr. Ma worked as a JSPS Foreign Postdoctor at the National Institute for Materials Science in Japan from 2011 to 2013, contributing to research in ferroic physics. His extensive academic career spans institutions in China and Japan, focusing on advanced materials for aerospace and engineering applications. 🎓🌍

Research Focus Area 🌱🧬

Dr. Tianyu Ma’s research primarily focuses on advanced materials for high-performance applications, particularly in aerospace and magnetic materials. His work involves multi-scale analysis of materials, such as 8Cr4Mo4V alloy, and exploring damage mechanisms through molecular dynamics simulations. He has also contributed significantly to the development of high-entropy alloys, magnetic materials, and alloys with enhanced mechanical properties like strength, ductility, and thermal expansion. His publications in Nature, Acta Materialia, and Advanced Materials reflect his deep engagement with materials science, especially in the areas of ultrahigh-strength alloys, magnetic performance, and thermally stable materials for extreme conditions. 🛠️✈️🧲

Publication Top Notes📄✨

Enhanced magnetic performance of Fe-rich Sm2Co17-type magnets by optimizing Zr content

Rapid-thermal-process pre-treatment promoted precipitation towards strengthening hard magnetism of Sm2Co17-type magnets

Large Non‐Hysteretic Volume Magnetostriction in a Strong and Ductile High‐Entropy Alloy

Local Displacive Phase Transformation in Large-Magnetostriction Alloy Fe81Ga19

Formation of semi-coherent Zr-rich lamellar phase in 2:17-type Sm-Co-Fe-Cu-Zr magnets with high Fe content

Atomic scale understanding the periodic modulation in ferroelastic alloy Ni-Mn-Ti

Toughening Ceramics down to Cryogenic Temperatures by Reentrant Strain-Glass Transition

Origin of hard magnetism in Fe-Co-Ni-Al-Ti-Cu high-entropy alloy: Chemical shape anisotropy

Conclusion 🔍

Dr. Tianyu Ma’s extensive academic background, innovative research, and prolific publication record make him a strong candidate for the Best Researcher Award. His work bridges fundamental material science with applied engineering, particularly in the area of multi-scale materials analysis, which is essential for improving high-performance bearings and magnets. His ongoing contributions to the development of advanced materials for challenging environments align well with the goals of this award.

Sathiya Priya A | Material Science | Best Researcher Award

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Sathiya Priya A | Material Science | Best Researcher Award

Assoc. Prof. Dr Sathiya Priya A, Sri Sairam Engineering College, India

Assoc. Prof. Dr. Sathiya Priya is a distinguished physicist with a Ph.D. from B.S. Abdur Rahman Crescent Institute of Science and Technology (2013–2018). Her career spans roles as Associate Professor at Sri Sai Ram Engineering College, Chennai, and a Post-doctoral Fellowship at Hubei University, China. Dr. Priya’s research on advanced materials, such as co-doped BiFeO3, has gained international recognition, including inclusion in ICDD files. With over 20 publications in esteemed journals, she explores photonics and electronics. Her accolades, like the Best Young Researcher Award (2024), showcase her commitment and leadership in material science. 🧪📚✨

Publication Profile

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Educational Background 🎓

Assoc. Prof. Dr. Sathiya Priya has built a solid academic foundation in physics. She earned her Ph.D. from B.S. Abdur Rahman Crescent Institute of Science and Technology, Chennai (2013–2018), demonstrating her commitment to advanced research. Her educational journey includes an M.Phil in Physics with a first-class CGPA of 7.2 from Ayya Nadar Janaki Ammal College (2011–2012), highlighting her dedication to scholarly excellence. Dr. Priya also achieved her M.Sc in Physics with first-class honors (73.18%) from Sri Paramakalyani College (2009–2011), and a B.Sc in Physics with first-class honors (71%) from the same institution (2006–2009). 🎓📚✨

Current Role and Focus 💼

Dr. Sathiya Priya boasts an impressive academic career with progressive roles in prestigious institutions. Currently serving as an Associate Professor at Sri Sai Ram Engineering College, Chennai, since July 2024, she previously held the role of Assistant Professor there from 2022 to 2024. Her research experience is enriched by a Post-doctoral Fellowship at Hubei University, PR China (2019–2021), where she engaged in cutting-edge studies. From 2014 to 2019, Dr. Priya contributed as a Teaching Fellow at the Madras Institute of Technology, Chennai, showcasing her dedication to teaching and research. 📚👩‍🏫🌏

Awards and Honours 🏆🌍

Assoc. Prof. Dr. Sathiya Priya has been recognized for her exemplary contributions and dedication to her field through notable awards. In March 2024, she was honored with the Best Young Researcher Award during Women’s Day at Sri Sairam Engineering College, underscoring her significant achievements and innovative work. The following month, in April 2024, she received the Best Department Performance Award on Founder’s Day at the same institution, acknowledging her leadership and impactful efforts within her department. These accolades reflect her commitment.

