Xinyao Zhu | Solid Mechanics | Best Researcher Award

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Dr. Xinyao Zhu | Solid Mechanics | Best Researcher Award

Associate Professor at Tianjin University, China

Dr. Xinyao Zhu is an Associate Professor at the School of Mechanical Engineering, Tianjin University, China, with extensive research experience in engineering and physical sciences. He obtained his Ph.D. from the University of Warwick, focusing on contact mechanics and adhesion effects at the micro/nano scale. His research includes the development of innovative prosthetic devices, cancer diagnostics, and advanced materials. Notably, he contributed to EU Horizon 2020 projects, developing techniques for optimizing prosthetic sockets and enhancing nanoparticle interactions for improved cancer treatments. Dr. Zhu has secured significant funding for multiple projects, demonstrating his ability to drive impactful research. Additionally, he is committed to education, teaching engineering courses and mentoring students. His work reflects a dedication to both academic excellence and practical applications, making substantial contributions to mechanical engineering and its intersection with healthcare technology.

Professional Profile

Education

Dr. Xinyao Zhu has a robust educational background in engineering and mechanics. He earned his Ph.D. in Engineering from the University of Warwick, focusing on the effect of surface adhesion in contact mechanics, with his thesis awarded on February 17, 2016. His doctoral research utilized finite element simulation and AFM-based nanoindentation experiments to explore micro/nano-scale interactions. Prior to his Ph.D., he obtained a Master of Engineering (M.Eng.) in Solid Mechanics from Xi’an Jiaotong University, where he conducted a dissertation on stress analysis of carbon fiber composites. He also holds a Bachelor of Engineering (B.Eng.) in Engineering Mechanics from the same institution, graduating with first-class honors. Additionally, Dr. Zhu completed a minor in Finance, showcasing a diverse academic interest. His comprehensive education equips him with a solid foundation in both theoretical and applied aspects of mechanical engineering, contributing to his successful research and teaching career.

Professional Experience

Dr. Xinyao Zhu is an accomplished Associate Professor at the School of Mechanical Engineering, Tianjin University, where he has been a faculty member since December 2018, dedicating a significant portion of his time to academic research. Before this role, he worked as a Postdoctoral Research Fellow at the University of Surrey, where he developed a new technique for optimizing prosthetic sockets for lower limb amputees as part of an EU Horizon 2020 project. He also served as a Postdoctoral Research Fellow at the University of Warwick, focusing on the design and fabrication of functional surfaces with controllable properties. In addition to his research roles, Dr. Zhu has held administrative positions, including project assistant for an EU-funded project. His diverse experiences span teaching, research, and project management, reflecting his commitment to advancing engineering solutions and education while contributing to significant research initiatives in the field of mechanical engineering.

Research Interest

Dr. Xinyao Zhu’s research interests lie at the intersection of mechanical engineering, materials science, and biomedical applications. He focuses on contact mechanics, particularly the effects of surface adhesion at micro and nano scales, utilizing finite element methods and atomic force microscopy to investigate these interactions. His work includes the development of advanced prosthetic devices, emphasizing the design and optimization of prosthetic sockets for lower limb amputees, with a goal of improving user comfort and functionality. Additionally, Dr. Zhu explores the adhesion interactions between biological cells and nanoparticles, aiming to enhance drug delivery systems for cancer treatments through machine learning classifiers. His research also extends to vibration isolation systems, investigating quasi-zero stiffness mechanisms for improved performance in various applications. Overall, Dr. Zhu’s multifaceted research contributes to innovative solutions in healthcare technology and material engineering, with an emphasis on practical applications that address real-world challenges.

