Shivam Srivastava | Material Science | Young Scientist Award

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Mr. Shivam Srivastava | Material Science | Young Scientist Award

Research scholor at Dr Shakuntala Misra National Rehabilitation University Lucknow, India.

🔬 Shivam Srivastava is a dedicated researcher specializing in Material Science, currently pursuing a Ph.D. in Physics at Dr. Shakuntala Misra National Rehabilitation University, Lucknow (Thesis submission in progress). With an M.Sc. in Physics from Lucknow University (2021, 79%) and a B.Sc. in PCM from CSJM University, Kanpur (2019, 64%), he has built a strong academic foundation. His research focuses on thermoelastic properties, high-pressure analysis, and nanomaterials, with several publications in reputed journals. Proficient in XRD, SEM, FTIR, and computational tools, he actively contributes to advancing materials science.

Professional Profile:

Scopus

Suitability for Young Scientist Award – Shivam Srivastava

Shivam Srivastava is an emerging researcher in Material Science, making significant contributions to thermoelastic properties, high-pressure analysis, and nanomaterials. His expertise in computational modeling and experimental techniques such as XRD, SEM, and FTIR strengthens his research. His publications in reputed journals, coupled with active participation in national and international conferences, demonstrate his commitment to advancing material science. With a strong academic background, technical skills, and innovative research, he is a promising candidate for the Young Scientist Award.

Education & Experience

📚 Education:

  • 🎓 Ph.D. in PhysicsDr. Shakuntala Misra National Rehabilitation University, Lucknow (Thesis Submitted)

  • 🎓 M.Sc. in PhysicsLucknow University (2021, 79%)

  • 🎓 B.Sc. in PCMCSJM University, Kanpur (2019, 64%)

  • 🏫 12th (PCM, Hindi, English)UP Board (2016, 96%)

  • 🏫 10th (Science, Math, Computer, Hindi, English)UP Board (2014, 86%)

🛠 Technical Experience:

  • 🏗 Experimental Techniques: XRD, SEM, FTIR, EDS

  • 💻 Software Proficiency: Gaussian, BURAI, Origin, MS Office

  • 🌎 Languages Known: English, Hindi

Professional Development

📖 Shivam Srivastava actively engages in computational modeling and experimental research in material science. His expertise spans thermoelastic properties, high-pressure behavior, and nanomaterials, contributing significantly to energy storage and industrial applications. He has published multiple high-impact research papers, focusing on carbon nanotubes, lithium-ion battery materials, and molecular crystals. He stays updated with advanced computational techniques and regularly participates in national and international research forums. With strong analytical skills and hands-on experience in experimental physics and software simulations, he aims to drive innovative material research for future technological advancements.

Research Focus

🔬 Shivam Srivastava’s research primarily revolves around Material Science, with a specific focus on nanomaterials, elastic properties, and high-pressure studies. His work explores thermoelastic properties of carbon nanotubes, Grüneisen pa

rameter analysis for carbides and bromides, and high-pressure behavior of lithium-based materials used in energy storage. Utilizing equations of state and computational methods, he investigates structural and mechanical properties of materials under extreme conditions. His research aims to enhance the efficiency of energy storage materials, improve mechanical stability in industrial applications, and develop new materials with optimized properties for technological advancements.

Awards & Honors

🏅 Academic Excellence: Consistently ranked among top performers in M.Sc. and B.Sc.
📜 Research Publications: Published in reputed journals with high impact factors.
🏆 Scholarship & Recognition: Recognized for outstanding research contributions in Material Science.
🎤 Conference Participation: Actively presented research at national and international platforms.
💡 Innovation in Research: Contributed to new theoretical models in elastic properties and nanomaterials.

