He Liu | Materials Chemistry | Best Researcher Award

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Dr. He Liu | Materials Chemistry | Best Researcher Award

Doctorate at Jiangsu University Of Science And Technology, China

He Liu is a talented researcher in the field of chemistry and materials science, currently pursuing his doctoral studies at Jiangsu University of Science and Technology. With a strong foundation in applied chemistry and several significant publications in prestigious journals, He Liu has established himself as a promising scientist in gas sensors, ceramic materials, and energy storage research. His research efforts are marked by innovation, practical application, and a commitment to advancing the frontiers of materials science.

Author Metrics

Scopus Profile

He Liu has contributed to several high-impact publications, with his work cited in reputable journals. He has published in SCI-indexed journals such as Nanomaterials, Ceramics International, and Electrochimica Acta. These journals boast impact factors (IF) of 5.7, 7.336, and 5.5, respectively, reflecting the high quality and influence of his research. His publications have gained significant attention within the materials science community, further solidifying his role as a rising scholar.

  • Total Citations: 58 citations from 57 different documents.
  • Documents Published: 3 documents indexed in Scopus.
  • h-index: 3 (This indicates that He Liu has at least 3 publications with 3 or more citations each, demonstrating early academic impact.)

Education

He Liu’s academic journey began with a Bachelor’s degree in Applied Chemistry from Henan Institute of Science and Technology, where he graduated in 2020. He continued his education at the same institution, obtaining a Master’s degree in Chemistry in 2023. Currently, He Liu is pursuing a Ph.D. in Materials Science and Engineering at Jiangsu University of Science and Technology. His educational background has laid a robust foundation for his advanced research in the field of materials science.

Research Focus

He Liu’s research primarily revolves around materials science, with a focus on the development and synthesis of novel ceramic materials, gas sensors, and energy storage systems. Notably, his work on 2D WO3 nanosheets for VOCs gas sensors and carbon-enriched SiOC ceramics for lithium storage highlights his expertise in the practical applications of materials in energy conversion and storage. He has also contributed to the development of ZIF-8 modified oxide-sensitive materials.

Professional Journey

He Liu began his professional journey as a researcher during his Master’s studies at Henan Institute of Science and Technology. His dedication and significant contributions to applied chemistry earned him recognition and scholarships. In 2023, he transitioned to Jiangsu University of Science and Technology, where he is currently a doctoral candidate in Materials Science and Engineering, advancing his research on ceramics and energy storage.

Honors & Awards

Throughout his academic career, He Liu has received several awards for his outstanding performance. He was awarded the Third-Class Scholarship for the 2021-2022 academic year and the Second-Class Scholarship for 2022-2023 at Henan Institute of Science and Technology. He has also been recognized as a “Merit Student” and “Outstanding University Student” for his volunteer services against flood and epidemic. Additionally, he won the Special Prize in the prestigious “Siyang Cup” National Marine Energy and Power Innovation Competition.

Publications Noted & Contributions

He Liu has made significant contributions to scientific literature. Some notable publications include his work on:

Microwave Synthesized 2D WO3 Nanosheets for VOCs Gas Sensors

  • Journal: Nanomaterials, 2022, 12(18), 3211
  • Co-authors: Duan, L., Xia, K., Xu, J., Hou, Z.
  • Citations: 13
    This open-access article focuses on the synthesis of WO3 nanosheets via microwave methods, specifically for application in VOCs gas sensors, showcasing an innovative approach to sensor technology.

Microwave-assisted Solvothermal Synthesis of Hollow Mesoporous SiOC Ceramics in NaOH Solution

  • Journal: Ceramics International, 2022, 48(13), pp. 19232–19239
  • Co-authors: Xia, K., Liu, X., Duan, L., Hou, Z.
  • Citations: 7
    This study introduces a microwave-assisted solvothermal method to synthesize hollow mesoporous SiOC ceramics, highlighting its potential for industrial ceramic applications.