Award and Honors

Dr. Xinyao Zhu has received several notable awards and honors throughout his academic and research career, reflecting his contributions to the fields of mechanical engineering and biomedical applications. His innovative work on optimizing prosthetic devices and enhancing cancer diagnostics has been recognized within academic circles, notably through funding from prestigious programs like the EU Horizon 2020. Dr. Zhu has been a principal investigator for multiple research projects funded by the Nuclear Power Institute of China, underscoring his impact in engineering applications. His collaborative efforts in various international research initiatives, particularly those focusing on cutting-edge technologies in healthcare, have earned him recognition among peers and institutions. Furthermore, his commitment to education, evidenced by the development of innovative teaching methods and courses, has also garnered appreciation from students and faculty alike. Dr. Zhu’s accolades highlight his dedication to advancing knowledge and technology in both engineering and medical fields.

Conclusion

Xinyao Zhu is a strong candidate for the Best Researcher Award, owing to his robust research experience, innovative contributions to critical fields, and commitment to education. By enhancing his publication record and public engagement, as well as expanding his professional network, he can further elevate his impact in the academic community and beyond. His dedication to research, coupled with his teaching responsibilities, positions him as an influential figure in mechanical engineering and its applications in health and technology. Awarding him the Best Researcher Award would not only recognize his past contributions but also support his future endeavors in advancing research that benefits society.

Publications Top NotedĀ 

  • Zhu, X., Liu, Y., Ye, J., … Zhao, X., Liu, T. (2024). Study on the adverse effect of acid-corrosion on the dentin in terms of degradation of fracture resistance. Journal of the Mechanical Behavior of Biomedical Materials, 150, 106225.
  • Qin, R., Zhu, X., Song, Z. (2023). The Preliminary Investigation of the Effect of Caries on the Extension of Dentin Cracks. BIO Web of Conferences, 60, 02004.
  • Zhu, X., Qin, R., Qu, K., … Zhao, X., Xu, W. (2023). Corrigendum to ā€˜Atomic force microscopyā€“based assessment of multimechanical cellular properties for classification of graded bladder cancer cells and cancer early diagnosis using machine learning analysisā€™. Acta Biomaterialia, 162, pp. 324.
  • Zhu, X., Qin, R., Qu, K., … Zhao, X., Xu, W. (2023). Atomic force microscopyā€“based assessment of multimechanical cellular properties for classification of graded bladder cancer cells and cancer early diagnosis using machine learning analysis. Acta Biomaterialia, 158, pp. 358ā€“373.
  • Zhu, X., Wang, S., Ye, J., Guo, H., Wang, R. (2022). Investigation of fracture-resistance of human teeth at the dentin-enamel junction using the J-integral calculation of finite element analysis. Journal of Mechanics in Medicine and Biology, 22(10), 2250069.
  • Zhu, X., Wang, S., Qin, R. (2022). The effect of surface tension on the adhesion performance of nanoscale fibrillary structuresā€”ā€”a theoretical prediction. European Journal of Mechanics, A/Solids, 96, 104746.
  • Yang, C., Yang, X., Wang, M., … Shi, B., Zhu, X. (2022). Application of bionic superhydrophobic surface in jaw end face of microgripper. Zhongguo Jiguang/Chinese Journal of Lasers, 49(10), 1002602.
  • Tian, Y., Lin, W., Qu, K., Wang, Z., Zhu, X. (2022). Insights into cell classification based on combination of multiple cellular mechanical phenotypes by using machine learning algorithm. Journal of the Mechanical Behavior of Biomedical Materials, 128, 105097.
  • Wang, S., Zhu, X., Wang, R., Ye, J., Guo, H. (2022). Investigation of fracture-resistance of human teeth at the dentin-enamel junction using the J-integral calculation of finite element analysis. In 2022 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale, 3M-NANO 2022 – Proceedings, pp. 54ā€“59.
  • Zhu, X., Yan, J., Lin, W. (2022). Effect of surface tension on hysteresis losses during approach-retraction of spherical adhesive contact. Journal of Adhesion, 98(7), pp. 995ā€“1015.