Publication Top Notes

🔬 Dimensional Effect on Phonon Frequency Vibrations of Nanostructured Materials

Mr. Peter Adeyemo | Materials science | Young Scientist Award

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Mr. Peter Adeyemo | Materials science | Young Scientist Award

Mr. Peter Adeyemo, Federal University of Agriculture, Abeokuta, Nigeria

Peter Adeyemo 🎓 is an accomplished physicist from the Federal University of Agriculture, Abeokuta (FUNAAB), Nigeria. With a Bachelor of Science in Physics, he graduated with distinction, earning a top rank in his class. His research interests lie in experimental condensed matter physics, quantum materials science, and quantum information science. Peter has contributed significantly to computational modeling and machine learning, specifically in predicting phase transitions in the Ising model. In addition to his research, he has a strong background in teaching, software engineering, and leadership, making him a well-rounded academic and researcher. 🌟🔬

Professional Profile:

Scopus

Suitability for the Young Scientist Award

Peter Adeyemo is an excellent candidate for the Young Scientist Award due to his outstanding academic achievements, innovative research, and contributions to computational and experimental physics.

Education and Experience

🎓 Education

  • B.Sc. in Physics, Federal University Of Agriculture, Abeokuta (FUNAAB), Nigeria (April 2019 – December 2023)
    • GPA: 4.72/5.00, Class Rank: 2/110
    • Thesis: Machine Learning-assisted prediction of phase transitions in two-dimensional Ising model.

💼 Experience

  • Graduate Research Assistant, Dr. P.O Adebambo’s group, FUNAAB (March 2024 – Present)
  • Graduate Research Assistant, Prof. A.O Mustapha’s group, FUNAAB (March 2023 – November 2023)
  • Graduate Research Assistant, Dr. S.A Ganiyu’s group, FUNAAB (March 2024 – Present)
  • Tutor, Deeper Life Campus Fellowship, FUNAAB (2021–2023)
  • Software Engineering Intern, TedPrime Hub, Abeokuta (March 2022–September 2022)

Professional Development

Peter Adeyemo 💡 is an emerging scholar who has quickly developed expertise in quantum materials science and machine learning. His graduate research assistantships at FUNAAB have allowed him to explore computational physics, working with algorithms to predict phase transitions. In addition, his internship at TedPrime Hub provided hands-on experience in software engineering, where he led the development of a computer-based testing application. His teaching experience further bolstered his academic profile, guiding students in physics and calculus. Peter continues to advance his career with certifications in cloud computing and deep learning. 🌍🧠

Research Focus

Peter Adeyemo’s research focuses on experimental condensed matter physics 🧪, with particular emphasis on quantum materials science and quantum information science. He is dedicated to utilizing machine learning algorithms and computational techniques to study phase transitions in systems like the Ising model. His work in quantum materials includes understanding electronic and thermoelectric properties of novel materials, often using first-principles calculations. Additionally, Peter applies computational tools like Quantum Espresso and deep learning frameworks to predict material behaviors, pushing the boundaries of both materials science and quantum computing. 🌌🖥️

Awards and Honors

🏅 Petroleum Development Funds In-country Scholar: Awarded to top-tier STEM students in Nigeria (February 2023)
🥇 First Runner-up: Inter-varsity Physics Contest, University of Ibadan (September 2021)
🎓 Best Student: Electromagnetism, X-ray Crystallography, Structural Analysis, Classical Mechanics, Nuclear Physics (December 2023)
🏆 Dean’s Honor Award: Outstanding academic performance (2021–2023)
🎖 Senate Prize: First Class Honours Award (December 2023)

Publication Top Notes:

  • 📜 Structural, Electronic and Thermoelectric Properties of NiScBi and PdScBi Half-Heusler Alloys from First Principles
  • 📜 Influence of Substrate Temperature and Deposition Time in Energy Band Gap Characteristic of Lead Sulfide Thin Film  – Cited by: 1 📉

 

 

Ms. Arni Gesselle Pornea | Materials | Best Researcher Award

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Ms. Arni Gesselle Pornea | Materials | Best Researcher Award

Ms. Arni Gesselle Pornea, Naieel Technology, Philippines

Arni Gesselle Pornea is a skilled senior researcher at Naieel Technology in Daejeon, South Korea. With a Ph.D. in Energy Science and Technology from Myongji University, he specializes in materials design for renewable energy applications, particularly in thermal management and energy conversion. Arni’s research includes the development of phase-changing materials, advanced composites, and energy storage technologies. He has authored multiple publications and holds patents in thermal interface materials and solar energy harvesting. With his diverse expertise, Arni is passionate about improving energy systems and contributing to sustainable energy innovations. 🌍💡🔬