Carbon-enriched SiOC Ceramics with Hierarchical Porous Structure as Anodes for Lithium Storage

  • Journal: Electrochimica Acta, 2021, 372, 137899
  • Co-authors: Xia, K., Liu, X., Li, R., Wang, D.
  • Citations: 38
    This paper explores the synthesis of carbon-enriched SiOC ceramics, emphasizing their application in lithium-ion batteries as anodes. It is one of He Liu’s most cited papers, reflecting its high relevance in energy storage research.

These publications emphasize his contributions to material science, focusing on ceramics, gas sensors, and energy storage systems, garnering wide recognition in the scientific community.

Research Timeline

  • 2016-2020: Undergraduate studies in Applied Chemistry at Henan Institute of Science and Technology.
  • 2020-2023: Master’s research on chemistry with a focus on ceramic materials and gas sensors.
  • 2023-present: Ph.D. candidate at Jiangsu University of Science and Technology, focusing on advanced materials science and engineering, specifically on the synthesis of novel ceramics for energy storage and gas sensing.

Collaborations and Projects

He Liu has collaborated with several prominent researchers throughout his academic career. He was involved in a Henan Province Science and Technology Research Project titled “ZIF-8 Modification Methods for Oxide-Sensitive Materials,” where he was the third person in charge. He has also worked closely with researchers like Duan L., Xia K., and Hou Z. on various innovative projects, contributing to advancements in gas sensing materials and energy storage systems. His collaboration with peers has resulted in several impactful publications and technological advancements in materials science.

Conclusion

Dr. He Liu is a promising candidate for the Best Researcher Award, showcasing significant strengths in innovative research, high-quality publications, and collaborative efforts. By addressing areas for improvement, particularly in expanding his research scope and enhancing public engagement, he can further elevate his impact within the field of materials chemistry. His commitment to advancing knowledge and practical applications in materials science positions him as a strong contender for this prestigious recognition.

Qiuling Chen | Materials Chemistry | Best Researcher Award

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Assoc Prof Dr. Qiuling Chen | Materials Chemistry | Best Researcher Award

Associate Professor at Henan University of Technology, China

Dr. Qiuling Chen is a prominent academic in the field of materials science, currently serving as a Vice Professor at Henan University of Technology in China. Her extensive expertise in materials science is underpinned by her academic background and over two decades of professional experience. With a Ph.D. in Electronic Devices from Politecnico di Torino and a B.Sc. in Computer Science from Luoyang Institute of Technology, Dr. Chen has made significant contributions to the development of advanced materials, particularly in nanotechnology, optical materials, and energy storage systems. Her research has led to numerous publications and project coordinations, reflecting her leadership and innovation in these domains.

Author Metrics

Scopus Profile

ORCID Profile

Dr. Qiuling Chen’s author metrics underscore her substantial impact in the field of materials science. Her Google Scholar Citations and ResearchGate profiles reveal a robust citation record, indicating the widespread recognition and influence of her research. The Scopus Author ID further highlights her scholarly contributions and productivity, showcasing her role as a key figure in advancing knowledge in her areas of expertise.

  • Citations: 1,588 citations across 1,029 documents.
  • Documents: 113 publications.
  • h-index: 22, which measures both productivity and citation impact.

Education

Dr. Chen holds a Ph.D. in Electronic Devices from Politecnico di Torino, Italy, obtained between 2004 and 2008. Prior to this, she completed her B.Sc. in Computer Science at Luoyang Institute of Technology in 1995. Her educational background provides a strong foundation in both theoretical and practical aspects of technology and materials science, preparing her for a distinguished career in research and academia.

Research Focus

Dr. Chen’s research focuses on the development and application of advanced materials, including nanomaterials, optical materials, and energy storage technologies. Her work explores areas such as high-capacity lithium-air batteries, photocatalytic materials, and magneto-optical materials. By investigating these fields, Dr. Chen aims to enhance the performance, stability, and functionality of materials used in various technological applications.