Deep Shankar | Materials Science | Best Scholar Award

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šŸŒŸMr. Deep Shankar, Materials Science, Best Scholar Award šŸ†

Ā  Deep Shankar at National Institute of Technology, Karnataka, India

Deep Shankar is a Ph.D. candidate in Mechanical Engineering at the National Institute of Technology Karnataka (NITK), Surathkal. With an M.Tech in Manufacturing Systems Engineering from Sant Longowal Institute of Engineering & Technology (SLIET) and a B.E. in Mechanical Engineering from JSSATE, Bengaluru, Deep’s academic journey reflects his passion for engineering and research. His expertise spans from project management and leadership to analytical skills and teaching experience. Deep is committed to contributing his knowledge and skills to the field while fostering continuous learning and teamwork.

Author Metrics:

Deep’s contributions have been recognized through his author metrics, including citations, impact factor of publications, and h-index, reflecting the significance of his research in the academic community.

ORCID Profile

Scopus Profile

Google Scholar Profile

Prabhu Shankar, associated with the National Institute of Technology Karnataka (NITK) in Mangalore, India. The profile indicates that Deep Prabhu Shankar has 21 citations from 21 documents, with an h-index of 1.

Education:

Deep Shankar holds a Ph.D. in Mechanical Engineering from NITK, Surathkal, with a focus on improving the properties of thermally sprayed hydroxyapatite bio-ceramic coatings. He also earned an M.Tech in Manufacturing Systems Engineering from SLIET, Sangrur, and a B.E. in Mechanical Engineering from JSSATE, Bengaluru.

Research Focus:

Deep’s research focuses on enhancing the properties of bio-ceramic coatings for orthopedic applications. His work involves incorporating reinforcements like alumina and functionalized carbon nanotubes to improve the performance and longevity of these coatings.

Professional Journey:

Deep has over four years of experience as a Teaching Assistant at NITK, Surathkal, along with extensive experience teaching at various levels, including JEE Mains/NEET and board exams. He has also worked as a Doubt Solver at Aakash EduTech Private Limited and has hands-on experience with advanced analytical tools like FESEM, TEM, and Raman spectroscopy.

Honors & Awards:

Throughout his academic journey, Deep has received prestigious scholarships such as the MHRD scholarship for his M.Tech and the Institute Assistance Scholarship for his Ph.D. He has also received distinctions in his B.E. and has qualified for competitive exams like the Graduate Aptitude Test in Engineering.

Publications Top Noted & Contributions:

Deep has contributed to the field through research publications and presentations. Notably, he has presented his work on biomaterials’ blood-compatibility assessment at national and international workshops and conferences.

Title: “Effect of Surface Chemistry on Hemolysis, Thrombogenicity, and Toxicity of Carbon Nanotube Doped Thermally Sprayed Hydroxyapatite Implants”

  • Published in: ACS Biomaterials Science & Engineering in 2024.
  • Focus: This study investigates how variations in surface chemistry, influenced by the incorporation of carbon nanotubes and thermal spraying techniques, impact the hemolysis, thrombogenicity, and toxicity of hydroxyapatite-based orthopedic implants.
  • Key Findings: The article likely discusses the results of in vitro experiments assessing the hemolytic potential, thrombogenicity, and toxicity of the implants with different surface chemistries. It may reveal insights into how surface modifications affect the interaction between the implants and blood components, potentially influencing their biocompatibility.

Title: “Thermal spray processes influencing surface chemistry and in-vitro hemocompatibility of hydroxyapatite-based orthopedic implants”

  • Published in: Biomaterials Advances with the identifier 213791.
  • Focus: This study specifically investigates the impact of various thermal spray processes on the surface chemistry and in vitro hemocompatibility of hydroxyapatite-based orthopedic implants.
  • Key Findings: The article likely delves into the effects of different thermal spray techniques on the surface characteristics of the implants and how these modifications influence their interactions with blood components. It may provide insights into optimizing thermal spray processes to enhance the hemocompatibility of orthopedic implants.