Professional Profile:

Orcid

Summary of Suitability for Best Researcher Award

Arni Gesselle Pornea is a highly qualified candidate for the Best Researcher Award due to his innovative contributions to renewable energy and materials science. His research focuses on the design of advanced materials for energy storage and thermal management, particularly for applications in solar energy and phase-change materials. Arni’s work directly addresses the global need for more sustainable and efficient energy systems, making him a key figure in the field of energy science and technology.

Education & Experience:

  • Ph.D. in Energy Science and Technology, Myongji University, South Korea (2022) 🎓
    • Dissertation: Solar-mediated phase-changing materials for energy storage and conversion.
  • M.S. in Energy Science and Technology, Myongji University, South Korea (2019) 🎓
    • Dissertation: Multifunctional wax-infused porous films with anti-corrosion properties.
  • B.S. in Chemical Engineering, Adamson University, Philippines (2013) 🎓
  • Senior Researcher, Naieel Technology, Daejeon, South Korea (2022–present) 🔬
  • Graduate Research Assistant, Myongji University, South Korea (2017–2022) 🔬
  • Improvement Engineer, Western Digital, Philippines (2015–2017) 🏭
  • Quality Assurance Engineer, Black Water Printing, Philippines (2014–2015) 🖨

Professional Development:

Arni is dedicated to professional growth through various certifications, training, and continuous learning. He has completed Lean Six Sigma Yellow Belt certification (2020) for process improvement and Potential Failure Mode and Effects Analysis (FMEA) (2016) for risk management. Additionally, Arni received Basic Leadership Training (2015) to enhance his leadership skills. His work is complemented by extensive experience in data analysis using software like MATLAB, COMSOL, and ANSYS, ensuring optimal material performance for energy systems. 📈🔧📚

Research Focus:

Arni’s research focuses on the design and development of advanced materials for renewable energy systems. His work emphasizes the synthesis of high-performance composites, thermal management, and solar energy harvesting. His expertise includes the creation of phase-change materials (PCMs) for efficient solar energy storage and the optimization of thermal conductivity in composite materials for electronics. Arni is passionate about using materials science to improve energy conversion efficiency, focusing on sustainability and innovation in renewable energy technologies. 🌞🔋⚡

Awards & Honors:

  • Research Honor Award, Myongji University, South Korea (2022) 🏅
  • Best Oral Presentation, KSIEC, South Korea (2021) 🏆
  • Lean Six Sigma Yellow Belt Certification, Ask Lex PH Academy, Philippines (2020) 📜
  • Potential Failure Mode and Effects Analysis (FMEA), Western Digital, Philippines (2016) 🔧
  • Basic Leadership Training, BusinessCoach, Inc., Philippines (2015) 📚

Publication Top Notes:

Protruding Boron Nitride Nanotubes on the Al2O3 Surface Enabled by Tannic Acid-Assisted Modification to Fabricate a Thermal Conductive Epoxy/Al2O3 Composite

Boron Nitride Nanotube-Aligned Electrospun PVDF Nanofiber-Based Composite Films Applicable to Wearable Piezoelectric Sensors

Preparations and Thermal Properties of PDMS-AlN-Al2O3 Composites through the Incorporation of Poly(Catechol-Amine)-Modified Boron Nitride Nanotubes

Core-satellite assembly of phase-changing material microcapsules enabled with broadband light absorption and localized surface plasmonic resonance for effective photothermal energy harvesting

Synthesis of hybrid dual-MOF encapsulated phase-changing material for improved broadband light absorption and photothermal conversion enabling efficient solar energy storage

 

Dr. Mohsin Ali | Materials | Best Researcher Award

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Dr. Mohsin Ali | Materials | Best Researcher Award