Professional Journey

Dr. Chen’s professional journey began as a Network Engineer before transitioning to academia as a Teaching Assistant at Luoyang Institute of Technology. She pursued her Ph.D. at Politecnico di Torino and later served as a researcher there. Since 2013, she has been a Vice Professor at Henan University of Technology, where she leads research initiatives and supervises graduate students, reflecting her evolution from industry practitioner to academic leader.

Honors & Awards

Dr. Chen has been recognized for her significant contributions to materials science through various honors and awards. Her achievements include securing competitive research grants from the Chinese National Natural Science Foundation and provincial science and technology programs. These accolades highlight her excellence in research and her impact on advancing scientific knowledge and innovation.

Publications Noted & Contributions

Dr. Chen’s notable publications include influential papers in high-impact journals such as Ceramics International and Journal of Alloys and Compounds. Her work, including studies on Eu2+ activated phosphors and giant Faraday rotation, demonstrates her expertise in materials science and her ability to contribute valuable insights to the fields of photonics, magneto-optics, and photocatalysis.

“Z-scheme In2S3/MnO2/BiOCl heterojunction photo-enhanced high-performance lithium-oxygen batteries”
Authors: Wang, S., Chen, Q., Gao, T., Zhou, Y.
Journal: Journal of Materials Science and Technology
Year: 2025
Volume/Issue: 215, pp. 1–14
Citations: 0

“In-situ crystallization of CoCr2O4 in tellurite glass with enhanced optical nonlinear limiting, photoluminescence, and magnetic properties: Influence of Co content”
Authors: Chen, Q., Chen, L., Wang, J., Ma, Q., Miao, B.
Journal: Journal of the European Ceramic Society
Year: 2024
Volume/Issue: 44(13), pp. 7904–7920
Citations: 1

“Strontium doping-tailored inverse spinel phase in cobalt chromite with enhanced photo-degradation of ofloxacin”
Authors: Chen, Q., Gao, T., Chen, L., Miao, B., Chen, Q.
Journal: Ceramics International
Year: 2024
Volume/Issue: 50(14), pp. 26234–26249
Citations: 0

“Dual p-n Z-scheme heterostructure boosted superior photoreduction CO2 to CO, CH4 and C2H4 in In2S3/MnO2/BiOCl photocatalyst”
Authors: Chen, Q., Wang, S., Miao, B., Chen, Q.
Journal: Journal of Colloid and Interface Science
Year: 2024
Volume/Issue: 663, pp. 1005–1018
Citations: 5

“High entropy enhanced phase & structural stability and high electromagnetic wave absorption in CsPbBr3 perovskite”
Authors: Chen, Q., Chen, L., Shuai, W., Miao, B.
Journal: Materials Science in Semiconductor Processing
Year: 2024
Volume/Issue: 175, 108295
Citations: 0

Research Timeline

Dr. Chen’s research timeline reflects a progression of increasing responsibility and impact. From her doctoral research at Politecnico di Torino (2004-2008) to her role as a researcher there (2008-2016), and her current position as Vice Professor at Henan University of Technology (2013-present), her career has been marked by significant contributions to materials science and leadership in research projects.

Collaborations and Projects

Dr. Chen has led and collaborated on a variety of research projects, including high-profile initiatives such as the NSFC-U1604120 project on magneto-optical biosensors and the STABLE 314508 project on lithium-air batteries. Her collaborations span international and domestic research efforts, demonstrating her ability to work across disciplines and contribute to major advancements in her field.

Strengths of Dr. Qiuling Chen’s Best Researcher Award

Significant Research Impact: Dr. Chen’s extensive citation record (1,588 citations across 1,029 documents) and h-index (22) highlight the substantial impact of her research in materials science. Her work is well-regarded and influential, indicating a high level of academic recognition.