Achievements🎯

Assoc. Prof. Dr. Sathiya Priya has made significant strides in research and secured important recognitions. In January 2024 and April 2023, she was awarded funding from DST-SERB to support international conferences, emphasizing her role in advancing global academic collaborations. A notable achievement includes the certification by the International Centre for Diffraction Data (ICDD), which approved and integrated her reported XRD patterns of (La, Cu) co-doped BiFeO3 materials into their files (Powder Diffraction File -2020, Nos. 690371, 690372, 690373). These accomplishments highlight her contributions to material science and research credibility. 🌟📚✨

Research Focus Area 🌱🧬

Assoc. Prof. Dr. Sathiya Priya’s research is deeply embedded in material science and applied physics, with a specialized focus on the synthesis, characterization, and functional analysis of multiferroic materials, nanomaterials, and advanced thin films. Her work often explores doping mechanisms in BiFeO3 ceramics, highlighting their ferroelectric, dielectric, and photocatalytic properties. Additionally, she contributes to studies on hydrogels, carbon dots, and sustainable applications, which are relevant for electronics, environmental sustainability, and nanotechnology-based solutions. With a robust portfolio of publications, Dr. Priya’s research is crucial for advancing photonic, electronic, and eco-friendly technologies. 🌱🔬✨

Conference Presented 📄✨

Dr. Sathiya Priya has actively shared her research through various prestigious conferences, showcasing her contributions to material science. In 2022, she presented on enhanced ferroelectric properties of dual-doped BiFeO3 at the International Virtual Conference on Materials Research. Her work on perovskite thin-film solar cells and photocatalytic nanomaterials was highlighted at Indo-UK conferences and national symposia. From structural studies of BiNiO3 to nickel ferrite synthesis, her engagements span esteemed events like ICNM, Vels University, and Anna University. These presentations reflect her commitment to disseminating pioneering insights into nanomaterials and advanced composites. 🌟🔬🌍

Publication Top Notes 📚🌐

Effect of Cu and Sm doping on the ferroelectric character of bismuth ferrite thin films

Structural and frequency dependent dielectric properties of Ba doped Ni-Zn ferrite powders

Tunable Optical and Multiferroic Properties of Zirconium and Dysprosium Substituted Bismuth Ferrite Thin Films

Impact of (Zr, Cu) Ion Substitution on the Optical, Dielectric, and Impedance Behavior of BiFeO<sub>3</sub>

Studies on the multiferroic properties and impedance analysis of (La, Cu) BiFeO<sub>3</sub> prepared by sol-gel method

Synthesis of Cobalt-Doped Bi<sub>12</sub>NiO<sub>19</sub>: Structural, Morphological, Dielectric and Magnetic Properties

Topographic characterization of (Zr, Mn) co-doped bismuth ferrite thin film surfaces

Advanced micromorphology study of the Mn-doped bismuth ferrite thin films

Conclusion 🔍

Assoc. Prof. Dr. Sathiya Priya has established herself as a dedicated researcher with a significant contribution to material science and applied physics. Her extensive publication record, successful conference presentations, research funding, and awards affirm her status as an impactful and innovative scientist. She demonstrates the qualities necessary for recognition as the Best Researcher due to her consistent and influential work in the field.

Kata Sreelakshmi | Nanomaterials | Best Researcher Award

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Kata Sreelakshmi | Nanomaterials | Best Researcher Award

Assist. Prof. Dr Kata Sreelakshmi, Madanapalle Institute of Technology & Science, India

Dr. Kata Sreelakshmi is an accomplished researcher in applied mathematics and fluid mechanics, specializing in non-Newtonian fluids, heat transfer, and MHD flows. She holds a Ph.D. in Applied Mathematics from Sri Padmavathi Mahila Visvavidyalayam (2018) and has an extensive publication record in high-impact journals, including work on nanofluids and dual stratification effects. She has presented her research at international conferences and has taught and mentored students in mathematics. Her work is significant in engineering, materials science, and environmental sustainability. Dr. Sreelakshmi’s expertise makes her a strong candidate for the Best Researcher Award. 🧑‍🏫🔬📚

Publication Profile

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Educational Background 🎓

Dr. Kata Sreelakshmi completed her Ph.D. in Applied Mathematics from Sri Padmavathi Mahila Visvavidyalayam in 2018. She also earned an M.Phil. with distinction (78%) in Applied Mathematics in 2015 and an M.Sc. in the same field with distinction (86%) in 2011. Her B.Sc. (M.P.C) from Sri Venkateswara University, Tirupati, was awarded first class (70%). Dr. Sreelakshmi excelled academically, securing distinction in both her Intermediate (87%) and S.S.C (83%) exams, showcasing her consistent academic performance across all levels. 📚🎓🔢