Dr. Mohsin Ali, Southeast University Nanjing, China

Dr. Mohsin Ali is an accomplished researcher in civil engineering at the School of Civil Engineering, Southeast University, Nanjing, China. With a focus on concrete materials, durability performance, and sustainable construction techniques, Dr. Ali has contributed extensively to advancing innovative solutions in reinforced concrete, nanomaterials, and fracture analysis. His impactful work is reflected through numerous open-access publications in esteemed journals, highlighting his expertise in predictive modeling, advanced simulation techniques, and the utilization of eco-friendly cementitious materials. Dr. Ali remains committed to fostering sustainable and resilient infrastructure for the future. 🏗️🔬

Professional Profile:

Scopus

Summary of Suitability for the Best Researcher Award

Dr. Mohsin Ali is highly suitable for a Best Researcher Award based on his exemplary contributions and achievements in the field of civil engineering, particularly in sustainable construction materials, durability performance, and innovative modeling techniques

Education & Experience 🎓💼

  • 🎓 Ph.D. in Civil Engineering – Southeast University, Nanjing, China
  • 🎓 M.S. in Structural Engineering – University of Engineering and Technology, Pakistan
  • 👨‍🏫 Assistant Professor – Department of Civil Engineering, Pakistan
  • 🔬 Researcher – Southeast University, focusing on advanced simulation, sustainable materials, and fracture mechanics

Professional Development 📈🔧

Dr. Mohsin Ali actively engages in interdisciplinary research, collaborating internationally on cutting-edge civil engineering projects. He specializes in:

  • 🌱 Eco-friendly cementitious materials like wheat straw ash and banana leaf ash to enhance concrete durability.
  • 🛠️ Predictive modeling techniques (e.g., genetic programming) for improving structural resilience and optimization.
  • 🌐 Advanced numerical simulations involving hybrid nanofluid flows and Cattaneo-Christov heat flux models.
  • 📊 Fracture analysis and mechanical characterization of concrete using finite element modeling.

His professional development is marked by a commitment to sustainability, durability, and innovative engineering solutions. 🚀🏗️

Research Focus 🔍🧪

Dr. Ali’s research centers on:

  • 🌱 Sustainable Concrete Solutions – Utilizing waste materials such as silica fume, wheat straw ash, and banana leaf ash for eco-friendly and durable concrete.
  • 🧪 Advanced Materials – Application of nanomaterials like titanium dioxide in concrete for improved mechanical properties.
  • 🔬 Predictive and Numerical Modeling – Genetic programming, RSM optimizations, and numerical techniques for fracture and wear analysis.
  • 🏗️ Structural Durability – Corrosion resistance in reinforced concrete and performance against environmental attacks (e.g., sulphate and acid).
    His contributions address critical challenges in modern infrastructure sustainability. 🌍🔧

Awards & Honors 🏆🎖️

  • 🏆 Research Excellence Award – Southeast University, Nanjing
  • 🥇 Best Paper Award – International Conference on Sustainable Infrastructure
  • 🏅 Outstanding Reviewer Recognition – Leading Civil Engineering Journals
  • 🎖️ Research Grant Recipient – National Science Foundation for Eco-material Studies
  • 📜 Prestigious Fellowships – Recognized for collaborative work on fracture mechanics

Publication Top Notes:

📝 Predictive modeling for depth of wear of concrete modified with fly ash: A comparative analysis of genetic programming-based algorithms
🔗 Cited by: 14
📝 Effect of banana tree leaves ash as cementitious material on the durability of concrete against sulphate and acid attacks
🔗 Cited by: 4
📝 Effect of silica fume on fracture analysis, durability performance and embodied carbon of fiber-reinforced self-healed concrete
🔗 Cited by: 7
📝 Effect of wheat straw ash as cementitious material on the mechanical characteristics and embodied carbon of concrete reinforced with coir fiber
🔗 Cited by: 8
📝 Effect of titanium dioxide as nanomaterials on mechanical and durability properties of rubberised concrete by applying RSM modelling and optimizations
🔗 Cited by: 8

 

 

Dr. Mihai Grigoroscuta | Nanocomposites Award | Best Researcher Award

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Dr. Mihai Grigoroscuta | Nanocomposites Award | Best Researcher Award