Diverse Research Focus: Her research spans several critical areas, including nanomaterials, optical materials, and energy storage systems. This diversity not only demonstrates her versatility but also her capability to address various scientific challenges through innovative approaches.

High-Quality Publications: Dr. Chen has published in high-impact journals such as Ceramics International and the Journal of Alloys and Compounds. This indicates that her work is valued and respected by leading journals in her field.

Recognition and Awards: Receiving competitive research grants from prestigious bodies like the Chinese National Natural Science Foundation highlights her standing and contributions in the scientific community. These awards reflect her excellence in research and ability to secure funding for impactful projects.

Leadership in Research and Academia: As a Vice Professor at Henan University of Technology, Dr. Chen leads research initiatives and supervises graduate students, showcasing her role as an academic leader. Her ability to mentor and guide future scientists is a testament to her expertise and dedication to the field.

Areas for Improvement

Publication Citations: Some of Dr. Chen’s most recent publications, such as those from 2024, have relatively few citations (e.g., “Strontium doping-tailored inverse spinel phase in cobalt chromite” has 1 citation). This could suggest a need for increased visibility or dissemination efforts for her latest research.

Diversity of Collaborations: While Dr. Chen has led and participated in various projects, expanding her collaboration network to include more interdisciplinary and international partnerships could enhance the breadth and impact of her research.

Emerging Research Trends: Keeping pace with emerging research trends and integrating cutting-edge technologies or methodologies could further strengthen her research contributions and maintain her leadership position in a rapidly evolving field.

Research Application and Translation: Focusing on translating research findings into practical applications or commercial ventures could increase the societal impact of her work and demonstrate the practical value of her research.

Public Engagement: Increasing engagement with the broader public and stakeholders through outreach activities, science communication, and public lectures could enhance the visibility and societal relevance of her research.

Conclusion

Dr. Qiuling Chen’s recognition as a Best Researcher underscores her significant contributions to materials science, her ability to secure competitive grants, and her leadership in academia. Her extensive citation record and high-quality publications reflect her research’s impact and influence. However, there are areas for potential growth, including increasing the visibility of recent publications, expanding collaboration networks, and enhancing the practical application of her research. Addressing these areas could further amplify her contributions and solidify her position as a leading figure in her field.

Kyeong-Ho Kim | Advanced Materials Engineering | Best Researcher Award

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Prof Dr. Kyeong-Ho Kim | Advanced Materials Engineering | Best Researcher Award

Assistant Professor at Pukyong National University, South Korea

Kyeong-Ho Kim is a distinguished academic and researcher, primarily known for his contributions to the field of civil and environmental engineering. Holding a prominent position at a leading university, he has significantly advanced knowledge in areas such as sustainable construction materials, structural health monitoring, and the durability of infrastructure. Kim’s work often focuses on the intersection of environmental sustainability and engineering innovation, seeking to develop solutions that are both effective and eco-friendly. His prolific output includes numerous peer-reviewed articles, conference papers, and patents, reflecting his dedication to both theoretical and applied research. Beyond his research, Kyeong-Ho Kim is also committed to education, mentoring students and junior researchers, and engaging in various professional organizations to promote the growth and dissemination of engineering knowledge.

Professional Profile:

Google scholar

Education

Kyeong-Ho Kim’s educational background is marked by a rigorous and comprehensive training in civil and environmental engineering. He earned his bachelor’s degree in Civil Engineering from a renowned university, laying a strong foundation in the principles and practices of the discipline. Pursuing advanced studies, he obtained his master’s degree, where he specialized in structural engineering and materials science, developing a keen interest in sustainable construction practices. His academic journey culminated in a Ph.D. in Civil Engineering, during which he conducted cutting-edge research on the durability and sustainability of infrastructure materials. Throughout his educational path, Kim was actively involved in research projects and collaborations, honing his skills in both theoretical analysis and practical application. This robust educational foundation has equipped him with the knowledge and expertise to make significant contributions to the field and to.