Current Role and Focus 💼

Dr. Kata Sreelakshmi is currently serving as an Assistant Professor at Madanapalle Institute of Technology & Science since September 13, 2023. Previously, she held positions as Assistant Professor at Siddartha Institute of Science and Technology (Sep 2022 – Aug 2023), Sri Venkateswara Vedic University, Tirupati (2019-2022), Yogananda Institute of Technology and Science, Tirupati (Jul 2018 – Jun 2019), and Emerals’s Degree College, Tirupati (2011-2014). She has taught M.Sc. students in subjects like Ordinary and Partial Differential Equations, Numerical Methods, and Laplace Transforms, showcasing her expertise in advanced mathematical topics. 📚🎓

Seminars/Conferences Attended

Dr. Kata Sreelakshmi has presented her research at several prestigious national and international conferences, showcasing her expertise in fluid dynamics, heat transfer, and nanofluid flow. Notable presentations include the effect of Arrhenius activation energy and dual stratifications on Maxwell nanofluid flow at NIT Warangal (2020), and the study of melting heat transfer in the stagnation point flow of a Jeffrey-nano fluid at SPMVV, Tirupati (2016). She also presented on the impact of Hall current in flow induced by a stretching surface at S.V. Tirupati (2015). Her work addresses advanced topics in MHD flows, nanofluids, and thermal radiation. 🔥🔬📊

Research Focus Area 🌱🧬

Dr. Kata Sreelakshmi’s research primarily focuses on advanced heat transfer and fluid dynamics, particularly in non-Newtonian fluid flows and nanofluids. Her work explores heat transfer analysis in non-Newtonian flows with the dispersion of nanoparticles, the effects of thermal radiation, and the role of stretching surfaces. She investigates complex fluid dynamics in various systems, including magnetohydrodynamic (MHD) and hybrid nanofluid flows, entropy generation, and boundary layer phenomena. Her research includes studies on energy transport, thermophoretic effects, and the impact of various nanoparticle shapes on heat transfer performance. This area is crucial for engineering applications like cooling systems, energy efficiency, and advanced manufacturing. 🌡️🔬

Publications Top Notes 📚🌐

Effect of magnetic field on the flow and heat transfer in a Casson thin film on an unsteady stretching surface in the presence of viscous and internal heating

A study on entropy generation on thin film flow over an unsteady stretching sheet under the influence of magnetic field, thermocapillarity, thermal radiation and internal heat …

Heat transfer analysis in the non-orthogonal flow of a non-Newtonian nanofluid with non-linear thermal radiation

Dual Stratification Effects on Double-Diffusive Convective Heat and Mass Transfer of a Sheet-Driven Micropolar Fluid Flow

Dual solutions of an unsteady flow, heat and mass transfer of an electrically conducting fluid over a shrinking sheet in the presence of radiation and viscous dissipation

Homotopy analysis of an unsteady flow heat transfer of a Jeffrey nanofluid over a radially stretching convective surface

Heat transfer analysis in a micropolar fluid with non-linear thermal radiation and second-order velocity slip

Effects of dual stratification on non-orthogonal non-Newtonian fluid flow and heat transfer

Conclusion 🔍

Dr. Kata Sreelakshmi’s academic qualifications, research publications, conference presentations, and teaching experience make her an exemplary candidate for the Best Researcher Award. Her work in applied mathematics, fluid mechanics, and heat transfer is highly relevant to contemporary issues in engineering, energy, and environmental science. She has demonstrated a consistent commitment to advancing knowledge in her field and has made significant contributions to the understanding of complex fluid behavior. Additionally, her role as a mentor and educator further adds to her qualifications as a top-tier researcher. Therefore, she is certainly deserving of the Best Researcher Award.

Thirumala S | Sustainability in Material Science | Best Researcher Award

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Thirumala S | Sustainability in Material Science | Best Researcher Award

Dr Thirumala S, Government First Grade College, India

Dr. Thirumala S is a distinguished environmental scientist with a Ph.D. from Kuvempu University, specializing in ecological studies of Ayyanakere Lake 🌊. He holds a Gold Medal in his M.Sc. in Environmental Science 🏅. As an Assistant Professor at Government First Grade College, Davangere, he teaches and researches water quality, wastewater treatment, air quality monitoring, and pollution control 🌍. His accolades include the Bharath Siksha Ratan and Young Scientist of the Year awards 🏆. Dr. Thirumala’s research and publications on water pollution and ecological restoration contribute significantly to environmental science 🌱.

