Prof. Qinpei Wu | Applied Chemistry | Excellence in Research Award

Prof. Qinpei Wu | Applied Chemistry | Excellence in Research Award

Professor at Beijing Institute of Technology | China

Professional Profiles

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🎓 Academic and Professional Background

Dr. Qin-Pei Wu, a distinguished professor at the Beijing Institute of Technology, holds a Bachelor’s degree in Chemistry from Anhui Normal University, China, and earned his PhD from King’s College London under the prestigious K.C. Wang Scholarship. With a focus on cutting-edge research, Dr. Wu’s work revolves around light harvesting, photothermal materials, and thermal energy storage. His innovations significantly enhance the absorption and photothermal efficiency of heat-storage materials, streamlining photothermal conversion and energy storage processes.

🔬 Research and Innovations

Dr. Wu’s groundbreaking research demonstrates how redox reactions and interfacial junctions can design high-performance absorbers with strong absorption across the full solar spectrum. His pioneering work introduced silicates, phosphates, and silica to harvest long-wavelength light through interfacial-junction fabrication. By leveraging heterojunctions and redox reactions, he has substantially improved photothermal and photoelectric performance, achieving a remarkable increase in free charge carrier density. These contributions have set new standards in the fields of light harvesting and energy storage technologies.

🧪 Areas of Research

Dr. Qin-Pei Wu’s diverse research interests span several critical areas of scientific innovation. He explores advanced techniques in light harvesting, focusing on the methods, mechanisms, and materials for photothermal conversion and thermal energy storage, paving the way for groundbreaking advancements in energy efficiency. His expertise extends to organic synthesis and synthetic methods, where he develops innovative approaches to chemical synthesis, contributing significantly to the field of materials chemistry. Additionally, Dr. Wu specializes in molecule design and the synthesis of bioactive compounds, creating novel molecules with potential applications in medicine, energy, and materials science.

🌍 Professional Memberships

Dr. Wu’s leadership in the scientific community is underscored by his influential roles in professional organizations. He serves as the Associate Director of the National Materials and Devices Network, where he contributes to the advancement of material technologies. Additionally, he is the Associate Director of the China Energy Society, actively shaping the future of energy research and development.

Publications Top Noted📚

Exceptionally boosted absorption of silicates by interfacial junctions and direct light–heat–energy storage using Mg(OH)₂–(Co₂SiO₄–Co₃O₄)

Authors: Hao, R.-M., Ren, E.-X., Ran, W., Xu, Z.-B., Wu, Q.-P.

Journal: Sustainable Materials and Technologies

Year: 2024

Strong absorption of silica over full solar spectrum boosted by interfacial junctions and light–heat–storage of Mg(OH)₂–(CrOₓ–SiO₂)

Authors: Hao, R.-M., Zhu, L., Shang, T.-F., Xu, Z.-B., Wu, Q.-P.

Journal: Chemical Engineering Journal

Year: 2024

Enhanced Light Absorption and Photothermal Efficiency of Silica and Silicates by Heterojunctions and Direct Photothermal Energy Storage of Mg(OH)₂–(Co₂SiO₄–SiO₂)

Authors: Hao, R.-M., Zhu, L., Zheng, S.-Y., Xu, Z.-B., Wu, Q.-P.

Journal: ACS Sustainable Chemistry and Engineering

Year: 2024

Strong absorption of (Mn₂O₃)₃CuSiO₃ with Jahn–Teller elongation and direct photothermal storage of (Mn₂O₃)₃CuSiO₃–Mg(OH)₂

Authors: Hao, R.-M., Chang, C.-Y., Zhu, L., Ma, J., Wu, Q.-P.

Journal: Chemical Engineering Science

Year: 2024

Outstanding photothermal performance of metal-like CeO₂–Co₃O₄ and excellent photothermal storage of Ca(OH)₂–CeO₂–Co₃O₄

Authors: Zhu, L., Hao, R.-M., Chang, C.-Y., Liu, W.-X., Wu, Q.-P.