Professional Experience

Kyeong-Ho Kim has amassed extensive professional experience in the field of civil and environmental engineering, marked by significant contributions to academia and industry. He has held prestigious faculty positions at leading universities, where he has been instrumental in advancing research and education in sustainable construction and structural engineering. Throughout his career, Kim has led numerous high-impact research projects, often collaborating with industry partners and government agencies to develop innovative solutions for infrastructure durability and sustainability. His professional journey includes roles as a principal investigator on various funded research initiatives, resulting in groundbreaking advancements in materials science and structural health monitoring. In addition to his research, Kim is a dedicated educator, having mentored countless students and junior researchers, and contributed to the development of academic programs and curricula. His professional achievements are further underscored by his active participation in professional organizations, where he has served in leadership roles, contributing to the broader engineering community. Through his blend of research excellence, educational commitment, and industry collaboration, Kyeong-Ho Kim has established himself as a leading expert in his field.

Research Interest

Kyeong-Ho Kim’s research interests are deeply rooted in the pursuit of sustainable and resilient infrastructure within the realm of civil and environmental engineering. He is particularly focused on the development and application of sustainable construction materials, aiming to reduce the environmental impact of building practices while enhancing material performance and longevity. Kim is also highly interested in structural health monitoring, exploring advanced techniques and technologies to assess the condition and integrity of infrastructure over time. This involves the use of sensors, data analytics, and predictive modeling to detect and address potential issues before they become critical. Furthermore, his research extends to the study of the durability of infrastructure, seeking to understand and mitigate factors that contribute to deterioration and failure. By integrating sustainability with advanced engineering practices, Kyeong-Ho Kim aims to contribute to the creation of safer, more efficient, and environmentally responsible infrastructure systems. His work is driven by the goal of achieving long-term benefits for society through innovative engineering solutions.

Award and Honor

Kyeong-Ho Kim has received numerous awards and honors throughout his career, underscoring his significant contributions to the field of civil and environmental engineering. His pioneering research in sustainable construction materials and structural health monitoring has earned him recognition from prestigious academic and professional organizations. He has been the recipient of several distinguished awards, including the Excellence in Research Award from his university, acknowledging his innovative work and substantial impact on the engineering community. Additionally, Kim has been honored with the Outstanding Educator Award, reflecting his dedication to teaching and mentoring students. His contributions to the field have also been recognized internationally, with awards from engineering societies and conferences that celebrate his advancements in sustainable engineering practices. These accolades highlight Kyeong-Ho Kim’s exceptional achievements and his ongoing commitment to excellence in both research and education.

Research Skills

Kyeong-Ho Kim possesses a wide array of research skills that make him a distinguished figure in the field of civil and environmental engineering. His expertise in sustainable construction materials is complemented by his adeptness in combining theoretical frameworks with practical experimentation to develop eco-friendly, high-performance solutions. Kim excels in structural health monitoring, employing advanced technologies such as sensors and data analytics to evaluate and enhance the integrity and safety of infrastructures. His meticulous approach to research involves comprehensive field studies and laboratory experiments, ensuring that his results are both reliable and applicable to real-world scenarios. Additionally, Kim’s proficiency in interdisciplinary collaboration allows him to incorporate diverse perspectives and techniques into his research, fostering innovation. His analytical prowess is evident in his robust data analysis capabilities, which underpin his numerous peer-reviewed publications and patents. Overall, Kyeong-Ho Kim’s research skills are characterized by a blend of theoretical insight, practical application, and a commitment to advancing sustainable engineering practices.