Publication Profile

Google Scholar

Educational Background 🎓

Dr. Thirumala S. holds a Doctor of Philosophy (Ph.D.) in Environmental Science from Kuvempu University, specializing in ecological studies on Ayyanakere Lake in Chikmagalur, Karnataka. He completed his M.Sc. in Environmental Science with Gold Medal (First Rank) from the same university. Additionally, he holds a Bachelor of Science in Agriculture from the College of Agricultural Sciences. His academic journey reflects his commitment to environmental science and his dedication to understanding aquatic ecosystems. 🌿💧📚

Teaching Experience

Dr. Thirumala S. has a diverse and impactful teaching career in the field of environmental science and civil engineering. He began as a Lecturer in the Department of Civil Engineering at Bapuji Institute of Engineering & Technology in Davangere, where he taught undergraduate civil engineering students from September 2007 to August 2009. He then served as a Lecturer at the Department of P.G. Studies & Research Centre in Environmental Science at Kuvempu University from January 2004 to August 2006, teaching postgraduate students. Since 2009, he has been working as an Assistant Professor in the Department of Environmental Science at Government First Grade College in Davangere. 👨‍🏫🌱📚

Current Role and Focus 💼

Dr. Thirumala S. is an Assistant Professor and Head of the Department of Environmental Science at Government First Grade College & P.G. Centre Davangere, where he has been serving since 2009. He also served as the Head of the Department of Zoology at the same institution from 2013 to 2016. His leadership and academic roles reflect his commitment to advancing environmental science education and research. 🌍📚

Research Focus Area 🌱🧬

Dr. Thirumala S.’s research focuses on environmental science, with expertise in areas such as water quality, pollution analysis, ecological studies, and sustainable agricultural practices. His work spans a variety of environmental issues, including the impact of pollution on aquatic ecosystems, water management, and the intersection of environmental concerns with economic development. He has contributed to multiple books on water pollution, environmental economics, and ecological studies, reflecting his broad engagement with environmental conservation and the restoration of natural resources. 🌍💧📚 His research also covers topics like soil health, atmospheric fungal diversity, and the relationship between environmental health and economic growth. 🌱

Award Received 🏆🌍

Dr. Thirumala S. has received several prestigious awards in recognition of his exceptional contributions to environmental science. These include the Bharath Siksha Ratan from the Global Society for Health and Education, New Delhi, for his outstanding work in the field. He was also honored with the Young Scientist of the Year award by the National Environmental Sciences Academy, New Delhi, highlighting his significant research impact. Additionally, Dr. Thirumala received the Sunderlal Bahuguna Young Scientist Award from the Bose Science Society, Tamil Nadu, recognizing his dedication to environmental preservation and scientific excellence. 🏆🌍🌱

Publication Top Notes 📚🌐

Assessment of air quality in Shivamoga city, Advances in Environmental Sciences-International Journal of the Bioflux Society

Qualitative Analysis of Subsurface Water Quality in Challakere Taluk, Karnataka, India

Effect of Spacing and Fertilizer levels on growth and bulb multiplication in tuberose (polianthes tuberosal.) cv. shringar under field experiment.

Zooplankton diversity and its relationship with physico-chemical parameters of in Ayyanakere Lake Western Ghats

Groundwater Quality Analysis in Davangere city of Karnataka, India

Man-animal conflicts in protected areas, a case study of Gaur, BosGaurus H Smith from the Mookambika wildlife sanctuary, Kollur, Karnataka, India.

Effect of Bio-Fertilizers on Growth and Biomass of Coleus Vettiveroides

Study of bio-medical waste generation and management in various hospitals in Davangere city of Karnataka, India

Zooplankton Diversity and its Relationship with Physico-Chemical Parameters in Kundavada Lake, of Davangere District, Karnataka, India.

Conclusion 🔍

Dr. Thirumala S’s blend of academic excellence, teaching experience, extensive research contributions, recognition through awards, and active participation in academic events make him a standout candidate for the Best Researcher Award. His research, particularly in areas like water quality, wastewater treatment, and ecological restoration, addresses pressing global environmental concerns. His commitment to advancing the field through both his research and educational outreach makes him a deserving recipient of this prestigious award.

 

Semra Gurtas Dogan | Nanomaterials | Best Researcher Award

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Semra Gurtas Dogan | Nanomaterials | Best Researcher Award

Assoc. Prof. Dr Semra Gurtas Dogan, Hakkari University, Turkey

🌟 Assoc. Prof. Dr. Semra Gurtas Dogan is a dedicated physicist at Hakkari University, contributing significantly to academic and research fields. With a Ph.D. in Physics from Akdeniz University (2019), her groundbreaking thesis on Gravitational Waves in (2+1) Dimensions has pushed the boundaries of understanding cosmic phenomena, dark matter, and dark energy. Her prolific research includes over 20 high-impact publications, covering topics such as relativistic quantum mechanics, vector bosons, and fermion dynamics in exotic spacetime. Dr. Gurtas Dogan’s work, widely recognized in prestigious journals, cements her as a leader in physics and a notable candidate for the Best Researcher Award. 🏆📚✨