Dr. Mihai Grigoroscuta, National Institute of Materials Physics, Romania

Grigoroscuta Mihai-Alexandru is a Romanian researcher specializing in functional oxides, superconductors, and thin films. He holds a PhD in Materials Science from the University “Politehnica” of Bucharest, where his research focused on boron and rare earth-based materials. Currently, he works as a researcher at the National Institute of Materials Physics (NIMP) in Magurele, within the Laboratory of Magnetism and Superconductivity. Grigoroscuta’s work includes developing new materials for various applications, particularly in the fields of superconductivity and energy storage. He has undertaken multiple research internships at renowned institutions such as NIMS Tsukuba (Japan) and IPCMS Strasbourg (France). His expertise extends to Spark Plasma Sintering (SPS), thin film growth by Pulsed Laser Deposition (PLD), and magnetic orientation of materials.

Professional Profile:

Scopus

Suitability for the Best Researcher Award: Grigoroscuta Mihai-Alexandru

Grigoroscuta Mihai-Alexandru demonstrates exceptional qualifications that make him highly suitable for the Best Researcher Award. His research in materials science, particularly in the fields of superconductivity, functional oxides, and thin films, showcases both depth and innovation.

🎓Education

Grigoroscuta Mihai-Alexandru completed his Bachelor’s degree in Medical Engineering at the University “Politehnica” of Bucharest in 2014. His academic journey continued with a Master’s degree in Metallic Biomaterials, focusing on spectral conversion in photovoltaic applications using rare-earth-doped CeO2 thin films. He obtained his PhD in 2021, specializing in boron and rare-earth-based materials for various technological applications, under the guidance of Professors Badica Petre and Cojocaru Mihai Ovidiu. During his doctoral research, he delved into functional oxides, superconductors, and thin films, advancing knowledge in the fabrication and application of high-performance materials. Grigoroscuta also participated in various international research internships, including at NIMS Tsukuba (Japan), IPCMS Strasbourg (France), and NIMP, which greatly enriched his research and practical experience.

🏢Experience

Grigoroscuta Mihai-Alexandru currently works as a researcher at the National Institute of Materials Physics (NIMP) in Magurele, where he is part of the Laboratory of Magnetism and Superconductivity. His work focuses on the development of functional oxides, superconductors, thin films, and boron-based ceramics. Before this, Grigoroscuta pursued his doctoral studies at the University “Politehnica” of Bucharest, where he worked on boron and rare earth-based materials. In addition to his academic work, he has gained valuable experience through several research internships at internationally renowned institutions. At NIMS Tsukuba (Japan), he worked on high magnetic field studies related to MgB2, and at IPCMS Strasbourg (France), he investigated the structural and optical properties of CeO2 thin films. He has contributed to several research projects focused on superconductivity and energy materials.

🏅Awards and Honors 

Grigoroscuta Mihai-Alexandru has earned several notable awards and recognitions during his academic career. He won first place at the University “Politehnica” of Bucharest’s scientific session for students in 2015, for his research on the structural and optical properties of Yb-Er ceria codoped thin films for photovoltaic applications. He repeated this achievement in 2016, for his work on enhancing efficiency in c-Si solar cells using rare-earth doped CeO2 thin films. His contributions to the scientific community have been recognized at various conferences, where he presented his work on superconductors, thin films, and materials science. His achievements include multiple poster presentations and conference talks, with his research on MgB2 and related materials being particularly well-regarded in international forums such as the 15th ECERS Conference in Serbia and the European Conference on Applied Superconductivity (EUCAS) in Italy in 2023.

🔬Research Focus 

Grigoroscuta Mihai-Alexandru’s research primarily focuses on the development of advanced materials with applications in superconductivity, energy storage, and photovoltaics. His work in the field of superconductivity revolves around the development of high-performance MgB2 and boron-based superconductors, using innovative techniques such as Spark Plasma Sintering (SPS) and magnetic orientation. He has contributed to the understanding of critical current densities, microstructural design, and the optimization of grain boundaries in superconducting materials. In addition, his research in thin film technology emphasizes the development of functional oxides for photovoltaic applications, including the use of rare-earth-doped CeO2 thin films. Grigoroscuta’s goal is to enhance the efficiency of solar cells and energy storage devices through the application of advanced material science. He has also explored the structural, optical, and compressive properties of these materials to understand their potential for use in various energy and electronics applications.