Research Timeline:

Deep’s research journey spans from his undergraduate years to his current Ph.D. candidacy. Starting with his B.E. project on a portable wind charger, he has progressed to delve into advanced topics in manufacturing systems and bio-ceramic coatings, showcasing a consistent commitment to research and academic excellence.

Sreelakshm Krishna | Materials Science | Best Researcher Award

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šŸŒŸMs. Sreelakshm Krishna, Materials Science, Best Researcher Award šŸ†

Sreelakshm Krishna at Madurai Kamaraj University, India

Sreelakshmi Krishna, a 27-year-old researcher currently pursuing a Ph.D. at the National Forensic Sciences University. Married and residing in Thrissur, India, my academic journey has been marked by a passion for Physics and Forensic Sciences. I hold an MPhil in Physics from Madurai Kamaraj University and completed my Integrated M.Sc in Physics/Mathematics from Amrita University. I have a strong foundation in academia, coupled with practical experience as an Assistant Professor at PM Thevar College, Madurai.

Google Scholar Profile

Orcid Profile

Education:

Pursuing Ph.D. at National Forensic Sciences University

MPhil Physics, Madurai Kamaraj University, 2019-21 (73%)

Integrated M.Sc Physics/Mathematics, Amrita University, 2013-18 (CGPA 7.02)

ISC Board – Hari Sri Vidya Nidhi School, Thrissur, 2012 (75%)

ICSE Board – Hari Sri Vidya Nidhi School, Thrissur, 2010 (81%)

Academic Achievements:

Sreelakshmi’s academic journey continued with an MPhil in Physics at Madurai Kamaraj University, where she excelled, graduating with distinction. Her commitment to learning extended further as she currently pursues a Ph.D. at the National Forensic Sciences University. Throughout her educational endeavors, she consistently demonstrated a passion for physics and an eagerness to delve into interdisciplinary research.

Professional Experience:

In 2019, Sreelakshmi stepped into the realm of academia as an Assistant Professor in the Department of Forensic Science at PM Thevar College, Madurai. This professional stint provided her with valuable insights into the practical applications of her academic expertise, enhancing her overall understanding of forensic science.

Research Focus and Contributions:

Sreelakshmi’s research journey showcases a profound interest in the intersection of Physics and Forensic Sciences. Her notable contributions include a narrative review on gunshot residue detection techniques and demographical identification of trace metals in soil samples. Moreover, her recent work on the preparation and characterization of copper gallium sulphide thin films exhibits a commitment to advancing materials science.

Awards and Recognition:

In recognition of her contributions, Sreelakshmi received the “Best Young Women Scientist Award” for her oral presentation at the 5th International Conference on Forensic Research and Toxicology in Singapore. This acknowledgment underscores her dedication and expertise in the field.

Personal Interests and Skills:

Beyond academia, Sreelakshmi is a multifaceted individual with skills ranging from programming in C to proficiency in MATLAB. Her involvement in cultural activities, such as mime and painting, along with formal training in singing and dancing, reflects her creative side. Balancing academic rigor with artistic expression, she is a well-rounded individual.

Declaration and Future Aspirations:

Sreelakshmi Krishna affirms the accuracy of the provided information in her biography, reflecting her academic journey, professional experiences, and personal interests. As she continues her pursuit of knowledge through her Ph.D., she remains dedicated to contributing meaningfully to the fields of Physics and Forensic Sciences.

Publications Top Noted & Contributions:

I have made significant contributions to the field, with publications in reputable journals such as IntechOpen and the Egypt Journal of Forensic Science. My recent work includes a paper on the preparation and characterization of copper gallium sulphide thin films.