Journal: Solar Energy

Year: 2024

Prof Dr. Mingqiang Zhu | Natural Products Chemistry | Best Researcher Award

Prof Dr. Mingqiang Zhu | Natural Products Chemistry | Best Researcher Award

Prof Dr. Mingqiang Zhu | Northwest A&F University | China

Dr. Mingqiang Zhu, currently serving as a professor and Ph.D. supervisor at Northwest Agriculture & Forestry University, holds a Ph.D. from the same institution. With a strong academic foundation and expertise in biomass engineering, Dr. Zhu has made significant contributions to agricultural biological and environmental energy engineering, focusing particularly on the structural analysis of plant tissue and the value-added application of lignocellulose.

Professional Profiles

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🎓Academic Background and Professional Journey

Dr. Mingqiang Zhu earned his Ph.D. from Northwest Agriculture & Forestry University in 2016. Currently, he serves as a Professor and Ph.D. Supervisor at the same institution. Dr. Zhu has established himself as a leader in the field of biomass engineering, with over 100 published journal articles and 70 authorized Chinese national patents. His research emphasizes the structural analysis of plant tissues and the innovative functionalization, resource utilization, and recycling of biomass, making significant contributions to the field.

🔬 Research and Innovations in Biomass Utilization

Dr. Zhu has innovatively revealed the decomposition mechanism of plant resources based on the biorefining concept. His work integrates multiple extraction methods to cleanly separate biomass components for further utilization. By elucidating the mechanism of lignin dissociation, Dr. Zhu has provided effective pathways for the development of biomaterials and biofuels.

🌿 Advancements in Eucommia ulmoides Research

Dr. Zhu’s studies on Eucommia ulmoides have uncovered key insights into its primary and secondary metabolite accumulation. He has analyzed its morphological characteristics, photosynthetic physiology, and chemical composition, providing a dynamic model of biomass accumulation. His groundbreaking work highlights the interaction between photosynthesis and secondary active ingredient metabolism, offering a theoretical reference for large-scale promotion and industrial application in arid regions.

🛠️ Innovations in Gutta-Percha Research

Dr. Zhu successfully elucidated the molecular weight formation mechanism of gutta-percha rubber particles, enabling the development of specialized gutta-percha materials. He pioneered the biological pathway for “one-way synthesis”, significantly enhancing the yield of secondary metabolites. His efforts have led to the creation of sound-insulation materials with excellent performance, advancing the industrial potential of Eucommia ulmoides resources.

🌐 Areas of Expertise

Dr. Zhu’s research spans across Agricultural, Biological, Environmental, and Energy Engineering, with a focus on sustainable biomass utilization and its industrial applications. His innovative contributions continue to shape the fields of biorefining and bioengineering, driving solutions for a greener and more sustainable future.

Publications Top Noted📝

Efficient separation of Eucommia ulmoides gum (EUG) and directed fabrication of reconstructed materials from Eucommia seed shell based on ingenious biphasic solvent system

Authors: He, B.; Zhang, C.; Zhu, M.; Wen, J.; Yuan, T.

Journal: Industrial Crops and Products

Year: 2024

Significant performance enhancement of Zn-ion hybrid supercapacitors based on microwave-assisted pyrolyzed active carbon via synergistic effect of NaHCO3 activation and CNT networks

Authors: Chen, Z.; Qu, Q.; Chi, Z.-Z.; Zhu, L.; Zhu, M.-Q.

Journal: Materials Today Sustainability

Year: 2024

Dual single-atom sites coupled with graphene-encapsulated core-shell Fe-Cu nanoalloy for boosting the oxygen reduction reaction

Authors: Srinivas, K.; Chen, Z.; Chen, A.; Zhu, M.-Q.; Chen, Y.

Journal: Journal of Materials Chemistry A

Year: 2024

Effect of Reaction Conditions on Energy Yield of Pyrolysis Gas from Apple Tree Branches

Authors: Ma, H.; Zhang, Y.; Qiu, L.; Zhu, M.; Yang, X.

Journal: ACS Omega

Year: 2024

Valorization of Coptis chinensis extraction residue via slow pyrolysis for the production of bioactive wood vinegar

Authors: Yin, D.; Xue, R.; Li, Y.; Zhu, M.; Li, D.

Journal: Biomass Conversion and Biorefinery

Year: 2024

Prof. Jiliang Ma | Green Chemistry | Best Researcher Award

Prof. Jiliang Ma | Green Chemistry | Best Researcher Award

Professor at Dalian Polytechnic University | China

Jiliang Ma, an Associate Professor and Doctoral Supervisor at Dalian Polytechnic University, has made significant contributions to the field of biomass science and photocatalysis. With a PhD in Biomass Science and Engineering from South China University of Technology (SCUT), Jiliang Ma has built a distinguished academic and professional career, serving on several editorial boards and holding memberships in prestigious scientific societies.