Publication Top Notes:

1. Functionalization of Graphene Oxide Surface by Conjugation with Glucosamine and Analysis of Interactions Occurring in Nanoceramic-Graphene Heterostructures
  • Citations: 4
2. Efficient Sintering of Mo Matrix Composites—A Study of Temperature Dependences and the Use of the Sinter Additive Ni
  • Citations: 3
3. Mesoporous Composite Bioactive Compound Delivery System for Wound-Healing Processes
  • Citations: 1
4. Multi-Parametric Exploration of a Selection of Piezoceramic Materials for Bone Graft Substitute Applications
  • Citations: 5
5. Measurements of Surface Impedance in MgB2 in DC Magnetic Fields: Insights in Flux-Flow Resistivity
  • Citations: 1

 

Mr. Yu-Ming Huang | Nanocomposites Awards | Best Researcher Award

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Mr. Yu-Ming Huang | Nanocomposites Awards | Best Researcher Award

Mr. Yu-Ming Huang , National Cheng Kung University , Taiwan

Dr. Yuming Huang is a distinguished professor at National Cheng Kung University in Tainan, Taiwan. Renowned for his contributions to the field of materials science and engineering, Dr. Huang’s research interests span advanced materials, nanotechnology, and sustainable energy solutions. With numerous publications and citations to his name, he has established himself as a leading figure in his domain, contributing significantly to both academic and industrial advancements. Dr. Huang’s work continues to inspire and drive innovation in the global scientific community.

Professional Profile:

Scopus

Education:

Dr. Yu-Ming Huang, born in Tainan, Taiwan, in 1977, received his MS degree in electrical engineering from Southern Taiwan University and his PhD in Engineering Science from the Graduate School of Engineering Science at Osaka University, Japan, in 2008. Since 2009, he has been a post-doctoral fellow at National Cheng Kung University, focusing on research in MEMS and tactile sensor devices.

Work Experience:

Dr. Yu-Ming Huang, born in Tainan, Taiwan, in 1977, received his MS degree in electrical engineering from Southern Taiwan University and his PhD in Engineering Science from the Graduate School of Engineering Science at Osaka University, Japan, in 2008. Since 2009, he has been a post-doctoral fellow at National Cheng Kung University in Tainan, Taiwan. His research primarily focuses on MEMS and tactile sensor devices. Dr. Huang’s work in this area aims to advance the development and application of these technologies, contributing to innovations in various fields that rely on precise and responsive sensor systems.

Publication Top Notes:

  • Implementation of SOPC based Telecom & Datacom for monitoring wireless sensor networks
    • Authors: Chen, H.-C., Huang, Y.-M., Su, C.-H., Chiu, T.-W.
    • Citations: 1
  • Fabrication and performance assessment of a novel stress sensor applied for micro-robotics
    • Authors: Huang, Y.-M., Tsai, N.-C., Lai, J.-Y.
    • Citations: 1
  • Development of tactile sensors for simultaneous detection of normal and shear stresses
    • Authors: Huang, Y.-M., Tsai, N.-C., Lai, J.-Y.
    • Citations: 26
  • Stability improvement of tactile sensor of normal and shear stresses using Ni-Cr thin film gauge
    • Authors: Onishi, H., Sohgawa, M., Tachibana, H., Noda, M., Noma, H.
    • Citations: 22
  • Fabrication and normal/shear stress responses of tactile sensors of polymer/Si cantilevers embedded in PDMS and urethane gel elastomers
    • Authors: Huang, Y.-M., Sohgawa, M., Yamashita, K., Noda, M., Noma, H.
    • Citations: 16

 

 

Dr. Veronika Rozhdestvina | Materials Awards | Best Researcher Award

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Dr. Veronika Rozhdestvina | Materials Awards | Best Researcher Award