A Chronological Study of Gunshot (GSR) Detection Techniques: A Narrative Review

Author: SKP Ahuja

Published in: Egyptian Journal of Forensic Science

Cited By: Not specified

Year: 2023

Abstract: This narrative review presents a chronological study of gunshot residue (GSR) detection techniques. Delving into the evolution of methodologies over time, the paper provides insights into the advancements in forensic science concerning gunshot residue analysis.

Demographical Identification of Trace Metals Found in Soil Samples from India

Authors: S Krishna, P Ahuja

Published in: IntechOpen

Cited By: Not specified

Year: 2023

Abstract: This publication focuses on the demographical identification of trace metals in soil samples sourced from India. The study contributes to the understanding of soil composition, with potential implications for forensic investigations and environmental sciences.

Preparation and Characterization of Pristine and Sn Doped Copper Gallium Sulphide (CGS) Thin Films Using Spray Pyrolysis Technique

Authors: S Krishna, V Vasu

Published in: Available at SSRN 4600102

Cited By: Not specified

Year: Not specified

Abstract: This work details the preparation and characterization of pristine and Sn doped Copper Gallium Sulphide (CGS) thin films using the spray pyrolysis technique. The paper explores the structural and chemical properties of these thin films, contributing to materials science research.

Research Timeline:

MPhil Project: “Preparation and characterization of pure and Sn doped Copper Gallium Sulphide Thin films” (Madurai Kamaraj University)

MSc Main Project: “Understanding Solid State Gas Sensor Application” (CSIR National Physical Laboratory, New Delhi)

BSc Mini Project: “Preparation and characterization of ZnO thin films” (Amrita Vishwa Vidyapeetham, Amritapuri)

This timeline underscores my commitment to academic and practical research, contributing to advancements in forensic science.

SĆ©rgio Cordeiro | Solid Mechanics | Best Researcher Award

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šŸŒŸMr. SĆ©rgio Cordeiro, Solid Mechanics, Best Researcher AwardšŸ†

Ā Aeronautics Institute of Technology, Brazil

Professional Profiles:

Bio Summary:

Sergio Gustavo Ferreira Cordeiro is a Brazilian Civil Engineer and academic professional born on March 18, 1989, in Atibaia, SP, Brazil. He holds a Doctorate in Civil Engineering (2018), a Master’s in Civil Engineering (2015), and a Bachelor’s in Civil Engineering (2012).

Education:

Doctorate in Civil Engineering (2018):

Title: ContribuiƧƵes Ơs anƔlises de fratura e fadiga de componentes tridimensionais pelo mƩtodo dos elementos de contorno dual.

University: Universidade de SĆ£o Paulo (USP), Sao Paulo, Brazil.

Master’s in Civil Engineering (2015):

Title: FormulaƧƵes do MƩtodo dos Elementos de Contorno aplicadas Ơ anƔlise elƔstica e Ơ fratura coesiva de estruturas compostas planas.

University: Universidade de SĆ£o Paulo (USP), Sao Paulo, Brazil.

Bachelor’s in Civil Engineering (2012):

Title: Modelagem de edifĆ­cios de concreto armado com a consideraĆ§Ć£o do efeito de torĆ§Ć£o devido Ć  forƧa de vento.

University: Universidade Federal de SĆ£o Carlos (UFSCAR), Sao Carlos, Brazil.

Research Focus:

Sergio’s research focuses on solids and structural mechanics, with expertise in numerical methods. His work encompasses boundary element methods, finite element methods, elasticity, plasticity, fracture mechanics, damage mechanics, and nonlinear analysis.

Professional Journey:

Instituto TecnolĆ³gico de AeronĆ”utica – ITA:

Current Position: Professor Adjunto C-2 (from 2023).

Previous Positions: Professor Adjunto C-1, Professor Adjunto A-2, Professor Adjunto A-1.

Universidade de SĆ£o Paulo – USP:

Contract Positions: Bolsista for Doctorate and Master’s in Engineering of Structures (2015-2018, 2013-2015).

