Jiaming Ni | 2D Materials | Best Researcher Award

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Dr. Jiaming Ni | 2D Materials | Best Researcher Award 

Dr. Jiaming Ni | Nanchang hangkong university | China

Jiaming Ni holds a Ph.D. in Materials Science and Engineering from the Autonomous University of San Luis Potosí, Mexico, a Master’s degree in Mechanical and Electrical Engineering from Guilin University of Electronic Technology, and a Bachelor’s degree in Vehicle Engineering from Nanchang University. His research focuses on semiconductor materials, first-principles calculations, and photocatalytic hydrogen production. He has published impactful studies on GaS/XTe₂ heterostructure photocatalysts (International Journal of Hydrogen Energy, IF 7.2), van der Waals heterostructures for hydrogen production (Journal of Materials Chemistry C, IF 7.059), and gas adsorption on doped WSe₂ (Applied Surface Science, IF 6.182).

Author Profile

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Education

From the very beginning of his academic journey, Jiaming Ni demonstrated a keen interest in engineering, materials science, and technological innovation. His foundational education in Vehicle Engineering at the College of Science and Technology, Nanchang University, provided him with a strong technical background in mechanics, design, and manufacturing processes. Eager to expand his expertise, he pursued a Master’s degree in Mechanical and Electrical Engineering at Guilin University of Electronic Technology, where he gained deeper knowledge in interdisciplinary engineering systems. His thirst for innovation and research led him to the Autonomous University of San Luis Potosí, Mexico, where he completed his Ph.D. in Materials Science and Engineering under the guidance of Prof. Shaoxian Song. Throughout his academic journey, Ni developed a strong foundation in semiconductor materials, micro/nano-structures, and advanced computational methods, preparing him for impactful research contributions in his later career.

Experience

After completing his higher education, Jiaming Ni embarked on a career that bridged academia and industry. His early professional role as a Manufacturing Engineer at Semiconductor Manufacturing International Corporation (SMIC) enabled him to apply his technical skills in a highly demanding semiconductor fabrication environment. Later, as a Process Integration Engineer at Guangzhou CanSemi Technology Inc., he worked on optimizing semiconductor production processes, gaining valuable insights into industrial-scale applications of his research expertise. Currently, Ni serves as a Lecturer at Nanchang Hangkong University, where he combines teaching, mentorship, and advanced research to inspire the next generation of engineers and scientists.

Research Focus

Jiaming Ni’s research focuses on semiconductor materials, first-principles calculations, micro- and nano-structure simulations, and the optoelectronic properties of advanced materials. He has made significant contributions to the development of novel two-dimensional (2D) materials, with a particular emphasis on their application in photocatalytic hydrogen production, a promising technology for sustainable energy generation. His expertise also encompasses gas adsorption phenomena and the performance evaluation of alloy materials, addressing challenges in both energy and environmental fields. Among his influential works are studies on GaS/XTe₂ (X = W, Mo) heterostructure photocatalysts for efficient water splitting (International Journal of Hydrogen Energy, IF 7.2), van der Waals heterostructures based on InSe–XS₂ (X = Mo, W) as photocatalysts for hydrogen production (Journal of Materials Chemistry C, IF 7.059), and adsorption of small gas molecules on strained WSe₂ doped with Pd, Ag, Au, and Pt (Applied Surface Science, IF 6.182, cited 9 times). Collectively, these contributions highlight his ability to bridge theoretical computational modeling with practical applications in renewable energy, semiconductor technologies, and environmental protection.

Award and Recognition

Jiaming Ni’s scholarly work has been recognized through publications in high-impact, top-tier journals across the fields of materials science and energy research. His studies have been cited by peers worldwide, reflecting the influence and credibility of his findings. Publishing in Chinese Academy of Sciences (CAS) Zone 1 and Zone 2 journals underscores the quality and international competitiveness of his work. Moreover, his research collaborations with scientists across different countries have further amplified the global reach of his contributions.

Impact and Influence

Through his combined academic and professional endeavors, Ni has contributed to advancing the global understanding of 2D materials, semiconductor device engineering, and sustainable hydrogen production technologies. His work in photocatalytic hydrogen generation addresses one of the most pressing challenges of our time—developing clean, renewable energy sources. In addition, his studies on gas adsorption and alloy performance have implications for environmental monitoring, energy storage, and advanced manufacturing. His career path reflects a unique balance between theoretical research and practical industrial application, making his expertise valuable to both academic and commercial sectors.

Tailoring the electronic and optical properties of layered blue phosphorene/ XC (X=Ge, Si) vdW heterostructures by strain engineering.

Author: Jiaming Ni, Mildred Quintana, Feifei Jia , Shaoxian Song
Journal: Nanostructures
Year: 2021

Adsorption of small gas molecules on strained monolayer WSe2 doped with Pd, Ag, Au, and Pt: A computational investigation.

Author: Jiaming Ni, Wei Wang, Mildred Quintana, Feifei Jia, Shaoxian Song
Journal: Applied Surface Science
Year: 2020

Theoretical investigation of the sensing mechanism of the pure graphene and AL,B,N,P doped mono-vacancy graphene-based methane.

Author: Jiaming Ni, Bingqiao Yang, Feifei Jia, Yulai She, Shaoxian Song, Mildred Quintana
Journal: Chemical Physics Letters
Year: 2018

Conclusion

Jiaming Ni has established himself as a dedicated and innovative researcher whose work seamlessly integrates cutting-edge computational modeling with real-world applications in materials science. His advancements in 2D semiconductor materials, photocatalytic hydrogen production, gas adsorption, and alloy performance analysis not only contribute to the scientific community but also address pressing global challenges in clean energy and environmental sustainability. Through his impactful publications, interdisciplinary expertise, and commitment to innovation, he continues to pave the way for next-generation materials and technologies that hold the potential to transform both industry and society.

