Qianzhi Wang | Tribology | Innovative Research Award

Innovative Research Award

             Qianzhi Wang
Researcher Qianzhi Wang
Affiliation Nanjing University of Aeronautics and Astronautics
Country China
Scopus ID 36245516800
Documents 95
Citations 2,824
h-index 31
Subject Area Tribology
Event International Research Chemistry Awards
ORCID 0000-0002-9927-9253

Qianzhi Wang is a researcher affiliated with Nanjing University of Aeronautics and Astronautics, China, whose scholarly work focuses primarily on tribology and related engineering applications. According to the available Scopus metrics, the researcher has authored 95 indexed publications, accumulated 2,824 citations, and achieved an h-index of 31, reflecting sustained academic productivity and measurable research influence across the international scientific community.[1]

Abstract

Qianzhi Wang has established an internationally recognized research profile in the field of tribology through sustained investigations into friction, wear mechanisms, lubrication technologies, surface engineering, and material durability. His scientific publications contribute to the understanding of interface behavior under diverse operating conditions while supporting the development of advanced engineering materials and high-performance mechanical systems. With ninety-five Scopus-indexed publications, more than two thousand eight hundred citations, and an h-index of thirty-one, his work demonstrates consistent academic influence and broad scholarly visibility. These achievements highlight meaningful contributions to engineering research, industrial applications, and interdisciplinary scientific advancement within the global research community..[1]

Keywords

Tribology, Surface Engineering, Friction, Wear, Lubrication, Mechanical Engineering, Coatings, Contact Mechanics, Nano-Tribology, Materials Engineering, Surface Modification, Engineering Materials, Thin Films, Energy Efficiency, Mechanical Systems.[2]

Introduction

Tribology represents an interdisciplinary scientific field that investigates friction, wear, lubrication, and the interaction of contacting surfaces. The discipline plays an essential role in improving reliability, durability, and efficiency across manufacturing, transportation, aerospace, biomedical devices, and energy systems. Research conducted within this field contributes directly to extending component life and reducing maintenance costs through scientific innovation and engineering optimization.[1]

Research Profile

Qianzhi Wang’s research portfolio demonstrates extensive scholarly activity supported by a substantial publication record and strong citation performance. His investigations primarily address tribological behavior, lubrication science, advanced surface technologies, and engineering materials. The consistency of his publication output and research impact indicates active participation in internationally recognized scientific research and collaboration.[2]

Research Contributions

His research has advanced understanding of friction reduction, wear resistance, lubrication mechanisms, and surface modification technologies that improve engineering performance. These studies provide valuable scientific evidence supporting material selection, coating optimization, and long-term operational reliability in demanding industrial environments while encouraging interdisciplinary collaboration among materials scientists and mechanical engineers.[1]

Publications

The researcher’s publication portfolio includes ninety-five Scopus-indexed scholarly documents spanning peer-reviewed journals, collaborative research articles, and engineering investigations. These publications collectively demonstrate continuous scientific productivity and sustained contributions to tribology, surface engineering, and mechanical materials research, as reflected through recognized citation metrics and international academic visibility.[2]

Research Impact

An h-index of thirty-one together with more than two thousand eight hundred citations demonstrates measurable scholarly influence within tribology research. Citation indicators suggest that multiple publications have been acknowledged and utilized by researchers investigating engineering materials, lubrication technologies, and surface interactions across related scientific disciplines.[3]

Award Suitability

Based on available bibliometric information, publication productivity, citation performance, and sustained scientific contributions, Qianzhi Wang demonstrates qualifications that align with the objectives of the International Research Chemistry Awards. His interdisciplinary work connecting tribology, materials engineering, and surface science reflects significant academic excellence and continued contributions to globally relevant scientific research.[4]

Conclusion

Qianzhi Wang has developed an established academic profile characterized by consistent research productivity, influential publications, and meaningful contributions to tribology. His scholarly achievements support continued recognition within the international scientific community while demonstrating the importance of tribological innovation in advancing engineering performance and sustainable technological development.

