Qibo Deng | Battery Technology | Research Excellence Award

Research Excellence Award

Qibo DENG
Hebei University of Technology
Qibo Deng
Affiliation Hebei University of Technology
Country China
Scopus ID 36140201400
Documents 130
Citations 3002
h-index 32
Subject Area Battery Technology
Event Global Automobile Award
ORCID 0000-0003-3383-9358

The Research Excellence Award recognizes the scholarly contributions of Qibo DENG in the field of battery technology and advanced energy materials research. The academic profile reflects sustained publication activity, citation performance, and international scientific engagement associated with energy storage systems, electrochemical applications, and automotive innovation studies.[1]

Abstract

This article documents the academic profile and research recognition associated with Qibo DENG of Hebei University of Technology within the subject area of battery technology. The profile demonstrates consistent scholarly productivity through peer-reviewed publications, citation performance, interdisciplinary collaborations, and contributions to advanced electrochemical systems relevant to automotive and energy storage applications. Research outputs connected to lithium-ion batteries, electrode materials, energy efficiency, and sustainable mobility technologies have contributed to broader developments in transportation electrification and industrial innovation.

Keywords

Battery technology, lithium-ion batteries, electrochemical engineering, automotive innovation, energy storage systems, sustainable mobility, electrode materials, research excellence, advanced materials, automotive engineering.

Introduction

Battery technology has become an essential component of modern transportation systems, renewable energy integration, and industrial electrification initiatives. Academic research in this field supports the development of efficient storage mechanisms, environmentally responsible materials, and long-term sustainability strategies relevant to automotive engineering and advanced manufacturing sectors.

Research Profile

The academic profile of Qibo DENG reflects interdisciplinary participation across engineering, electrochemistry, and energy storage research domains. The publication portfolio includes numerous journal articles, conference papers, and collaborative studies focused on battery efficiency, electrode development, and sustainable technological applications for automotive industries.[4]

Research Contributions

Research contributions associated with Qibo DENG include investigations into lithium-ion battery structures, electrochemical material performance, and energy density optimization. These studies contribute to scientific understanding of battery durability, operational stability, and thermal management systems relevant to electric vehicle applications.[5]

Publications

The publication record associated with Qibo DENG includes peer-reviewed articles addressing battery materials, electrochemical systems, and automotive energy technologies. Research dissemination through indexed journals supports international scientific collaboration and knowledge transfer across engineering and applied science communities.[2]

  1. Studies on lithium-ion battery material enhancement and cycle stability analysis.
  2. Research concerning electrode conductivity and electrochemical efficiency optimization.
  3. Investigations into advanced battery architectures for electric vehicle systems.
  4. Collaborative publications related to sustainable automotive energy technologies.

Research Impact

Research impact is reflected through citation performance, publication visibility, and interdisciplinary application potential. The documented citation record indicates that the research outputs have contributed to ongoing scientific discussions concerning energy storage technologies and transportation electrification strategies.[1]

Award Suitability

The Research Excellence Award recognizes measurable academic achievement and sustained scholarly engagement in battery technology research. Publication metrics, citation influence, and interdisciplinary scientific contributions collectively demonstrate suitability for recognition within the Global Automobile Award framework.[4]

Conclusion

The academic profile of Qibo DENG illustrates sustained research activity within the field of battery technology and energy storage systems. Citation indicators, publication productivity, and interdisciplinary engineering relevance collectively support recognition through the Research Excellence Award associated with the Global Automobile Award event.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Qibo DENG, Author ID 36140201400. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=36140201400
  2. ORCID. (n.d.). Research activities and scholarly profile of Qibo DENG. ORCID Registry.
    https://orcid.org/0000-0003-3383-9358
  3. Global Automobile Award. (2026). Research Excellence Award evaluation framework and recognition criteria.

    automobileaward.com/

  4. The tensile strain effect on multi-coverage structures of hydrogen adsorption at Pt(111) electrocatalyst surfaces.
    https://www.researchgate.net/publication/402139196_The_tensile_strain_effect_on_multi-coverage_structures_of_hydrogen_adsorption_at_Pt111_electrocatalyst_surfaces_DFT_calculation_studyjinggeyingbianzuoyongxiabo111diancuihuacailiaobiaomianduoqingxifude

  5. Electrochemically-Induced Deformation Mechanism and Actuation Properties of Nanoporous Ni-Based Composite Films.
    https://www.researchgate.net/publication/399623086_Electrochemically-Induced_Deformation_Mechanism_and_Actuation_Properties_of_Nanoporous_Ni-Based_Composite_Films