Professional Profile

Scopus

📚Academic and Professional Background

Jiliang Ma, an Associate Professor and Doctoral Supervisor at Dalian Polytechnic University, holds a Ph.D. in Biomass Science and Engineering from the South China University of Technology (SCUT). Renowned for his expertise, he serves as the Lead Guest Editor for Advanced Powder Materials in the area of Paper and Biomaterials. His professional affiliations include memberships in the Chemical Industry and Engineering Society of China (CIESC), Chinese Chemical Society (CCS), China Technical Association of the Paper Industry (CTAPI), Chinese Society for Imaging Science and Technology (CSIST), and Chinese Society of Micro-Nano Technology (CSMNT). His research primarily focuses on photocatalytic biomass refining to synthesize high-value chemicals, as well as photocatalytic hydrogen production and carbon dioxide reduction, addressing critical challenges in sustainable energy and environmental preservation.

🔬 Research Interests

Jiliang Ma’s research centers on innovative solutions in photocatalytic biomass refining, where he develops advanced methods for producing high-value chemicals. He is also deeply involved in photocatalytic hydrogen production, exploring groundbreaking techniques for clean energy generation. Additionally, his work on carbon dioxide reduction advances strategies to mitigate greenhouse gas emissions through photocatalytic processes, contributing significantly to the fight against climate change.

🚀 Key Contributions

Jiliang Ma has made several pioneering contributions to the field of photocatalytic biomass refining and renewable energy. He achieved the first thermocatalytic synthesis of xylonic acid in a neutral system, a significant milestone in biomass science. His research also introduced the low-temperature photocatalytic synthesis of xylonic acid and lactic acid in alkaline systems, revealing that high alkalinity favors lactic acid production, while low alkalinity enhances xylonic acid synthesis. By combining oxidation and reduction half-reactions, he enabled the simultaneous photocatalytic selective oxidation of biomass to produce lactic acid and hydrogen, improving reaction efficiency. Furthermore, he was the first to elucidate the mechanism for the simultaneous production of lactic acid and CO through photocatalytic biomass refining coupled with CO₂ reduction in alkaline systems, marking a significant advancement in sustainable chemical synthesis.

🌍 Professional Memberships

Jiliang Ma is actively involved in professional organizations, including the Chemical Industry and Engineering Society of China (CIESC), Chinese Chemical Society (CCS), China Technical Association of the Paper Industry (CTAPI), Chinese Society for Imaging Science and Technology (CSIST), and the Chinese Society of Micro-Nano Technology (CSMNT). His membership in these societies reflects his commitment to advancing the fields of chemistry, engineering, and sustainable materials.

Publications Top Noted📄

Chitosan-amidated lignin aerogel beads efficiently loaded with lanthanum hydroxide for phosphate removal from aqueous solutions

Authors: Cui, R., Ma, J., Li, X., Zhang, J., Sun, R.

Journal: International Journal of Biological Macromolecules

Year: 2024

In-situ carbon-doped poly(triazine imide) modified with silver nanoparticles for synergistic efficient photocatalytic CO2 reduction coupled with biomass refining

Authors: Liu, Z., Li, A., Ma, J., Jiang, W., Sun, R.

Journal: Chemical Engineering Journal

Year: 2024

Fabricating a CNIS@SL S-Scheme Heterojunction with Spatial Charge Separation for Boosting Photocatalytic Biomass Reforming

Authors: Li, X., Ma, J., Jiang, W., Zhang, J., Sun, R.

Journal: ACS Sustainable Chemistry and Engineering

Year: 2024

Enhancing Photocatalytic Activity for Solar-to-Fuel Conversion: A Study on S-Scheme AgInS2/CeVO4@Biocharx Heterojunctions

Authors: Zhang, J., Ling, W., Li, A., Hong, M., Sun, R.

Journal: Advanced Functional Materials

Year: 2024

Scaling up clean production of biomass-derived organic acids as a step towards the realization of dual carbon goals: a review

Authors: Ali, Z., Ma, J., Sun, R.