References

  1. Elsevier. (n.d.). Scopus Author Details: Qianzhi Wang, Author ID 36245516800. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=36245516800
  2. International Research Chemistry Awards.
    https://researchchemistry.org/
  3. Wang, Q., Wu, X., Yin, H., Zhou, F., & Zhou, Z. (2026). Tribology dependence of circular textured surface on paraffin and thermal conductive particle types. Tribology International, 221, 112002.
    https://doi.org/10.1016/j.triboint.2026.112002
  4. Yin, H., Wang, Q., Weng, Z., Wang, Z., & Zhou, Z. (2026). Synergistic lubrication mechanism of friction-induced melting of paraffin on the textured surface. Journal of Tribology, 148(2), Article 024604.
    https://doi.org/10.1115/1.4069633

Dr. qiran liu | Renewable Energy and Fuel Cells | Best Researcher Award

Dr. qiran liu | Renewable Energy and Fuel Cells | Best Researcher Award

Doctorate at Institute of Electrical Engineering, Chinese Academy of Sciences, China

Qiran Liu is a promising researcher currently pursuing a Ph.D. in Electrical Engineering at the Institute of Electrical Engineering, Chinese Academy of Sciences. He holds a Bachelor’s degree in Electrical Engineering from China University of Petroleum. Liu’s research focuses on multi-energy coupling systems, renewable energy hydrogen production, and optimizing hydrogen-electric coupling systems.

Professional Profiles

Scopus

Orcid

👨‍🎓 Academic and Professional Background

Dr. Qiran Liu was born in Jinan, Shandong Province, China, in 2000. He earned his Bachelor’s degree in Electrical Engineering from the China University of Petroleum (East China), Shandong, in 2022. Currently, he is pursuing a Ph.D. in Electrical Engineering at the Institute of Electrical Engineering, Chinese Academy of Sciences in Beijing. His research interests are focused on multi-energy coupling system control, renewable energy hydrogen production, and hydrogen-electric coupling system optimization.

📑 Research Focus

Qiran’s research explores a dual-layer optimization strategy for photovoltaic-storage-hydrogen systems in coal chemical industry parks. This work aims to enable the sustainable transformation of coal chemical processes by integrating renewable energy.

🔧 Innovations

Qiran’s recent study presents an innovative method to transform the coal chemical industry through renewable hydrogen production. He has developed an energy management scheme utilizing time-of-use electricity pricing, renewable energy generation, and load balancing to maximize daily income. Building on this model, he also created an annual revenue maximization optimization model, which takes into account investment and operational costs for photovoltaic, hydrogen production, hydrogen storage, and electricity storage systems. This model provides an optimal capacity configuration to maximize annual profitability.

🌱 Areas of Research

Carbon Reduction in Coal Chemical Industry: Focusing on practical methods to cut down carbon emissions by employing clean, renewable energy sources.

Energy Management: Developing strategies to optimize energy flow and resource allocation.

Capacity Optimization: Determining the ideal setup for different system components to achieve economic and environmental goals.

Hydrogen Production from Renewable Energy Sources: Advancing techniques to produce hydrogen sustainably, using solar and other renewable energies to minimize reliance on traditional, carbon-intensive methods.

Publications Top Noted📄 

Research on dual-layer optimization strategy of photovoltaic-storage-hydrogen system in coal chemical industry park

Authors: Huo, Q., Liu, Q., Deng, H., Shi, C., Wei, T.
Journal: Renewable Energy
Year: 2024

Energy Optimal Dispatching of Ports Multi-Energy Integrated System Considering Optimal Carbon Flow

Authors: Wang, W., Huo, Q., Liu, Q., Zhu, J., Wei, T.
Journal: IEEE Transactions on Intelligent Transportation Systems
Year: 2024

Optimal Allocation of Photovoltaic-Storage-Hydrogen Capacity in Coal Chemical Industry Park

Authors: Huo, Q., Liu, Q., Deng, H., Shi, C., Wei, T.
Journal: 2023 5th Asia Energy and Electrical Engineering Symposium, AEEES 2023
Year: 2023

Research on coordinated control of flexible on-load voltage regulator and STATCOM

Authors: Liu, Q., Huo, Q., Yin, J., Sun, L., Wei, T.
Journal: Energy Reports
Year: 2022

Study on coordinated voltage regulation strategy of flexible on-load tap changer and distributed generator