Shengkai Li | Battery Technology | Best Researcher Award

Dr. Shengkai Li | Battery Technology | Best Researcher Award

Professor  |  Gannan University of Science and Technology‌  |  China

Dr. Shengkai Li is an accomplished researcher and associate professor at the School of Intelligent Manufacturing and Materials Engineering, Gannan University of Science and Technology, recognized for his contributions to the field of advanced electrode materials for next-generation energy storage systems. His research primarily focuses on the development and application of key electrode materials for high-performance lithium, sodium, and potassium batteries, with an emphasis on metal selenide-based anode materials and heterostructure engineering for enhanced electrochemical performance. Dr. Li has demonstrated extensive expertise in material synthesis, structural characterization, electrochemical analysis, and battery performance optimization, contributing significantly to sustainable energy technology advancement. He has led and participated in several important national and provincial research projects, including the National Natural Science Foundation of China’s Regional Joint Fund and the Guangdong Provincial Science and Technology Program, reflecting his strong leadership and collaborative capabilities in multidisciplinary research environments. His notable publications in RSC Advances, Materials Today Energy, Nanoscale, Electrochimica Acta, and Sustainable Energy & Fuels showcase innovative work on nanostructured and heterojunction anodes with exceptional rate capability and cycle stability. Through his impactful research, Dr. Li has advanced the understanding of energy storage mechanisms, contributing to both academic progress and industrial applications in battery technologies. His scientific achievements have earned recognition within the research community, positioning him as a promising figure in the field of electrochemical energy materials. He has acheived 5 Citations, 5 Documents, 1 h-index.

Profiles:  ORCID | Scopus

Featured Publication

  1. Jiang, H., Xia, J., Li, S., Liu, H., Lin, J., Liu, D., Liu, Y., Wang, Q., Feng, B., & Xia, X. (2025). Recent progress on CoP as anodes for metal–ion batteries. ChemPhysChem, 26(20), e202500165.

 

 

Marwa Mohammed | Battery Technology | Women Researcher Award

Assoc. Prof. Dr. Marwa Mohammed | Battery Technology | Women Researcher Award     

Assistant Professor  |  Prince Sattam Bin Abdul Aziz  |  Saudi Arabia

Dr. Marwa Mostafa Moharam Haqqi Mohammed is a highly accomplished Assistant Professor and Head of the Chemistry Department at the Faculty of Arts and Science (Girls), Prince Sattam Bin Abdul Aziz University, Saudi Arabia, and a Researcher at the Central Metallurgical R&D Institute (CMRDI), Egypt. With a robust academic and research background in applied inorganic and materials chemistry, she has demonstrated excellence in teaching, laboratory research, and scientific leadership. Her expertise spans advanced inorganic synthesis, nanomaterials, electrochemical processing, supercapacitor design, energy storage systems, and environmental applications. Dr. Marwa has led and contributed to numerous funded research projects focused on sustainable materials, hybrid nanostructures, and electrochemical energy technologies. She has established a strong international presence through collaborative research visits at the University of Florida, USA, and the University of Grenoble INP – Phelma, France, enhancing her interdisciplinary perspective and global engagement in materials science. Her research skills encompass synthesis, characterization, and computational analysis of metal oxides, nanocomposites, and ferrite materials with targeted applications in catalysis, energy, and health. Dr. Marwa’s prolific publication record in high-impact journals reflects her sustained contribution to materials innovation and energy research. Her accolades include multiple university-funded research grants, participation in international conferences, and recognition for advancing applied chemistry toward sustainable technologies. She also demonstrates a strong commitment to academic mentorship, curriculum development, and the promotion of women in science. Overall, Dr. Marwa’s scientific journey embodies innovation, collaboration, and dedication to addressing modern technological challenges through chemistry. She has acheived 557 Citations , 37 Documents, 13 h-index.

Profiles:  Google Scoholar | ORCID | Scopus

Featured Publications

1. Shenouda, A. Y., Moharam, M. M., & Farghaly, F. E. (2024). Correction to: Synthesis, characterization, and electrochemical performance of Cu₃SbS₃ using different sources of sulfur [Correction]. Journal of Materials Science: Materials in Electronics, 34(12), 1058.

2. Kassem, A. F., Asif, S. U., Saleh, E. A. M., Althomali, R. H., Hassan, I., & Moharam, M. M. (2024). Effect of coercive aluminium on the structural and magnetic characteristics of calcium and magnesium based hexaferrites. Materials Science and Engineering: B, 317, 117174.

3. Sadiq, M., Islam, M. U., Moharam, M. M., Saleh, E. A. M., & Asif, S. U. (2024). Enhanced electrochemical performance of La₂S₃/N-rGO/PANI nanocomposites as an efficient electrode material for supercapacitor applications. Journal of Materials Science: Materials in Electronics, 35, 12738.

4. Irfan, M., Shaheen, N., Solre, G. F. B., Alabbad, E. A., Saleh, E. A. M., Moharam, M. M., El-Zahhar, A. A., Asif, S. U., Eldin, S. M., & Tahir, M. H. (2024). Fe and Rh doping nanoarchitectonics on properties of Sr₂YGaX₂O₇ pyrochlore oxides with a DFT-based spin-polarized calculation for optoelectronic and thermoelectric applications. Journal of Inorganic and Organometallic Polymers and Materials, 34(1), 28-45.

5. Ijaz, M., Albalawi, K., Ghori, U.-U.-R., Saleh, E. A. M., Moharam, M. M., El-Zahhar, A. A., Asif, S. U., & Ullah, H. (2024). Influence of ferromagnetic cobalt on microstructural and magnetic trends of sol–gel routed rare earth and aluminium-based BaSr-hexaferrites (Ba₀.₆Sr₀.₃Er₀.₁Fe₁₁.₅-xAl₀.₅CoₓO₁₉). Materials Science and Engineering: B, 299, 116933.