Journal: Green Chemistry

Year: 2024

Dr. Bangfu Ding | Chemical Reactions | Best Researcher Award

Dr. Bangfu Ding | Chemical Reactions | Best Researcher Award

Doctorate at Hebei University | China

Professional Profile

Scopus

👨‍🎓 Educational Background

Dr. Bangfu Ding has an extensive educational background that has shaped his expertise in condensed matter physics and materials physics. He completed his Doctoral Degree in Condensed Matter Physics at Beihang University from 2012 to 2016. His research during this period focused on Materials Physics, where he explored the intricate properties and behaviors of materials at the atomic and molecular levels. Prior to his doctoral studies, Dr. Ding earned his Master’s Degree in Condensed Matter Physics from Jishou University between 2009 and 2012. His research at Jishou University centered around Quantum Information, a field that examines how quantum systems can be used for information processing. Dr. Ding’s academic journey began with a Bachelor’s Degree in Physics from Chaohu University, where he studied from 2002 to 2006. This early education laid the foundation for his career in physics and sparked his deep interest in the theoretical and experimental aspects of condensed matter physics.

🏫 Academic and Research Focus

Dr. Bangfu Ding holds a Ph.D. in Materials Physics from Beihang University, where his research centered around Condensed Matter Physics and Materials Physics. His master’s degree focused on quantum information at Jishou University. His early academic experience at Chaohu University set the foundation for his career in Physics, ultimately leading to significant expertise in materials and condensed matter.

Publications Top Noted📝

Constructing a novel double Z-type junction BaTiO3/ZnIn2S4/ZnTiO3 by a new chemical reaction for antibiotics degradation, H2 production, and CO2 reduction

Authors: Ding, B., Zuo, K., Zhang, L., Mao, L., Zhang, J.
Journal: Journal of Environmental Chemical Engineering
Year: 2024

Enhancing thermoelectric performance of p-type SnTe through manipulating energy band structures and decreasing electronic thermal conductivity

Authors: Qian, X., Guo, H.-R., Lyu, J.-X., Wang, J.-L., Wang, S.-F.
Journal: Rare Metals
Year: 2024

Huge redshift of absorption edge in a novel Z-type Bi2Sn2O7/α-Bi2O3 junction for highly efficiently visible light degradation of norfloxacin and bisphenol AF

Authors: Yu, M., Zuo, K., Ding, B., Mao, L., Zhang, J.
Journal: Journal of Environmental Chemical Engineering
Year: 2024

Enhanced thermoelectric properties of layered anisotropic PbBi2Te4 through the suppression of bipolar diffusion effect via Se alloying

Authors: Qian, X., Jin, H., Li, X., Wang, J., Wang, S.-F.
Journal: Applied Physics Letters
Year: 2024

Construction of a novel S-type γ-Bi2O3/CeO2 heterojunction for highly efficient photocatalytic degradation of antibiotics

Authors: Cao, J., Liu, S., Wu, J., Zheng, S., Zhang, J.
Journal: Physical Chemistry Chemical Physics
Year: 2024

Prof. Nadhir Jafar | Organic Chemistry | Sustainable Chemistry Pioneer Award

Prof. Nadhir Jafar | Organic Chemistry | Sustainable Chemistry Pioneer Award

Professor at Al-Zahraa University for Women | Iraq

Prof. Dr. Nadhir Najim Abdullah Jafar possesses a robust foundation in organic chemistry, supported by his advanced degrees, including a master’s in applied organic chemistry and a doctorate with a focus on drug synthesis and structural assignments.

Professional Profiles

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🎓 Extensive Experience and Education

Prof. Dr. Nadhir Najim Abdullah Jafar has a robust educational foundation in organic chemistry, with both a master’s degree in applied organic chemistry and a doctorate in organic chemistry. His thesis, focused on new drug synthesis and structural assignments, underscores his expertise in drug development and biological activity studies.

🌍 Diverse Professional Background

With a career spanning various academic and research roles across multiple countries, including Jordan and Iraq, Prof. Abdullah’s experiences enrich his perspective in organic chemistry. His multinational experience highlights his versatility and global understanding in the field.

👩‍🏫 Teaching and Supervision

Prof. Abdullah has substantial teaching experience in organic chemistry for both undergraduate and graduate levels. His role as a supervisor to numerous postgraduate students showcases his commitment to mentoring future researchers and contributing to the development of the next generation of scientists.

