Dr. Andrey Zhigachev | Materials Science | Materials Chemistry Advancement Award

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Dr. Andrey Zhigachev | Materials Science | Materials Chemistry Advancement Award

Doctorate at Institute of Solid State Physics, Russian Academy of Science |  Russia

Andrey Zhigachev, born in 1991, is an accomplished researcher with over a decade of expertise in the field of materials chemistry. Specializing in dense engineering zirconia ceramics and glass-ceramics for solid oxide fuel cells, Zhigachev has significantly contributed to the development and understanding of advanced materials.

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🎓 Academic Background

Andrey Zhigachev graduated magna cum laude in Physics from G.R. Derzhavin Tambov State University in 2013. He pursued his PhD from the same institution, focusing on Synthesis, Structure, and Properties of Novel Baddeleyite-Based Calcia-Stabilized Zirconia Ceramics. Successfully defending his PhD in 2016, Andrey laid the foundation for his expertise in dense engineering zirconia ceramics.

🧑‍🔬 Professional Expertise and Skills

With over a decade of experience in dense engineering zirconia ceramics, Andrey has specialized in phase composition, microstructure, mechanical properties, and low-temperature aging resistance. Additionally, his three years of expertise in glasses and glass-ceramics for solid oxide fuel cells have cemented his reputation as a researcher capable of bridging disciplines.
Andrey is proficient with advanced techniques, including:

X-ray diffractometry

Scanning and optical microscopy

Optical profilometry

Visible light and infrared spectroscopy

He also excels in high-energy ball milling, mechanochemical activation, and designing ceramics, alongside computational modeling using MatLab. Fluent in Russian and highly skilled in English, Andrey adapts rapidly to new challenges and environments.

🏢 Professional Career

  • Researcher (2011–2021)
    At the Research and Educational Center “Nanotechnologies and Nanomaterials” in Tambov, Russia, Andrey was responsible for the preparation and experimental/theoretical study of nanostructured zirconia ceramics. He also maintained specialized scientific equipment and conducted computational modeling for various physical processes.
  • Senior Researcher (2021–Present)
    Currently at the Institute of Solid State Physics RAS, Andrey’s work focuses on silicate and aluminosilicate glasses and glass-ceramics for solid oxide fuel cell systems. He is involved in developing novel experimental techniques for studying high-temperature inorganic sealants, contributing to advancements in clean energy technologies.

💡 Highlights of Research

Andrey’s PhD research on baddeleyite-based zirconia ceramics brought forward innovations in the field of calcia-stabilized ceramics, crucial for their applications in engineering and manufacturing. His ongoing research in high-temperature sealants holds promise for the development of efficient and durable solid oxide fuel cell systems, pivotal for sustainable energy solutions.

Publications Top Noted📝

Electrochemical behavior of perovskite-type Ce1−xCaxVO3 under reducing conditions

Authors: Tsipis, E.V., Zhigacheva, D.V., Zhigachev, A.O., Bredikhin, S.I., Kharton, V.V.
Journal: Journal of Solid State Electrochemistry
Year: 2024

The effect of CaO/MgO content on properties of barium aluminosilicate sealants for solid oxide fuel cells

Authors: Zhigachev, A.O., Iskanderova, A.R., Zhigacheva, D.V., Demeneva, N.V., Bredikhin, S.I.
Journal: Journal of Non-Crystalline Solids
Year: 2024

Calcium–Borosilicate Glass-Ceramics as a Sealant for Solid Oxide Fuel Cells

Authors: Zhigachev, A.O., Bredikhin, S.I., Agarkova, E.A., Matveev, D.V.
Journal: Russian Journal of Electrochemistry
Year: 2024

CaO-SiO2-B2O3 Glass as a Sealant for Solid Oxide Fuel Cells

Authors: Zhigachev, A.O., Agarkova, E.A., Matveev, D.V., Bredikhin, S.I.
Journal: Ceramics
Year: 2022