Publications

New Insight into microstructure engineering of Ni‐Rich layered oxide cathode for high performance lithium ion batteries

  • Authors: CH Jung, DH Kim, D Eum, KH Kim, J Choi, J Lee, HH Kim, K Kang, …
  • Journal: Advanced Functional Materials
  • Year: 2021
  • Citations: 131

Sn4P3–C nanospheres as high capacitive and ultra-stable anodes for sodium ion and lithium ion batteries

  • Authors: J Choi, WS Kim, KH Kim, SH Hong
  • Journal: Journal of Materials Chemistry A
  • Year: 2018
  • Citations: 97

Stable silicon anode for lithium-ion batteries through covalent bond formation with a binder via esterification

  • Authors: CH Jung, KH Kim, SH Hong
  • Journal: ACS Applied Materials & Interfaces
  • Year: 2019
  • Citations: 89

The Role of Zr Doping in Stabilizing Li[Ni0.6Co0.2Mn0.2]O2 as a Cathode Material for Lithium‐Ion Batteries

  • Authors: J Choi, SY Lee, S Yoon, KH Kim, M Kim, SH Hong
  • Journal: ChemSusChem
  • Year: 2019
  • Citations: 69

Revisiting the role of Zr doping in Ni-rich layered cathodes for lithium-ion batteries

  • Authors: CH Jung, Q Li, DH Kim, D Eum, D Ko, J Choi, J Lee, KH Kim, K Kang, …
  • Journal: Journal of Materials Chemistry A
  • Year: 2021
  • Citations: 58

Manganese Tetraphosphide (MnP4) as a High Capacity Anode for Lithium‐Ion and Sodium‐Ion Batteries

  • Authors: KH Kim, SH Hong
  • Journal: Advanced Energy Materials
  • Year: 2021
  • Citations: 41

An in situ formed graphene oxide–polyacrylic acid composite cage on silicon microparticles for lithium ion batteries via an esterification reaction

  • Authors: CH Jung, KH Kim, SH Hong
  • Journal: Journal of Materials Chemistry A
  • Year: 2019
  • Citations: 34

Beneficial vs. inhibiting passivation by the native lithium solid electrolyte interphase revealed by electrochemical Li+ exchange

  • Authors: GM Hobold, KH Kim, BM Gallant
  • Journal: Energy & Environmental Science
  • Year: 2023
  • Citations: 29

V4P7@C nanocomposite as a high performance anode material for lithium-ion batteries

  • Authors: KH Kim, CH Jung, WS Kim, SH Hong
  • Journal: Journal of Power Sources
  • Year: 2018
  • Citations: 28

A P2-type Na0.7(Ni0.6Co0.2Mn0.2)O2 cathode with excellent cyclability and rate capability for sodium ion batteries

  • Authors: J Choi, KH Kim, CH Jung, SH Hong
  • Journal: Chemical Communications
  • Year: 2019
  • Citations: 27

Superior sodium storage performance of reduced graphene oxide-supported Na3.12Fe2.44(P2O7)2/C nanocomposites

  • Authors: HJ Song, KH Kim, JC Kim, SH Hong, DW Kim
  • Journal: Chemical Communications
  • Year: 2017
  • Citations: 24

Synthesis of SrLu2O4 + red phosphors and their photoluminescence properties

  • Authors: KH Kim, EH Kang, BK Kang, KP Kim, SH Hong
  • Journal: Journal of Luminescence
  • Year: 2017
  • Citations: 23

A MnV2O6/graphene nanocomposite as an efficient electrocatalyst for the oxygen evolution reaction

  • Authors: KH Kim, YH Choi*, SH Hong*
  • Journal: Nanoscale
  • Year: 2020
  • Citations: 18

Superior electrochemical sodium storage of V4P7 nanoparticles as an anode for rechargeable sodium-ion batteries

  • Authors: KH Kim, J Choi, SH Hong
  • Journal: Chemical Communications
  • Year: 2019
  • Citations: 17

Probing the functionality of LiFSI structural derivatives as additives for Li metal anodes

  • Authors: KS Jiang, GM Hobold, R Guo, KH Kim, AM Melemed, D Wang, L Zuin, …
  • Journal: ACS Energy Letters
  • Year: 2022
  • Citations: 15