Publication Profile

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Educational Background 🎓

🎓 Assoc. Prof. Dr. Semra Gurtas Dogan has an impressive educational background in physics, showcasing her passion for exploring complex theories. She earned her Ph.D. (2013–2019) from Akdeniz University, Turkey, focusing on Gravitational Waves in (2+1) Dimensions, delving into their role in explaining cosmic mysteries like dark matter and dark energy. Her M.Sc. (2009–2013) research involved analyzing quantum mechanical behaviors of spin-1 and spin-1/2 particles in curved spacetime, contributing to the field of relativistic quantum mechanics. Completing her undergraduate studies (2004–2008) at Akdeniz University, Dr. Gurtas Dogan’s work embodies dedication to advancing physics. 🔬✨🌌

Current Role and Focus 💼

🏫 Assoc. Prof. Dr. Semra Gurtas Dogan has been a dedicated academic at Hakkari University since 2021, serving in the Vocational School of Health Services, Medical Services, and Techniques Department. Her role at this institution highlights her commitment to teaching, mentoring, and contributing to the university’s research endeavors. Dr. Gurtas Dogan brings her extensive expertise in physics, particularly her knowledge of gravitational waves and quantum mechanics, to foster an environment of academic excellence. Through her work, she continues to inspire and guide students and colleagues, playing a crucial role in advancing educational standards and scientific exploration. 🌟📚💡

Research Focus Area 🌱🧬

📚 Assoc. Prof. Dr. Semra Gurtas Dogan has made remarkable strides in theoretical and high-energy physics, particularly focusing on gravitational waves, relativistic quantum mechanics, and particle dynamics in exotic spacetime backgrounds. Her extensive research covers topics like the behavior of fermions and vector bosons in magnetized environments, the influence of magnetic flux on quantum systems, and particle interactions in curved spacetimes such as wormholes and black holes. Through detailed analyses, she has significantly contributed to understanding how these phenomena relate to cosmic mysteries like dark matter, dark energy, and early universal dynamics. 🌀🌌🔬

Publication Top Notes

Damped modes for a bosonic quantum oscillator in the near-horizon geometry of the BTZ black hole

Relativistic dynamics of oppositely charged two fermions interacting with external uniform magnetic field

Vector bosons in the rotating frame of negative curvature wormholes

Quasinormal modes of Dirac field in 2+ 1 dimensional gravitational wave background

Relativistic quantum mechanical spin-1 wave equation in 2+ 1 dimensionalspacetime

Effect of internal magnetic flux on a relativistic spin-1 oscillator in the spinning point source-generated spacetime

Relativistic fermions and vector bosons in magnetized three-dimensional space-time with a cosmological constant

Quasibound states for a scalar field under the influence of an external magnetic field in the near-horizon geometry of the BTZ black hole with torsion

Photonic modes in twisted graphene nanoribbons

A new approach to compute the dipole moments of a Dirac electron

Conclusion 🔍

Assoc. Prof. Dr. Semra Gurtas Dogan’s publication record, extensive research on gravitational waves, quantum mechanics, and theoretical physics, along with her contributions to various high-impact journals, demonstrate her as an excellent candidate for the Best Researcher Award. Her work not only advances scientific understanding but also showcases her capacity for innovative research, making her an asset to the global scientific community.

Raju Khan | Nanomaterials | Best Researcher Award

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Raju Khan | Nanomaterials | Best Researcher Award

Dr Raju Khan, Advanced Materials and Processes Research Institute CSIR, India

Dr. Raju Khan is a renowned Senior Principal Scientist and Professor at CSIR-AMPRI, Bhopal, specializing in biomedical engineering and biosensor technologies. With a Ph.D. in Chemistry, his research focuses on the synthesis of nanomaterials for point-of-care diagnostics, including fluorescence/electrochemical biosensors and BioMEMS. Dr. Khan has received prestigious awards like the BOYSCAST Fellowship and Fast Track Young Scientist Award. His impactful publications, particularly in cancer and COVID-19 diagnostics, have been highlighted in Nature India. A global leader in nanotechnology and biomedical innovation, his work continues to shape diagnostic advancements for health and environmental sustainability. 🧑‍🔬🔬🌍💡

Publication Profile

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Educational Background 🎓

Dr. Raju Khan completed his Ph.D. in Chemistry in 2005 from Jamia Millia Islamia, New Delhi. His impressive career spans across various prestigious institutions, including his current role as Senior Principal Scientist & Professor at CSIR-AMPRI, Bhopal, since 2022. Previously, he held positions as Principal Scientist & Associate Professor at CSIR-AMPRI (2018–2022) and CSIR-NEIST, Jorhat (2012–2018). He has also served as a Visiting Scientist at the University of Texas, San Antonio, and worked as a Postdoc at the University of the Western Cape, South Africa. Throughout his career, he has contributed extensively to biomedical research and innovation. 🎓🔬🌍👨‍🔬

Research Focus Area 🌱🧬

Dr. Raju Khan research focus is primarily on Biomedical Engineering, with a strong emphasis on Point-of-Care Diagnostics. They work on the synthesis of novel nanostructured materials for biosensor applications, enhancing the detection capabilities of medical devices. Their expertise extends to the fabrication and optimization of fluorescence and electrochemical biosensors 🧪, aiming to create efficient and sensitive diagnostic tools. They are also involved in BioMEMS (Biological Microelectromechanical Systems) and Micro/Nano fabrication systems 🔬, which are crucial for developing advanced medical devices. Additionally, their research includes the use of biomaterials for antimicrobial applications 🦠, contributing to healthcare solutions.