Doping of scandia-stabilized zirconia electrolytes for intermediate-temperature solid oxide fuel cell: A review

Authors: Zhigachev, A.O., Rodaev, V.V., Zhigacheva, D.V., Lyskov, N.V., Shchukina, M.A.
Journal: Ceramics International
Year: 2021

Prof. Wanyuan Gui | Materials Science | Best Researcher Award

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Prof. Wanyuan Gui | Materials Science | Best Researcher Award

Professor at University of Science and Technology Beijing | China

Dr. Wanyuan Gui is a highly accomplished scholar with extensive experience in both research and teaching. He is currently a Professor at the National Center for Material Service Safety at the University of Science and Technology Beijing (USTB), where he has held the position since 2021. In addition to his role as a professor, Dr. Gui is the head of both the laser cladding and additive manufacturing laboratory and the laser chemistry laboratory at USTB.

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🎓Academic and Professional Journey 

Prof. Wanyuan Gui’s educational background includes a Ph.D. in Engineering (2015-2019), completed at the State Key Laboratory of New Metals at the University of Science and Technology Beijing. During his doctoral research, he was mentored by the renowned Changjiang Scholar Professor Lin Junpin, the Chief Scientist of the 973 Program. Following his Ph.D., Prof. Gui embarked on a Postdoctoral Teaching Fellowship (2019-2021) at the National Center for Material Service Safety Science, University of Science and Technology Beijing, where he worked under the guidance of Academician Luan Benli, further refining his expertise in materials science.

🏢Professional Experience and Leadership

Prof. Gui has held several prestigious academic and leadership positions. From July 2021 to July 2024, he served as a Professor and Laboratory Head at the National Center for Material Service Safety at the University of Science and Technology Beijing. In addition to his role as a professor, he led two key research laboratories: the Laser Cladding and Additive Manufacturing Laboratory and the Laser Chemistry Laboratory. His leadership at these laboratories is a testament to his proficiency in advanced material technologies. Additionally, Prof. Gui served as an Assistant Professor from July 2021 to June 2024, overseeing critical operations and research at the National Center for Material Service Safety, contributing to the institution’s cutting-edge research in material sciences.

🔬Research Areas and Specializations 

Prof. Gui’s research focuses on several groundbreaking areas, primarily in aviation materials, laser cladding, and metal composite porous materials. His work in the development of lightweight superalloys for aviation is aimed at improving aviation materials by utilizing innovative additive manufacturing techniques, which can enhance material performance for aerospace applications. Additionally, he specializes in laser cladding for durable coatings, creating materials with wear-resistant, corrosion-resistant, and high-temperature oxidation-resistant properties. This is crucial for extending the lifespan of components in harsh environments, particularly in the aerospace and energy industries. Prof. Gui also pioneers research on the preparation of metal composite porous materials, designed for energy conservation and emission reduction, contributing significantly to sustainable technologies.

Publications Top Noted📝

Bio-corrosion behaviors and bio-compatibilities of TiNbZrTa and TiNbZrTaMo high entropy alloys

Authors: Cheng, J., Yang, P., Chen, Q., Wu, T., Hu, J.

Journal: Journal of Materials Research and Technology

Year: 2024

High-speed laser-clad 3533-00 Fe-based cemented carbide coatings on nuclear power valve sealing surface to enhance wear and corrosion resistance

Authors: Fu, J., Gui, W., Qin, J., Ren, X., Luan, B.

Journal: Surface and Coatings Technology

Year: 2024

A refined fully lamellar TiAl alloy extruded at α-phase region: Microstructure and mechanical properties

Authors: Yang, G., Xu, X., Sun, T., Liang, Y., Lin, J.

Journal: Materials Science and Engineering: A

Year: 2023

Microstructure and Properties of Electromagnetic Field-Assisted Laser-Clad Norem02 Iron-Based Cemented Carbide Coating

Authors: Wang, Z., Gui, W., Fu, J., Zhu, P., Lu, Y.