Bo Zhu | Nanotechnology | Best Researcher Award | 13430

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Dr. Bo Zhu | Nanotechnology | Best Researcher Award

Dr. Bo Zhu, Jilin University, China

Dr. Bo Zhu is a Lecturer at the School of Mechanical and Aerospace Engineering, Jilin University, China. He received his Ph.D. from Jilin University in 2020 and conducted part of his doctoral research as a visiting scholar at the University of Toronto. His research focuses on high-entropy alloys, nanoindentation, and molecular dynamics simulations. Dr. Zhu has led and contributed to several national and provincial research projects and has published extensively in high-impact journals such as Materials & Design and Advanced Engineering Materials.

Profile

scopus

🎓 Early Academic Pursuits

Dr. Bo Zhu began his academic journey in the field of mechanical and aerospace engineering at Jilin University, one of China’s most prestigious research institutions. Enrolling in 2010, he completed his Bachelor of Engineering in 2014, laying a solid foundation in materials science, mechanics, and computational modeling. Driven by a passion for scientific inquiry and advanced materials, he continued at Jilin University for his Ph.D. studies from 2014 to 2020.A defining moment in his academic career was his tenure as a Visiting Ph.D. Scholar at the University of Toronto between 2019 and 2020. There, he joined the Department of Materials Science and Engineering, gaining international exposure and collaborating with globally recognized experts. This experience expanded his academic perspective and enabled him to explore advanced materials processing techniques, particularly focusing on high-entropy alloys (HEAs) and nanoindentation techniques using molecular dynamics simulations.

👨‍🏫 Professional Endeavors

Following the completion of his Ph.D., Dr. Zhu commenced his professional academic career as a Postdoctoral Researcher at the School of Mechanical and Aerospace Engineering, Jilin University, in July 2021. During this period, he was deeply involved in both teaching and research, contributing to the university’s academic excellence and mentoring graduate students. In February 2025, he was appointed as a Lecturer, a role that reflects his growing reputation in the field and his dedication to academic growth. As a faculty member, Dr. Zhu is committed to advancing both undergraduate and graduate education, fostering innovation, and building collaborative research environments.

🔬 Contributions and Research Focus

Dr. Zhu’s research is primarily centered around advanced materials—particularly high-entropy alloys (HEAs) and silicon carbide (SiC) materials—and their behavior under mechanical stress and extreme conditions. Utilizing computational techniques such as molecular dynamics (MD) simulations, he investigates the atomic-level deformation behavior, anisotropy effects, and phase transformations in materials.

Some of his notable publications include:

  • A study on short-range ordering and atomic segregation in HEAs during solidification (Materials & Design, 2023).

  • Research on the anisotropy effects of 3C–SiC under nanoindentation (Journal of Materials Research and Technology, 2024).

  • Contributions to the development of a high-throughput synthesis method for HEAs using inductively coupled plasma (Advanced Engineering Materials, 2021).

These works have significantly advanced the understanding of mechanical properties at the nanoscale and informed material design strategies for high-performance applications.

🏅 Accolades and Recognition

Dr. Zhu has played a key role in several prestigious national and provincial research projects, including:

  1. National Natural Science Foundation of China (Grant No. 52205156)

  2. National Major Scientific Instruments and Equipment Development Project (Grant No. 52227810)

  3. Postdoctoral Merit Funding Project of Jilin Province

  4. Special Scientific Research Project by the Jilin Provincial Department of Education

His consistent record of funding and support underscores his scientific credibility and the practical relevance of his research. These competitive grants not only validate his academic vision but also enable him to push the boundaries of material science research.

🌍 Impact and Influence

Dr. Zhu’s work is already making a tangible impact in the fields of nanomechanics, semiconductor materials, and alloy design. His publications are widely cited by fellow researchers and have contributed to foundational knowledge in high-entropy material systems and simulation-based mechanical testing. His interdisciplinary approach—bridging computational modeling with experimental data—has positioned him as a thought leader in atomistic simulations and materials design. Additionally, by actively participating in international collaborations and academic exchanges, he promotes global scientific dialogue and contributes to the worldwide research ecosystem.

🌟 Legacy and Future Contributions

As Dr. Zhu moves forward in his academic career, his goals include expanding his research group, mentoring emerging scientists, and deepening his exploration of AI-driven materials discovery and multi-scale simulations. He also aims to contribute to green technologies and sustainable materials, aligning with global efforts to tackle climate change and resource efficiency. Dr. Zhu envisions a legacy where high-performance materials engineered through advanced simulations contribute to real-world solutions—from aerospace components to energy-efficient electronics. His long-term commitment to both education and research ensures he will continue to be a pillar in the field of materials science.

Publication  Top Notes

Research on the effects of chemical short-range order on strengthening and toughening mechanisms of FCC/BCC dual-phase high-entropy alloys at micro/nano-scale

Author: Y., Niu, Yihan, D., Zhao, Dan, B., Zhu, Bo, Z., Zhang, Zhijie, H., Zhao, Hongwei

Journal: Materials Today Communications This link is disabled

Year: 2024

Effect of temperature on the nanoindentation behavior of monocrystalline silicon by molecular dynamics simulations

Author: Z., Zhang, Zhijie, Z., Zhang, Zhenqiao, D., Zhao, Dan, B., Zhu, Bo, H., Zhao, Hongwei

Journal: Materials Today Communications This link is disabled

Year: 2024