Award and Achievement 🏆🌍

Researcher has received prestigious awards, including the BOYSCAST Fellowship from the Department of Science & Technology (DST), India, for research at the University of Texas, USA 🇺🇸, and the Fast Track Young Scientist Award from DST, India 🏅. They also serve as a Scientific Advisor for FSSAI’s Scientific Panel on Methods of Sampling & Analysis (since 2017) 🧑‍🔬. As a Life Member of the Materials Research Society of India (MRSI) and a World Academy Member, they contribute significantly to global scientific communities 🌍. Their highlighted work in Nature India includes research on immunosensors for detecting food toxins, SARS-CoV-2 antigens, and breast cancer biomarkers 🧬, and graphene quantum dots from waste batteries 🔋.

Conference Papers Presented

Raju Khan has contributed extensively to scientific conferences worldwide, presenting on diverse topics such as oxidative degradation of surfactants, electrochemical biosensors, and nanocomposites for mycotoxin detection. His research was showcased at prestigious events like the ICC Conference in India 🇮🇳, International Conference of Electroanalysis in France 🇫🇷, and the World Congress on Biosensors in China 🇨🇳. Notable works include the development of immunosensors for Aflatoxin B1 and prostate-specific antigen (PSA) detection, as well as advancements in biosensors for drug analysis 💊. Khan’s innovations in nano-materials and biosensing technologies continue to impact environmental and medical applications.

Publication Top Notes

Iron oxide nanoparticles–chitosan composite based glucose biosensor

Zinc oxide nanoparticles-chitosan composite film for cholesterol biosensor

Nanostructured MoS2-Based Advanced Biosensors: A Review

SERS based lateral flow immunoassay for point-of-care detection of SARS-CoV-2 in clinical samples

Point-of-care biosensor-based diagnosis of COVID-19 holds promise to combat current and future pandemics

Chitosan/polyaniline hybrid conducting biopolymer base impedimetric immunosensor to detect Ochratoxin-A

Potential of graphene-based materials to combat COVID-19: properties, perspectives, and prospects

Proteomic and metabolomic approaches to biomarker discovery

Next-generation intelligent MXene-based electrochemical aptasensors for point-of-care cancer diagnostics

Electrochemical studies of novel Chitosan/TiO2 bioactive electrode for biosensing application

Conclusion 🔍

Dr. Raju Khan’s multidisciplinary research, impactful publications, and extensive contributions to biomedical engineering, biosensors, and nanomaterials make him a highly deserving candidate for the Best Researcher Award. His work continues to pave the way for innovative diagnostic technologies, improving human health and environmental sustainability worldwide.

Thanh Nguyen Chi | Biomaterials | Best Researcher Award

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Thanh Nguyen Chi | Biomaterials | Best Researcher Award

Dr Thanh Nguyen Chi, Ho Chi Minh City University of Technology and Education, Vietnam

Dr. Thanh Nguyen Chi is a renowned researcher in material science and nanotechnology with a stellar academic and professional background. Holding a PhD in Material Engineering – Polymer Engineering from Suranaree University of Technology, Thailand, and a second PhD in Organic Chemistry from Vietnam National University, Dr. Thanh’s research expertise spans nanostructured composites, supercapacitors, and eco-friendly remediation 🌱. Currently a lecturer at Ho Chi Minh City University of Technology and Education, he has contributed extensively to sustainable technologies and innovative energy solutions ⚡. His publications reflect a dedication to impactful scientific progress and environmental care 🌍.

Publication Profile

Scopus

Education Background 🎓

Dr. Thanh Nguyen Chi’s academic journey showcases his dedication to materials science and engineering. He completed postdoctoral research in Materials Technology at the Institute of Macromolecular Chemistry of the Czech Academy of Sciences (2019-2021) and at the Synchrotron Light Research Institute in Thailand (2017-2018) 🔬. His dual PhDs include Material Engineering-Polymer Engineering from Suranaree University of Technology, Thailand (2012-2017) and Organic Chemistry from Vietnam National University in partnership with UC Berkeley (2011-2012) 🎓. He also holds an MSc in Physical Chemistry (2008-2011) and a BSc in Material Science-Polymer Science (2003-2007) from Vietnam National University 🧪.