Journal: Materials

Year: 2023

Ti–48Al–2Cr–2Nb alloys prepared by electron beam selective melting additive manufacturing: Microstructural and tensile properties

Authors: Feng, J., Gui, W., Liu, Q., Lin, J., Luan, B.

Journal: Journal of Materials Research and Technology

Year: 2023

Dr. Kshipra Sharma, Materials Science, Best Researcher Award

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Dr. Kshipra Sharma, Materials Science, Best Researcher Award

Doctorate at Lund University, Sweden

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📚 Academic and Professional Background

Dr. Kshipra Sharma, a postdoctoral researcher at Lund University’s Centre for Analysis and Synthesis. My research investigates the growth dynamics of earth-abundant metal phosphides, such as nickel-phosphide (Ni-P), for catalyst applications using Environmental Transmission Electron Microscopy (ETEM). I hold a PhD in Nanoelectronics and Nanotechnologies from the University of Grenoble Alpes, France, specializing in atomic-scale defect formation and analysis in 2D materials like graphene and transition metal dichalcogenides using atomic-resolution TEM techniques. Additionally, I possess an integrated B.Tech-M.Tech in Nanotechnology from the University of Rajasthan, India. My expertise in advanced TEM-based techniques and nanomaterials structural engineering supports my current focus on developing low-cost and efficient catalysts for sustainable energy.

🔬 Areas of Research

Atomic-scale designing of nanostructures, including atomically thin 2D layers and nanoparticles for advancements in sustainable energy research.

📌 Key Research Projects

Formation dynamics study of earth-abundant nickel phosphide catalysts using Environmental Transmission Electron Microscopy (ETEM) for CO2 capture and conversion.

Investigating morphology-dependent hydrogen evolution reaction (HER) performance of Co2Ni-Phosphide heterostructures.

Designing bimetallic catalysts for hydrogen evolution reaction: Real-time growth study of nanoparticles with ETEM.

🧬 Previous Research Experience

Atomic-scale defect formation study in two-dimensional materials using advanced transmission electron microscopy (TEM) techniques (2019-2022).

PMMA removal from the graphene surface using downstream plasma (2019-2022).

Atomic-scale mapping of local electric field and electrostatic potential in 2D materials via four-dimensional (S)TEM (2019-2022).

Fabrication and modification of metal-fullerene nanocomposite using ion beam (2018-2019).

Development of flexible supercapacitors for wearable electronics (2017-2018).

Development of a targeted nano-drug delivery system for cancer treatment (2016).

Publications Top Noted📝 

Flexible supercapacitor based on three‐dimensional cellulose/graphite/polyaniline composite

Authors: Kshipra Sharma, Kapil Pareek, Rupesh Rohan, Pawan Kumar

Journal: International Journal of Energy Research

Year: 2019

Low temperature, easy scaling up method for development of smart nanostructure hybrid lipid capsules for drug delivery application

Authors: Sunil Kumar Yadava, Suparna Mercy Basu, Meenakshi Chauhan, Kshipra Sharma, Arpan Pradhan, V Remya, Jyotsnendu Giri

Journal: Colloids and Surfaces B: Biointerfaces

Year: 2020

Temperature induced surface plasmon resonance in Au/aC nanocomposite thin film

Authors: Ritu Vishnoi, Kshipra Sharma, Ganesh D Sharma, Rahul Singhal

Journal: Vacuum

Year: 2019

Investigation of sequential thermal annealing effect on Cu-C70 nanocomposite thin film

Authors: Ritu Vishnoi, Kshipra Sharma, Shriniwas Yadav, Rahul Singhal

Journal: Thin Solid Films

Year: 2019

Practice of electron microscopy on nanoparticles sensitive to radiation damage: CsPbBr3 nanocrystals as a case study

Authors: Tuan M Duong, Kshipra Sharma, Fabio Agnese, Jean-Luc Rouviere, Hanako Okuno, Stéphanie Pouget, Peter Reiss, Wai Li Ling