Dr. Veronika Rozhdestvina , Institute of Geology and Nature Management, FEB of RAS , Russia

Veronika Ivanovna Rozhdestvina is a leading researcher at the Institute of Geology and Nature Management, FEB of RAS, specializing in solid-phase nanotransformation of noble metals, electron microscopy, Raman spectroscopy, and IR spectroscopy. She earned her Ph.D. in Physic-mathematical Sciences and has been associated with the Far Eastern Branch of the Russian Academy of Sciences since 1989, progressing from a research assistant to a head of laboratory. Her notable research includes investigating nano-sized solid-phase processes and the structural features of bismuth crystals. With over 150 scientific publications, Rozhdestvina is recognized for her significant contributions to the field of mineral-geochemistry investigation.

Professional Profile:

Scopus

Education:

Veronika Ivanovna Rozhdestvina embarked on her academic journey by graduating with honors in Geology, Prospecting, and Exploration of Mineral Resources in 1984. Subsequently, she completed her studies at the Institute of Technology in 1990. Driven by her passion for scientific inquiry, she pursued a Ph.D. in Physic-mathematical Sciences, concentrating on the impact of structural characteristics of bismuth crystals on their properties. Her educational pursuits laid a solid foundation for her career, which has flourished at the Far Eastern Branch of the Russian Academy of Sciences since 1989. Starting as a research assistant at the Laboratory of Physical Research Methods, she advanced to lead the laboratory and currently serves as a distinguished researcher at the Laboratory of Microscopy and Structural-Molecular Studies, Amur Centre of Mineral-Geochemistry Investigation. Throughout her career, Rozhdestvina has applied advanced research techniques such as scanning electron microscopy, X-ray spectral studies, Raman spectroscopy, IR spectroscopy, and X-ray diffraction, contributing significantly to the field of mineral-geochemistry investigation with over 150 scientific publications.

Work Experience:

Since joining the Far Eastern Branch of the Russian Academy of Sciences in Blagoveshchensk, Russia, in 1989, Veronika Ivanovna Rozhdestvina has demonstrated a remarkable trajectory in scientific research. Beginning her career at the Laboratory of Physical Research Methods, she steadily advanced from a research assistant to ultimately leading the laboratory over the span of 35 years. Currently serving as a leading researcher at the Laboratory of Microscopy and Structural-Molecular Studies, Amur Centre of Mineral-Geochemistry Investigation, Rozhdestvina specializes in investigating nano-sized solid-phase processes involving the structuring, transformation, and self-assembly of noble metals. Her expertise encompasses advanced analytical techniques such as scanning electron microscopy, Raman spectroscopy, and IR spectroscopy, which she applies to unravel the complexities of mineral-geochemical phenomena. With a robust portfolio of scientific publications exceeding 150, Rozhdestvina continues to make significant contributions to the understanding and advancement of her field. Materials Awards

Publication Top Notes:

  • Solid-Phase Gold Transformation in Contact Interactions
    • Journal: Springer Proceedings in Earth and Environmental Sciences
    • Publication Date: 2023
    • Pages: 79–87
    • Cited By: 1
  • Development of a Catalyst Based on Titanium Nanoparticles in a Zeolite Matrix
    • Journal: Glass and Ceramics (English translation of Steklo i Keramika)
    • Publication Date: 2022
  • Solid-Phase Low-Temperature Evolution of the Binary Pb–Au System: Via Contact Interactions to Intermetallic Compounds, through the Destructurization to a New Multielemental State
    • Journal: Physics of the Solid State
    • Publication Date: 2020
    • Volume: 62(11)
    • Pages: 1973–1986
    • Cited By: 1
  • Solid-Phase Interactions in the Bi–Au System
    • Journal: Physics of the Solid State
    • Publication Date: 2020
    • Volume: 62(3)
    • Pages: 401–413
    • Cited By: 2
  • Composite Based on Zeolite Modified by Copper Particles
    • Journal: Glass and Ceramics (English translation of Steklo i Keramika)
    • Publication Date: 2020
    • Volume: 76(9-10)
    • Pages: 351–353
    • Cited By: 2