🔬 Research Contributions

With a focus on areas such as drug synthesis, organic fluorescent compounds with medical applications, and pharmacological studies, Prof. Abdullah’s research aligns with cutting-edge advancements in organic chemistry. His active participation in conferences reflects his dedication to staying at the forefront of scientific innovation.

🌐 International and Interdisciplinary Experience

Prof. Abdullah’s active engagement in international conferences in Iraq, Iran, and Jordan demonstrates his commitment to global research exchange. His interdisciplinary approach, particularly in pharmacology and organic chemistry, broadens his impact and fosters collaborative opportunities in various research fields.

Publications Top Noted📚

Design and development of green electrode using graphene oxide modified with L-hypip coated with iron NPs for enantioselective electro-organic cyanation in the presence of NaCl electrolyte

Authors: Zen, A.A.; Al-Sabti, M.D.; Alaridhee, Z.A.I.; Altayeh, A.O.; Almehizia, A.A.
Journal: Journal of Molecular Structure
Year: 2025

Mathematical modeling of ions adsorption from water/wastewater sources via porous materials: A machine learning-based approach

Authors: Yang, G.; Jafar, N.N.A.; Albadr, R.J.; Alubady, R.; Alawadi, A.
Journal: Chemometrics and Intelligent Laboratory Systems
Year: 2024

Simulation study of a practical approach to enhance cadmium removal via biological treatment by controlling the concentration of MLSS

Authors: Nile, B.K.; Faris, A.M.; Alesary, H.F.; Abid, H.R.; Barton, S.
Journal: Scientific Reports
Year: 2024

Synthesis of innovative Daphne mucronata extract/Cu-MOF/PVA-PVP nanofiber as high-performance anticancer and antimicrobial agent

Authors: Altharawi, A.; Jafar, N.N.A.; Aldakhil, T.; Jwad Kazem, T.
Journal: Inorganic Chemistry Communications
Year: 2024

Recent progress in ZnO-based heterostructured photocatalysts: A review

Authors: Ahmad, I.; Bousbih, R.; Mahal, A.; Ali, I.; Bayahia, H.
Journal: Materials Science in Semiconductor Processing
Year: 2024

Dr. Wenjie Li |  Physical Chemistry | Best Researcher Award

Dr. Wenjie Li |  Physical Chemistry | Best Researcher Award

Doctorate at Shenyang University of Technology, China

Professional Profiles

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🎓 Academic and Professional Background

Wenjie Li is a doctoral candidate with research expertise in acoustomechanical metamaterials and equipment vibration and noise control. His work addresses the development of mechanical metamaterials tailored to optimize noise reduction and enhance the stability of machinery, reflecting his dedication to innovations in environmental and industrial acoustics.

🔬 Research and Innovations

Wenjie has led and contributed to several prestigious research projects backed by prominent funding institutions, including:

National Natural Science Foundation of China

China Postdoctoral Science Foundation

Liaoning Province Natural Science Foundation

Education Department of Liaoning Province

Liaoning Provincial Science and Technology Program

These projects reflect his commitment to advancing acoustomechanical innovations in vibration control technology, contributing to improvements in noise management for various industrial applications.

🤝 Professional Memberships

Wenjie Li is a member of the Chinese Society of Vibration Engineering, where he actively engages with peers in research collaborations focused on vibration control and acoustics. His involvement strengthens his impact within the field of vibration engineering.

🔧 Areas of Research

Mechanical Metamaterial: Wenjie’s research in this area emphasizes the creation of materials with unique acoustic properties that can manipulate sound and control vibrations, transforming approaches to noise management.

Equipment Vibration and Noise Control: His research seeks to reduce operational noise and improve efficiency in machinery, addressing key challenges in engineering and industrial environments.

Publications Top Noted📚

Vibration Control and Bandgap Tuning of Layer-Gradient Periodic Pipes Based on Composite Cell

Authors: Li, W.; Kong, X.; Xu, Q.; Hao, Z.

Journal: Composite Structures

Year: 2024

Bandgap Accuracy and Characteristics of Fluid-Filled Periodic Pipelines Utilizing Precise Parameters Transfer Matrix Method

Authors: Li, W.; Kong, X.; Xu, Q.; Hao, Z.