Journal: Frontiers in Chemistry

Year: 2022

Dr. Jiaojiao Du, Materials Science, Best Researcher Award

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Dr. Jiaojiao Du, Materials Science, Best Researcher Award

Doctorate at Yangzhou Universtiy, China

Professional Profile

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🎓 Educational Background

Jiaojiao Du completed her Ph.D. in Materials Science at the School of Materials Science and Engineering, Northeastern University, Shenyang, China, from September 2011 to May 2016. Her doctoral research focused on the applications of nano film and granular film in magnetic and biomedical fields. Prior to her Ph.D., she pursued a Master’s degree in Condensed Matter Physics at the School of Science, also at Northeastern University, from September 2009 to July 2011, where she concentrated on exploring nanomaterial properties for scientific and practical applications. She began her academic journey with a Bachelor’s degree in Physics at the School of Science, Bohai University, Jinzhou, China, from September 2005 to July 2009, where she built a strong foundation in physics and materials science.

🔬 Research Areas

Jiaojiao’s research interests are extensive and centered around nano and protective film technologies. She investigates nano films and nano granular films, particularly nanocrystalline films applied in magnetic and biomedical fields, with a focus on understanding the growth and nucleation of these films under the influence of high magnetic fields. This work reveals the control mechanisms of nano film microstructures and their potential applications. Her work in absorbing materials involves developing hollow core and porous nano magnetic C-polyhedral nanoparticles with strong absorbing properties to combat electromagnetic radiation pollution, thus protecting electronic devices and human health. Additionally, Jiaojiao specializes in protective films and coatings that are wear-resistant, corrosion-resistant, and heat-conducting. These protective films significantly enhance thermal conductivity and insulation properties and are instrumental in extending the operational life of marine devices through self-cleaning coatings.

💼 Employment

Jiaojiao Du has contributed to academia and research in several prestigious institutions. As a Visiting Scholar at the Department of Mechanics and Engineering Science, Peking University, Beijing, China, from April 2019 to March 2020, she focused on developing microfluidic devices with nano films to separate and analyze circulating tumor cells using magnetic fields. Her work also included detection of tumor cell differentiation through electrical signals. Since May 2018, she has been a Lecturer at the College of Mechanical Engineering, Yangzhou University, Jiangsu, China, leading research on the growth and nucleation of magnetic nanocrystalline films and nanoparticle microstructures with absorbing properties for electromagnetic applications. Previously, she served as a Lecturer at the College of Mechanical and Electrical Engineering, Qingdao Binhai University, Shandong, China, from September 2016 to January 2018, where she investigated protective films that enhance thermal conductivity, corrosion resistance, and durability of marine devices.

🏆 Honors and Awards

Jiaojiao has received several notable awards for her contributions to science and technology. In 2022, she was awarded the Chinese Government Scholarship by the China Scholarship Council to support study abroad. In 2019, she was recognized for her contributions to the Lyu Yang Jin Feng Science and Technology Program, acknowledging her innovative projects in science and technology. She also held the position of Vice President of Science and Technology in the Double Initiative Project, which emphasized scientific advancements and technological innovation.

Publications Top Noted📝

Microstructural evolution and high-temperature oxidation behavior of plasma sprayed SiC-YSZ TBCs

Authors: Gong, J., Du, J., Wang, J., Wang, X., Yang, B.

Journal: Materials Characterization

Year: 2024

A new method for characterizing the atomic composition distribution and interface structure of ultrathin multilayer films using molecular dynamics simulation assisted ARXPS

Authors: Du, J., Yuan, H., Kou, H., Wu, P., Zhang, C.

Journal: Applied Surface Science

Year: 2024

Self-healing superhydrophobic coating with durability based on EP + PDMS/SiO2 double-layer structure design

Authors: Du, J., Wu, P., Kou, H., Rusinov, P., Zhang, C.