Aeolus Engenharia e Consultoria S/C Ltda – AEOLUS:

Contract Position: EstagiƔrio (Intern) from 2012 to 2013.

Universidade Federal de SĆ£o Carlos – UFSCAR:

Contract Position: Aluno de GraduaĆ§Ć£o (Undergraduate Student) from 2008 to 2012.

Graz University of Technology – TUGraz:

Contract Position: Independent research (Invited research) in 2023.

Honors & Awards:

  • Recipient of scholarships from Conselho Nacional de Desenvolvimento CientĆ­fico e TecnolĆ³gico (CNPq) and CoordenaĆ§Ć£o de AperfeiƧoamento de Pessoal de NĆ­vel Superior (CAPES).

Publications Top Noted & Contributions:

Authored publications in renowned scientific journals, including refereeing for journals such as Fatigue & Fracture of Engineering Materials & Structures, Computer Methods in Applied Mechanics and Engineering, and others.

Title: Mechanical modelling of three-dimensional cracked structural components using the isogeometric dual boundary element method

  • Authors: SGF Cordeiro, ED Leonel
  • Journal: Applied Mathematical Modelling
  • Year: 2018
  • Volume/Page: 63, 415-444
  • Citations: 26

Title: Cohesive crack propagation modelling in wood structures using BEM and the Tangent Operator Technique

  • Authors: SGF Cordeiro, ED Leonel
  • Journal: Engineering Analysis with Boundary Elements
  • Year: 2016
  • Volume/Page: 64, 111-121
  • Citations: 24

Title: Quantification of cohesive fracture parameters based on the coupling of Bayesian updating and the boundary element method

  • Authors: SGF Cordeiro, ED Leonel, P Beaurepaire
  • Journal: Engineering Analysis with Boundary Elements
  • Year: 2017
  • Volume/Page: 74, 49-60
  • Citations: 18

Title: An improved computational framework based on the dual boundary element method for three-dimensional mixed-mode crack propagation analyses

  • Authors: SGF Cordeiro, ED Leonel
  • Journal: Advances in Engineering Software
  • Year: 2019
  • Volume/Page: 135, 102689
  • Citations: 12

Title: A numerical study of damage evaluation in jointed plain concrete pavements considering alternative materials for dowel bars

  • Authors: EJS JĆŗnior, SGF Cordeiro, FAC Monteiro
  • Conference: XLII Ibero-Latin-American Congress on Computational …
  • Publication Type: Conference Proceeding

Author Metrics:

    • Citations: 95
    • h-index: 4
    • i10-index: 4

    These metrics offer insights into the impact and visibility of Sergio’s scholarly work. Citations indicate the number of times his work has been referenced by other researchers, while the h-index provides a measure of both productivity and citation impact.

Research Timeline:

2013-2015: Master’s in Civil Engineering.

2015-2018: Doctorate in Civil Engineering.

2018-Current: Professor at Instituto TecnolĆ³gico de AeronĆ”utica.

2023: Independent research at Graz University of Technology.

 

Fanbin Meng | Materials Science | Best Researcher Award

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šŸŒŸ Prof Dr. Fanbin Meng, Southwest Jiaotong University, China: Materials SciencešŸ†

Professional Profiles:

Bio Summary:

Dr. Fanbin Meng is a distinguished male professor in the field of Materials Science and Engineering, specializing in Electromagnetic Functional Materials. Born on March 22nd, 1985, he currently holds a position at Southwest Jiaotong University, where he serves as a doctoral supervisor. Dr. Meng has earned his Doctorate and has been recognized for his exceptional contributions to the field of Material Science.

Education:

  • Ph.D. in Materials Science and Engineering

Professional Journey:

Dr. Meng has an illustrious career, holding the position of Professor in the School of Materials Science and Engineering at Southwest JiaoTong University. He is also recognized as an eagle scholar at the university and a science and technology nova. His primary focus lies in the design, preparation, and research of electromagnetic protection materials.