Journal: Journal of Fluids and Structures

Year: 2024

Study on the Self-Synchronization and Sommerfeld Effect of Rectangular Thin Plate Vibration System Excited by Double Induction Motors

Authors: Kong, X.; Zeng, F.; Li, W.; Kong, F.; Wu, T.

Journal: Journal of Vibration Engineering and Technologies

Year: 2024

Nonlinear Dynamic Response of a Thin Rectangular Plate Vibration System Excited by a Non-Ideal Induction Motor

Authors: Li, W.; Kong, X.; Xu, Q.; Zhou, C.; Hao, Z.

Journal: Journal of Vibration Engineering and Technologies

Year: 2023

Dynamic Characteristics of a Simply Supported Elastic Beam with Three Induction Motors

Authors: Kong, X.; Li, W.; Jiang, J.; Dong, Z.; Wang, Z.

Journal: Journal of Sound and Vibration

Year: 2022

Mr. Di Ran, Surface Chemistry, Best Researcher Award

Mr. Di Ran, Surface Chemistry, Best Researcher Award

Mr. Di Ran, Shenyang Urban Construction University, China

Dr. Ran Di has demonstrated an impressive commitment to advancing surface chemistry and mechanical engineering. Through pioneering research on graphene nanoribbons, copper substrate coatings, and mechanical behaviors under atomic-level precision, his work has significantly impacted the understanding and practical applications of nano-material cutting mechanisms.

Professional Profile

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🎓 Educational Background

Dr. Ran Di has an impressive academic background in Mechanical Engineering. He completed his Bachelor’s degree at Liaoning University of Technology (2009.09 – 2013.07) before advancing to Shenyang University of Technology for his Master’s degree (2013.09 – 2016.04). He is currently a Ph.D. candidate in Mechanical Engineering at Shenyang University, where his research focuses on precision cutting and nanotechnology applications in advanced materials like graphene.

👩‍💻 Work Experience

Dr. Di has nine years of industry experience, having held various roles in mechanical engineering. He began as a Mechanical Engineer at Shenyang Tuojing Technology Co., Ltd. (2016.04 – 2017.08), where he gained hands-on experience in mechanical design. He then moved on to become a Product Engineer at Bekaert Shenyang Precision Steel Products Co., Ltd. (2017.08 – 2019.12), further developing his skills in product development and precision engineering. Since 2020, he has served as an Experimental Teacher at Shenyang Urban Construction College, where he combines his practical knowledge with academic instruction, guiding students in experimental methods and mechanical technologies.

🏆 Research Projects & Scientific Achievements

Dr. Di has contributed significantly to his field through various research projects. He is a participant in a National Natural Science Foundation project on Photocatalytic Mechanochemical Nanocutting Theory and Key Technology Foundation for Graphene Band Gap Regulation (2023.01 – Present), where he explores nanocutting mechanisms. He also hosts a Basic Scientific Research project funded by the Liaoning Provincial Department of Education, focusing on the fixed-width cutting and edge morphology modification of graphene nanoribbons (2023.11 – Present). Additionally, he leads a project funded by the Shenyang Institute of Urban Construction, researching controllable nano-cutting and edge modification of graphene, highlighting his expertise in graphene applications and material science (2021.11 – Present).

Publications Top Noted📄 

Effects of nanocutting environments on the electronic structure of armchair-type graphene nanoribbons: the first-principles study

Authors: Tang, M., Yuan, Z., Sun, J., Feng, Y., Zhou, X.

Journal: Physica Scripta

Year: 2024

Structural evolution and microscopic mechanisms of atomically precise edge graphene nanoribbons prepared by chemical functionalization-assisted cutting

Authors: Ran, D., Yuan, Z., Wang, N., Sun, J., Feng, S.

Journal: Materials Today Communications

Year: 2024

Micromechanical effects of substrate hardness on graphene nano-cutting quality

Authors: Tang, M., Yuan, Z., Sun, J., Zhou, X., Ran, D.

Journal: Materials Today Communications

Year: 2024

Mechanical behaviour and micro-mechanism of atomically precise edge graphene nanoribbons mechanical cutting guided by hydrogen atom adsorption

Authors: Ran, D., Yuan, Z., Wang, N., Zheng, P.