Journal: Progress in Organic Coatings

Year: 2024

Thermal-Elastic-Magnetic Coupling-Induced Rubbing Behaviors of a Bladed Thin-Walled Rotor with Distributed Magnetic Actuators

Authors: Kou, H., Cao, Y., Lee, H.P., Shi, Y., Du, J.

Journal: International Journal of Applied Mechanics

Year: 2024

Rubbing features of the bladed drum rotor under a novel coupled axial-radial thermal effect

Authors: Kou, H., Zhang, Y., Lee, H.P., Zhang, F., Zeng, L.

Journal: Acta Mechanica Sinica/Lixue Xuebao

Year: 2024

Dr. Ahmed Shakir, Materials Science, Best Researcher Award

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Dr. Ahmed Shakir, Materials Science, Best Researcher Award

Doctorate at University of Anbar, Iraq

Professional Profiles

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🎓Educational Background

Ph.D. in Photonics Engineering
University of Malaya, Malaysia (Nov 2018 – Sep 2021)

Master of Philosophy in Wireless Communications and Networks Engineering
University of Putra Malaysia, Malaysia (Jun 2014 – Sep 2017)

Bachelor of Engineering in Computer Engineering
AL-Maarif University College, Iraq (Aug 2008 – May 2011)

Bachelor of Engineering in Electrical Engineering
University of Baghdad, Iraq (Sep 2003 – Oct 2007)

💼Professional Experience 

Research Assistant
Photon Research Centre, University of Malaya (Apr 2018 – Sep 2019)
Focus: Q-switched and mode-locked pulse lasers, fabrication of nanomaterials.

Lecturer
Department of Electrical Engineering, University of Anbar, Iraq (Sep 2022 – Jun 2024)
Focus: Laser technologies, congestion control in WBANs, and high-impact publications.

Research Interests 🔬

Congestion control algorithms for Wireless Body Area Networks (WBANs)

Routing protocols design and performance analysis

Passively Q-switched and mode-locked fiber lasers using nanomaterials like Graphene and Carbon Nanotubes

Fabrication of novel Metal Oxide and Organic materials for pulse fiber laser generation

Algorithms for improving handover decisions in heterogeneous wireless networks

Design of rectangular microstrip patch antennas

Laser uranium enrichment and plasma accelerators

🛠️Top Skills 

Matlab, OptiSystem, P-spice, Multisim: Upper Intermediate

Photoshop, Wireshark, HTML, Linux Ubuntu: Intermediate

C Programming, NS-2, NS-3: Intermediate

Microsoft Office, LaTeX: Upper Intermediate

PHP: Beginner

Publications Top Noted📚

Max Phase Chromium–Titanium–Aluminum Carbide for Ultrafast Laser Generation in the 1.55 μm Range

Authors: Al-Hiti, A.S., Mohammed, N.A., Nabeel, M., Sattar, N.A.

Journal: Journal of Russian Laser Research

Year: 2024

Fabrication of nanocrystalline SnO2 films by Nd:YAG pulsed laser deposition method for gas sensor applications

Authors: Kadhim, S.M., Hamed, E.K., Abdullah, H.H., Dawood, Y.Z., Al-Hiti, A.S.

Journal: Journal of Optics (India)

Year: 2024

Femtosecond Mode-Locked 1.5 μm Fiber Laser Based on PEDOT: PSS as Saturable Absorber

Authors: Al-Hiti, A.S., Yasin, M., Najm, M.M., Harun, S.W.

Journal: Optics Communications

Year: 2024

Soliton Ultrafast Fiber Laser with V4AlC3 MAX Phase in 2 µm Region

Authors: Al-Hiti, A.S., Yasin, M., Harun, S.W.

Journal: Optical Fiber Technology

Year: 2023

MAX Phase V4AlC3 for Generating Q-Switched Pulses in 2 µm Region

Authors: Al-Hiti, A.S., Yasin, M., Harun, S.W.

Journal: Optik

Year: 2023