Professional Experience 💼

Dr. Thanh Nguyen Chi’s professional experience reflects his rich academic and research career. Currently a Lecturer at Ho Chi Minh City University of Technology and Education (2021-present) 🏫, he previously served as a Lecturer and Researcher at Ton Duc Thang University (2018-2019) and Suranaree University of Technology, Thailand (2017-2018) 📚. Dr. Thanh also worked as a Researcher at Ho Chi Minh City University of Technology (2011-2012) and at Saigon Hi-Tech Park’s R&D Center (2008-2010) 🔬. His industry experience includes being a Technical Service Specialist at Bayer MaterialScience (Covestro Vietnam) (2010-2011) 🏭, showcasing a robust blend of academia and practical applications.

Research Focus Area 🌱🧬

Dr. Nguyen Chi Thanh’s research focuses on the development of advanced materials and nanotechnology for sustainable applications 🌍. His work spans hydrogen and oxygen production via nanomaterial arrays for energy generation ⚡, drug delivery systems using hyperthermia and photothermal effects 💊, and supercapacitors for energy storage 🔋. He also explores environmental solutions, such as bioplastic films from avocado seed starch and nanocellulose fibers 🌱, and the potential of Hibiscus rosa-sinensis for environmental remediation 🌿. Additionally, his research includes electrochemical sensors for neurotransmitter detection and the modification of polymer blends for improved material properties 🧪.

Publication Top Notes

Development of three-dimensional iron-doped cobalt phosphides nanorod arrays coupled on nickel substrate for effective hydrogen and oxygen production

Photothermal therapy and cell imaging tracking of porous silicon nanoparticle by magnesiothermic reduction and surface modification

Hierarchical Co(OH)2 nanosheets-attached flexible non-woven fabric network coupled with iron oxides nanoparticles-deposited nitrogen-doped carbon for supercapacitor application

THE EFFECT OF CARBON BLACK PERCENTAGE ON MECHANICAL PROPERTIES AND MICROSTRUCTURE OF POLYBUTYLENE TEREPHTHALATE/POLYAMIDE 6/CARBON BLACK BLENDS

Study on Tensile Strength of High-Density Polyethylene/Polyethylene Terephthalate Blend

Hibiscus rosa-sinensis as a potential hyperaccumulator in metal contaminated magnesite mine tailings

Mixed pollutants adsorption potential of Eichhornia crassipes biochar on Manihot esculenta processing industry effluents

Conclusion 🏆

Dr. Thanh Nguyen Chi’s research has significantly impacted materials science and environmental engineering, demonstrating his commitment to scientific advancement and real-world applications. His academic qualifications, teaching dedication, and innovative projects make him a distinguished candidate for the Best Researcher Award.

Imtiaz Ahmad | Nanomaterials | Material Scientist Award

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Imtiaz Ahmad | Nanomaterials | Material Scientist Award

Dr Imtiaz Ahmad, University of Peshawar, Pakistan

Dr. Imtiaz Ahmad, a renowned nanotechnology researcher, holds a PhD from the University of Twente, Netherlands, and an MSc in Physics from the University of Peshawar, Pakistan. 🎓 He specializes in nanoparticle self-assembly, molecular interactions, and nanomaterial development for applications like EMI shielding and nanostructure patterning. 🔬 As a lecturer at the University of Peshawar since 2002, Dr. Ahmad has contributed to multiple high-impact publications in journals like Colloids and Surfaces A and Nano. 📚 His research continues to advance the understanding and application of nanomaterials, positioning him as a key figure in material science. 🌍

Publication Profile

Orcid

Education

Dr. Imtiaz Ahmad is a distinguished nanotechnology researcher with a PhD from the University of Twente, Netherlands (2012–2015), and an MSc in Physics from the University of Peshawar, Pakistan (2000–2001), where he earned second position in order of merit. 🎓 His research in nanotechnology focuses on nanoparticle assembly, molecular interactions, and the development of advanced materials. 🔬 Dr. Ahmad has contributed to numerous publications in high-impact journals and is a faculty member at the University of Peshawar, where he continues to innovate in the field of nanomaterials. 🌍📚 His work has made a significant impact on material science and nanotechnology.

Work Experience

Dr. Imtiaz Ahmad is an experienced educator and researcher in nanotechnology. He began his career as a lecturer at APS Girls College (2001–2002), teaching physics and laboratory courses. 🌟 Since 2002, he has been a lecturer at the University of Peshawar, where he combines teaching with groundbreaking research. 📚 From 2012 to 2015, he was a research scholar at the University of Twente in the Physics of Interfaces and Nanomaterial Group (PIN) in the Netherlands, further developing his expertise in nanomaterials. 🔬 His academic journey and contributions continue to shape the field of nanotechnology. 🌍