Journal: Diamond and Related Materials

Year: 2024

Influence Mechanism of Substrate Chemisorption on Mechanical Cutting Properties of Graphene | 基底化学吸附对石墨烯机械裁剪性能的影响机制

Authors: Ran, D., Zheng, P., Yuan, Z., Wang, N.

Journal: Zhongguo Biaomian Gongcheng/China Surface Engineering

Year: 2023

Ms. Jiawei Liang, Analytical Chemistry, Best Researcher Award

Ms. Jiawei Liang, Analytical Chemistry, Best Researcher Award

Ms. Jiawei Liang, Liaoning Technical University, China

Professional Profile

Scopus

📚 Academic and Professional Background

Jiawei Liang currently pursuing a Master of Engineering with a focus on mine gas disaster prevention. My research seeks to address critical safety concerns in mining through innovative approaches to disaster prevention, aiming to reduce hazardous events in underground mining environments.

🧪 Areas of Research

My primary research area is mine gas disaster prevention. I am dedicated to exploring effective methods to mitigate gas hazards in mining settings, contributing to safer working conditions and environmental conservation in the mining industry.

💡 Contributions

My research focuses on uncovering the interaction mechanisms between small-molecule organics and coal molecules. By examining charge transfer processes in substances like methyl benzene, tetrahydrofuran, n-hexane, and methane, I aim to shed light on their influence on methane adsorption characteristics in anthracite coal. These insights hold valuable implications for enhancing coal mine safety in China and offer new perspectives on preventing gas-related disasters in mining.

Publications Top Noted📚

Effect of small-molecule organic matter on methane adsorption in anthracite

Authors: Gao, D., Liang, J., Hong, L., Yang, Z., Wang, J.
Journal: Journal of Saudi Chemical Society
Year: 2024

Study on the Effect of H2S on the Adsorption of CH4, N2, and CO2 by Anthracite

Authors: Gao, D., Liang, J., Hong, L., Zheng, D.
Journal: ACS Omega
Year: 2024

Assoc Prof Dr. Jun Ma, Functional Groups, Best Researcher Award

Assoc Prof Dr. Jun Ma, Functional Groups, Best Researcher Award

Assoc Prof Dr. Jun Ma, Guizhou University, China

Professional Profile

Scopus

🌟Summary

Jun Ma is an esteemed Associate Professor at the College of Chemistry and Chemical Engineering, Guizhou University. Based in Guiyang City, China, he has been instrumental in advancing the university’s research profile since March 2021. His contributions align with his vision for transforming chemical engineering through intensified processes and advanced materials development.

🎓 Academic Journey

Jun Ma’s journey in chemical engineering began at Tianjin University of Science and Technology, where he earned his Bachelor’s (2009–2013) and Master’s degrees (2013–2016) in Engineering. Driven by a deep curiosity and dedication to innovation, he continued his studies at Tianjin University, obtaining his Doctor of Engineering degree in July 2020. This strong academic foundation laid the groundwork for his future contributions to research and education in chemical engineering.

🧪 Research Directions

Jun Ma’s research revolves around three primary fields:

Intensification of Chemical Processes: Exploring innovative ways to enhance the efficiency and effectiveness of chemical reactions and processes.

Development of Functional Materials: Creating advanced materials with specialized properties that support various industrial applications.

Theoretical Calculations: Utilizing theoretical models and simulations to optimize chemical processes and material properties, ensuring practical and scalable solutions for real-world challenges.

🚀 Scientific Achievements

As the principal investigator of several prestigious projects, including those funded by the National Natural Science Foundation of China and the Guizhou Province Science and Technology Plan Project, Jun Ma has consistently demonstrated his expertise and commitment to scientific excellence. His research findings have been widely recognized, with publications in acclaimed journals such as Fuel, Journal of Materials Chemistry A, Chemical Engineering Journal, and ACS Applied Materials & Interfaces, among others. These works have contributed significantly to advancements in chemical process intensification and functional materials.