Research Focus:

  • Electromagnetic Functional Materials
  • Lightweight Broadband High-efficiency Absorbing Materials
  • Polymer Composites
  • Functional Polymers
  • Nanomaterials and Applications

Honors & Awards:

  • Winner of Sichuan Outstanding Youth Fund
  • Selected as one of the World’s Top 2% Scientists in 2022
  • 13th Invention and Entrepreneurship Award ā€¢ Person Award in 2023

Publications Top Noted & Contributions:

Dr. Meng has an impressive publication record, with over 70 SCI papers and 17 invention patents. His research has garnered significant attention, with a citation index of 4690 and an H-index of 36. Notably, he has authored 50 papers as the first and corresponding author, including highly cited and hot papers.

Title: Graphene-based microwave absorbing composites: A review and prospective

  • Authors: F Meng, H Wang, F Huang, Y Guo, Z Wang, D Hui, Z Zhou
  • Journal: Composites Part B: Engineering
  • Year: 2018
  • Volume, Pages: 137, 260-277
  • Citations: 587

Title: Interface modulating CNTs@ PANi hybrids by controlled unzipping of the walls of CNTs to achieve tunable high-performance microwave absorption

  • Authors: H Wang, F Meng, F Huang, C Jing, Y Li, W Wei, Z Zhou
  • Journal: ACS applied materials & interfaces
  • Year: 2019
  • Volume, Pages: 11 (12), 12142-12153
  • Citations: 277

Title: Carbonized Design of Hierarchical Porous Carbon/Fe3O4@Fe Derived from Loofah Sponge to Achieve Tunable High-Performance Microwave Absorption

  • Authors: H Wang, F Meng, J Li, T Li, Z Chen, H Luo, Z Zhou
  • Journal: ACS Sustainable Chemistry & Engineering
  • Year: 2018
  • Volume, Pages: 6 (9), 11801-11810
  • Citations: 245

Title: Growth of NiAlā€Layered Double Hydroxide on Graphene toward Excellent Anticorrosive Microwave Absorption Application

  • Authors: X Xu, S Shi, Y Tang, G Wang, M Zhou, G Zhao, X Zhou, S Lin, F Meng
  • Journal: Advanced Science
  • Year: 2021
  • Volume, Pages: 8 (5), 2002658
  • Citations: 229

Title: Electrospun generation of Ti3C2Tx MXene@ graphene oxide hybrid aerogel microspheres for tunable high-performance microwave absorption

  • Authors: Y Li, F Meng, Y Mei, H Wang, Y Guo, Y Wang, F Peng, F Huang, Z Zhou
  • Journal: Chemical Engineering Journal
  • Year: Not provided
  • Volume, Pages: 391, 123512

Author Metrics:

  • Citations: 4,696
  • Documents: 95
  • h-index: 36

Research Timeline:

  • Completed and ongoing research projects: 30
  • Total cost of all projects: USD 1,800,000
  • Number of patents published and under process: 22
  • Journals published in SCI and SCIE index: 70
  • Editorial appointments in journals/conferences: 4
  • Cumulative impact factor of the last 3 years:

Contributions and Innovations:

Dr. Meng has contributed significantly to the field through research on controllable preparation of wave absorbers, electromagnetic loss mechanisms, and the application of wave absorbers. His focus on lightweight broadband high-efficiency absorbing materials has resulted in distinctive research outcomes.

This esteemed scientist has also proposed innovative ideas, such as intelligent anti-corrosion coatings based on salt response, visual coating local defect self-monitoring, and self-healing. His work involves in-depth research on microcapsule slow-release molecular regulation mechanisms, local defect self-monitoring, and self-healing, ultimately enhancing anti-corrosion performance.

Overall, Dr. Fanbin Meng’s research and contributions have earned him recognition, awards, and a prominent place in the global scientific community.