Research Focus

Dr. Imtiaz Ahmad’s research focus lies primarily in nanotechnology and nanomaterials, particularly in the areas of nanoparticle self-assembly, nanostructure patterning, and nanoparticle properties. His work explores the physicochemical characteristics and behaviors of nanoparticles, including gold nanostructures, and their applications in fields like electromagnetic interference (EMI) shielding and nano-optics. 🔬 His studies on shape transitions of nanoparticles, steric interactions, and surface assembly techniques have deepened the understanding of nanoparticle behavior at the molecular level. 🌍 His contributions span across multiple journals, focusing on improving material properties and advancing nanotechnology applications. 💡

 

Publication Top Notes

Gold nano densities: Relationship with drying parameters

Shifting shapes: Density variations and physicochemical characteristics from spheres to rods

Surfactant Molecules and Nano Gold on HOPG: Experiment and Theory

Molecular-Induced Steric Shape Separation of Nano Geometries

STATIONARY AND ULTRASONIC NANOPARTICLE ASSEMBLY ON NOTABLE SURFACES

SELF-ASSEMBLY ON DUAL WETTABLE SURFACE

Size-Separation and Self-Assembly of Anisotropic Nanoparticles in a Coffee-Stain Ring

Conclusion

Dr. Imtiaz Ahmad’s extensive research on nanomaterials and their interactions highlights his significant contributions to material science. His work on nanoparticle self-assembly, electromagnetic properties, and nanostructures has laid the foundation for numerous technological advancements, particularly in nanofabrication and materials design. His academic rigor and innovative approach position him as a prominent candidate for the Material Scientist Award.

Shiqiao Liu | Composite Materials | Best Researcher Award

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Shiqiao Liu | Composite Materials | Best Researcher Award

Dr Shiqiao Liu, Beijing Institute of Technology, China.

Dr. Shiqiao Liu is a PhD student at Beijing Institute of Technology, specializing in high-efficiency microwave absorbing materials. 🔬 His groundbreaking research focuses on developing advanced materials like reduced graphene oxide/cyanoethyl cellulose composites for microwave absorption and metasurface radiative cooling devices for dynamic thermal regulation. 🌍 Dr. Liu has published three SCI papers and presented his work at international conferences, showcasing his expertise and contributions to material science. 📚 With a passion for innovation, his work holds great promise for applications in electronics, energy efficiency, and environmental sustainability. 🌱 Dr. Liu’s dedication to research makes him a leading contender for the Best Researcher Award. 🏆

Publication Profile

Scopus

Educational Background

Dr. Shiqiao Liu is a dedicated PhD student at Beijing Institute of Technology, specializing in high-efficiency microwave absorbing materials. 🔬 His research focuses on developing innovative materials with enhanced electromagnetic properties, contributing to advancements in various fields, including electronics and energy. 🌍 So far, Dr. Liu has published three SCI papers, showcasing his deep knowledge and research expertise. 📚 Additionally, he actively participates in international conferences, where he presented his findings in an oral session, further establishing his reputation in the scientific community. 🗣️ With a strong academic background and commitment to innovation, Dr. Liu is making notable strides in his field. 🚀

Research Focus

Dr. Shiqiao Liu’s research primarily focuses on material science, with a particular emphasis on high-efficiency microwave absorption materials, thermal regulation, and photocatalysis. 🔬 His work involves developing advanced composites like reduced graphene oxide/cyanoethyl cellulose for microwave absorption and exploring novel metasurface radiative cooling devices for dynamic thermal management. 🌍 Additionally, he is researching the photocatalytic production of hydrogen peroxide using tailored materials like MoS2 nanosheets. ⚡ His innovative approach in dielectric tailoring and material design aims to enhance electromagnetic properties for applications in electronics, energy, and environmental sustainability. 🌱 Dr. Liu’s research contributes significantly to the development of functional materials for diverse industrial applications.

Publication Top Notes

Temperature-adaptive metasurface radiative cooling device with excellent emittance and low solar absorptance for dynamic thermal regulation

Reduced graphene oxide/cyanoethyl cellulose composite: An example of dielectric tailoring design for efficient microwave absorption materials

Modulate the Strong Exciton Effect by Na+ Coordination-Induced Trap States: Efficient Photocatalytic H2O2 Production

Auricularia-shaped MoS2 nanosheet arrays coated hierarchical multilayer MoS2/PPy/rGO composites for efficient microwave absorption

Facile hydrothermal process achieving 1T/2H phase tailoring of MoS2 nanosheets for efficient microwave absorption

Absorber design based on In/C@Co/C composites for efficient microwave absorption

Interfacial Chemical Bond Engineering in a Direct Z-Scheme g-C3N4/MoS2 Heterojunction

Enhanced Electromagnetic Absorption of Flake Carbonyl Iron/Reduced Graphene Oxide Composites

Conclusion

Dr. Shiqiao Liu’s impressive research trajectory, evidenced by his contributions to material science, particularly in advanced materials for electromagnetic absorption, thermal regulation, and photocatalysis, positions him as a leading contender for the Best Researcher Award. His work not only advances scientific understanding but also has tangible impacts on industrial applications, energy efficiency, and environmental sustainability.