Authors: Li, J., Huo, Q., Yin, J., Sun, L., Wei, T.
Journal: Energy Reports
Year: 2022

Assoc Prof Dr. Zhihong Liu, Renewable Energy and Fuel Cells, Best Researcher Award

Assoc Prof Dr. Zhihong Liu, Renewable Energy and Fuel Cells, Best Researcher Award

Assoc Prof Dr. Zhihong Liu, Taiyuan University of Technology, China

Profile

Scopus

⭐Summary

Assoc Prof Dr. Zhihong Liu is an Associate Professor at Taiyuan University of Technology and a postdoctoral researcher at the Shanxi Academy of Advanced Research and Innovation. His expertise lies in resource and energy recovery from waste biomass, hydrogen recovery in electro-fermentation, and nitrogen and phosphorus recovery from waste activated sludge. His innovative research and contributions have been recognized with several awards.

🎓Education

Bachelor’s Degree - Taiyuan University of Technology (2011-2015)
Doctoral Degree - Taiyuan University of Technology (2015-2020)

👨‍🏫Professional Experience

Associate Professor - Taiyuan University of Technology (Dec 2022 - Present)
Lecturer - College of Environmental Science and Engineering, Taiyuan University of Technology (Jan 2021 - Dec 2022)
Postdoctor - Shanxi Academy of Advanced Research and Innovation (Present)

🔬Research Interests

🌱 Resource and Energy Recovery - Waste biomass
Hydrogen Recovery - Electro-fermentation
💧 Nitrogen and Phosphorus Recovery - Waste activated sludge

🏆Awards and Achievements

 Outstanding Doctoral Thesis of Shanxi Province (2020)
 Best Paper Award, ABBS (2022)
 Science and Technology Cooperation Award of Shanxi

🌍Professional Memberships

Ecological Environment Protection Industry Association of Changzhi City

Publications📚

"Weakened Mn–O bond in Mn–Ce catalysts through K doping induced oxygen activation for boosting benzene oxidation at low temperatures"

Authors: Chen, X., Wang, X., Jia, Z., Wang, M., Liang, M.

Journal: Journal of Colloid and Interface Science

Year: 2024

"Insights into the effect of nitrate photolysis on short-chain fatty acids production from waste activated sludge in anaerobic fermentation system: Performance and mechanisms"

Authors: Liu, Z., Cui, Z., Guo, Z., Yue, X., Zhou, A.

Journal: Water Research

Year: 2024

"Sulfate-reducing bacteria decreases fractional pressure of H2 to accelerate short-chain fatty acids production from waste activated sludge fermentation assisted with zero-valent iron activated sulfite pretreatment"

Authors: Hu, H., Liu, S., Li, D., Yue, X., Liu, W.

Journal: Science of the Total Environment

Year: 2024

"Efficient phosphate and hydrogen recovery from sludge fermentation liquid by sacrificial iron anode in electro-fermentation system"

Authors: Qiang, H., Liu, Z., Yin, X., Yue, X., Zhou, A.

Journal: Journal of Environmental Management

Year: 2024

"Selective colonization of multifunctional microbes that facilitates caproate production in microbial electrosynthesis system"

Authors: Wang, Y., Cheng, S., Varrone, C., Wang, A., Liu, W.

Journal: Chemical Engineering Journal

Year: 2024

"Syntrophic Joint of Sulfate-Reducing Bacteria and Hydrogen-Producing Acetogen Stimulated Methane Production from Waste Activated Sludge Digestion"

Authors: Wu, H., Zhou, A., Duan, Y., Liu, W., Yue, X.

Journal: Fermentation

Year: 2024

 

 

Dr. Xunjin Zhu, Renewable Energy and Fuel Cells, Best Researcher Award

Dr. Xunjin Zhu, Renewable Energy and Fuel Cells, Best Researcher Award

Doctorate at Hong Kong Baptist University, China

Professional Profile

Scopus

Orcid

Google Scholar

🌟Summary

  • Dr. Xunjin Zhu, currently a Professor at the Hong Kong Polytechnic University, has established a distinguished career in chemistry with a focus on sustainable energy and nanomedicine. His work in porphyrin/phthalocyanine-based semiconductors and nanomedicines has garnered significant recognition, including multiple U.S. patents and numerous publications in top-tier journals.