Publications Top Noted📑

Enhanced hydrogen evolution in neutral media via proximity effect of Ru/RuO2-TiO2 nanocatalysts

Authors: Yang, Y., Xu, L., Li, C., Geng, S., Liu, F.
Journal: Journal of Materials Science and Technology
Year: 2025

Effective conversion of CO2 into lower olefins over GaCrZrOx/SAPO-34 tandem catalysts

Authors: Wang, Y., Liu, F., Yao, M., Cao, J., Wang, X.
Journal: Separation and Purification Technology
Year: 2025

Electron‐rich SnO2 promote CO2 activation for stable electrocatalytic CO2 reduction

Authors: Li, C., Liu, F., Geng, S., Yao, M., Wang, X.
Journal: Journal of Colloid and Interface Science
Year: 2025

Modulating d-Orbital electronic configuration via metal-metal oxide interactions for boosting electrocatalytic methanol oxidation

Authors: Mao, G., Zhou, Q., Wang, B., Luo, L., Wang, Q.
Journal: Journal of Colloid and Interface Science
Year: 2025

Synthesis of methanethiol from CO2/H2S/H2 catalyzed by hollow nanospheres VS4 with high catalytic activity

Authors: Wang, W., Liu, F., Geng, S., Ma, J., Wang, X.
Journal: International Journal of Hydrogen Energy
Year: 2024

Prof Dr. Liubov Safonova, Physical Chemistry, Best Researcher Award

Prof Dr. Liubov Safonova, Physical Chemistry, Best Researcher Award

Prof Dr. Liubov Safonova, Institute of Solution Chemistry of the Russian Academy of Sciences, Russia

Professional Profiles

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🎓Educational Background 

Liubov P. Safonova completed her undergraduate studies in chemistry at the Department of Inorganic Chemistry, Ivanovo State University of Chemistry and Technology in 1975, earning her Dipl.Chem. degree. This educational foundation in inorganic chemistry established her for a prolific scientific career.

🔬Scientific Experience and Career Milestones 

1975-1978: Safonova began her professional journey as a Scientific Associate and Research Assistant at Ivanovo State University of Chemistry and Technology, where she gained valuable early career experience.

1978-1981: During her graduate studies at the same institution, she conducted significant research that led to her PhD and the award of the academic degree of Candidate of Chemical Sciences in 1981.

1981-1984: She continued her scientific contributions as an Associate Researcher, expanding her expertise in solution chemistry.

1984-1998: Her promotion to Senior Researcher marked the start of over a decade of leadership in research projects, solidifying her status as an expert in coordination chemistry.

1998-Present: Since 1998, Safonova has held the prestigious position of Chief Researcher. That same year, she earned the Doctor of Chemical Sciences degree, recognizing her immense contributions to the field. In 2007, she was awarded the academic rank of professor, further confirming her stature as a top scientist.

🌟Professional Contributions and Leadership 

Liubov P. Safonova has been actively involved in editorial and organizational roles within the scientific community. She serves on the editorial board of the esteemed Russian academic book series, “Problems of Solution Chemistry”, and is a key member of the organizing committee for notable events such as the International Conference of Chemical Thermodynamics in Russia and the International Chugaev Conference on Coordination Chemistry (2011). Her ongoing engagement with these events underscores her dedication to the advancement of chemical sciences globally.

Publications Top Noted📄

Zwitterionic and vinyl-N-imidazolium ionic liquids

Authors: Shmukler, L.E., Fadeeva, Y.A., Gruzdev, M.S., Van Thuc, N., Safonova, L.P.
Journal: Journal of Molecular Liquids
Year: 2024

Structure of Propyl-, Dipropyl-, and Tripropylammonium Mesylates According to the Molecular Dynamics Data

Authors: Fedorova, I.V., Krest’yaninov, M.A., Safonova, L.P.
Journal: Russian Journal of Physical Chemistry A
Year: 2024

New PBI Membranes Doped with Methyl-Imidazolium Triflate Protic Ionic Liquid

Authors: Fadeeva, Y.A., Kuzmin, S.M., Shmukler, L.E., Safonova, L.P.
Journal: Polymer Science – Series A
Year: 2024

Combined Computational and Experimental Studies of Tripropylammonium 2-Sulfobenzoate Protic Ionic Liquid

Authors: Fedorova, I.V., Shmukler, L.E., Fadeeva, Y.A., Krestyaninov, M.A., Safonova, L.P.
Journal: Structural Chemistry
Year: 2024

Effects of Non-Specific and Specific Solvation on Structure of Tripropylammonium-Based Protic Ionic Liquids: Insight from Computational Modeling

Authors: Fedorova, I.V., Krestyaninov, M.A., Safonova, L.P.
Journal: Journal of Molecular Liquids
Year: 2023