🎓 Education

  • Ph.D. in Chemistry, Hong Kong Baptist University (2003–2006)
  • M.Sc. in Organic Chemistry, Wuhan University (1999–2002)
  • B.Sc. in Chemical Engineering, Wuhan Institute of Technology (1993–1997)

👨‍🏫 Professional Experience

  • Professor, Department of Applied Biology and Chemical Technology, Hong Kong Polytechnic University (2024–Present)
  • Associate Professor, Department of Chemistry, Hong Kong Baptist University (2019–2024)
  • Assistant Professor, Department of Chemistry, Hong Kong Baptist University (2013–2019)
  • Research Assistant Professor, Department of Chemistry, Hong Kong Baptist University (2010–2013)
  • Postdoctoral Fellow, Georgia Institute of Technology (2008–2010)
  • Postdoctoral Fellow, University of Texas at Austin (2006–2008)

🔬 Research Interests

  • 🌱 Sustainable Energy and Carbon Neutrality
    Dr. Zhu’s research focuses on porphyrin/phthalocyanine-based semiconductors for applications such as photovoltaics, photocatalytic water-splitting, and CO2 reduction.
  • 🧬 Nanomedicines
    He explores porphyrin/phthalocyanine-based nanomedicines for photoacoustic imaging and photodynamic/photothermal cancer therapy.

📜 Patent Highlights

  1. Porphyrin Photosensitizer and Cobaloxime Cocatalyst (US Patent 2023/0051807 A1, 2023)
  2. Design and Synthesis of Porphyrin Materials for Organic Photovoltaics (US Patent 10,236,457 B2, 2019)
  3. Carbon Quantum Dots for Targeted Photodynamic Therapy (US Patent 10,369,221 B2, 2019)

💰 Research Grants

  • NSFC/RGC Joint Research Scheme: HK$1,244,750 (2023) 🌟💼
  • General Research Fund: HK$666,512 (2021) 📊💡
  • Innovation and Technology Fund: HK$4,047,645 (2019) 🚀🔬
  • Key Research Partnership Scheme: HK$666,667 (2022) 🤝🔍
  • State Key Laboratory of Physical Chemistry of Solid Surfaces: RMB¥200,000 (2022) 🧪🏢

Publication Top Noted📝

  • Article: The 2nd Asian Conference on Porphyrins, Phthalocyanines and Related Materials
    • Authors: Zhu, G.; Yang, Z.; Li, S.; Xie, Y.; Jiang, J.
    • Journal: Chinese Chemical Letters
    • Volume: 35
    • Issue: 7
    • Year: 2024
  • Article: Large-Area Fabrication of Hexaazatrinaphthylene-Based 2D Metal-Organic Framework Films for Flexible Photodetectors and Optoelectronic Synapses
    • Authors: Song, J.; Liu, C.-K.; Piradi, V.; Wong, W.-Y.; Yan, F.
    • Journal: Advanced Science
    • Volume: 11
    • Issue: 13
    • Year: 2024
  • Article: Self-assembly of Pt(ii)-tetrakis(pentafluorophenyl)porphyrin via F⋯F interaction for efficient cocatalyst-free photocatalytic hydrogen evolution
    • Authors: Bodedla, G.B.; Piradi, V.; Thor, W.; Zhu, X.; Wong, W.-Y.
    • Journal: Journal of Materials Chemistry A
    • Volume: 12
    • Issue: 5
    • Year: 2023
  • Article: Design of AIEgen-based porphyrin for efficient heterogeneous photocatalytic hydrogen evolution: Special Collection: Aggregation-Induced Processes and Functions
    • Authors: Bodedla, G.B.; Imran, M.; Zhao, J.; Zhu, X.; Wong, W.-Y.
    • Journal: Aggregate
    • Volume: 4
    • Issue: 5
    • Year: 2023
  • Article: In situ Electropolymerized 3D Microporous Cobalt-Porphyrin Nanofilm for Highly Effective Molecular Electrocatalytic Reduction of Carbon Dioxide
    • Authors: Wang, C.; Chen, Y.; Su, D.; Zhan, D.; Zhu, X.
    • Journal: Advanced Materials
    • Volume: 35
    • Issue: 38
    • Year: 2023