Dr. Jianxing Bao | Catalysis Award | Best Researcher Award

Posted on by ScienceFather

Dr. Jianxing Bao | Catalysis Award | Best Researcher Award

Dr. Jianxing Bao, Xi’an Rare Metal Materials Institute Co., Ltd, China

 

Jianxing Bao is a Doctor of Engineering at the Xi’an Rare Metal Materials Institute Co., Ltd in China, where he conducts advanced research in materials science. His research interests focus primarily on electroplasticity, micro/nanoforming, and the deformation behavior of high-entropy alloys and titanium alloys under electrically-assisted conditions. He has made significant contributions to the field, as evidenced by his 136.5 citations and an h-index of 8, indicating a solid impact on his research community. Jianxing has authored and co-authored several influential articles, including studies on the effects of geometry and microstructure on deformation behavior and the microstructural evolution of titanium alloys during high-pressure torsion. His work has been published in reputable journals such as Materials Science and Engineering A and Advanced Materials, showcasing his expertise in both theoretical and practical aspects of materials engineering. Through his research, Jianxing Bao continues to advance the understanding of the mechanical properties and processing techniques of metallic materials, contributing to the development of innovative applications in engineering and manufacturing.

 

Professional Profile:

SCOPUS

 

Suitability for Best Researcher Award: Jianxing Bao

Research Contributions: Jianxing Bao, a Doctor of Engineering affiliated with Xi’an Rare Metal Materials Institute, has demonstrated extensive expertise and impactful research in the field of materials science, with a particular focus on electrically-assisted micro-forming technology, high entropy alloys, and deformation behaviors in advanced materials like titanium alloys. His publications cover cutting-edge topics such as electroplasticity, micro-compression deformation, and microstructural evolution, reflecting both innovation and depth of understanding in these areas.

Education:

  • Doctor of Engineering
    Jianxing Bao earned his Doctor of Engineering degree, although the specific details about the institution where he completed his degree are not provided.

Work Experience:

  • Current Position:
    Jianxing Bao holds a position at the Xi’an Rare Metal Materials Institute Co., Ltd., China. His current role focuses on advanced materials research, including topics such as electroplasticity, electrically-assisted micro-compression, and the fabrication of 3D metallic structures.

Research Activity and Contributions:

  • Jianxing Bao has contributed significantly to the field of materials science, with a focus on the deformation behavior and microstructural evolution of alloys, particularly high-entropy alloys and Ti–6Al–4V alloy. His research includes several published articles on topics such as electrically-assisted uniaxial tension and micro-compression, tribological behavior in titanium alloys, and phase transformations induced by electric currents.
  • He has collaborated on various projects and articles with prominent researchers in the field, such as Chaogang Ding, Jie Xu, and Bin Guo, producing research that has earned 227 citations and an h-index of 8.

This outline reflects Jianxing Bao’s focus and expertise in the area of advanced materials and alloy deformation mechanisms. For further details, more specific information about his academic background or work history would be needed.

Publication top Notes:

Characterization of stress drop and strain localization for titanium alloy subjected to electrically-assisted tension

Electroplasticity in the Al0.6CoCrFeNiMn high entropy alloy subjected to electrically-assisted uniaxial tension

Research progress of electrically-assisted micro-forming technology

The Effects of Geometry Size and Initial Microstructure on Deformation Behavior of Electrically-Assisted Micro-Compression in Ti-6Al-4V Alloy

Local softening deformation and phase transformation induced by electric current in electrically-assisted micro-compression of Ti–6Al–4V alloy

Samruddhi Mane | Chemical Engineering | Women Researcher Award

Posted on by ScienceFather

Samruddhi Mane | Chemical Engineering | Women Researcher Award

Ms. Samruddhi Mane , CSIR-National Chemical Laboratory, India.

Ms. Samruddhi Mane is a dedicated chemical and environmental engineer with a passion for sustainable technologies. Her work focuses on developing eco-friendly processes to drive a more sustainable future. Currently, she is involved in advanced research on chemical kinetics, digital twins, and pilot plant designs. With experience at prestigious institutions like CSIR-NCL Pune and collaboration with IIT Bombay, she is pushing the frontiers of green technology. Her innovative spirit is demonstrated through several patents and impactful research publications. 🌍💡📚

Publication Profile 

Scopus

Suitability Of The Award

Samruddhi Mane is an outstanding candidate for the Women Researcher Award due to her significant contributions in chemical and environmental engineering, particularly in the development of sustainable processes. Her research and professional achievements, along with her dedication to eco-friendly technologies, position her as a highly deserving recipient of this prestigious recognition.

Education and Experience

🎓 PhD – Chemical Sciences, CSIR-National Chemical Laboratory (2020–2022)
🎓 M.Tech – Environmental, AcSIR, CSIR-NCL (2023–present)
🎓 B.Tech – Chemical Engineering, Vishwakarma Institute of Technology, Pune (2015–2019)
👩‍🔬 Project Scientist – CSIR-NCL, Pune (2023–present)
👩‍🔬 Project Associate – CSIR-NCL, Pune (2020–2023)

Professional Development

Samruddhi Mane has demonstrated exceptional growth in her career, contributing to various innovative projects and research. She has worked on process modeling, plant design, and market research, constantly seeking technological solutions to industrial challenges. Her expertise extends to digital twins and machine learning for pilot plant development, along with hands-on experience in catalyst scale-up and characterization. Collaborating with leading institutions like CSIR-NCL and IIT Bombay, she continues to push the boundaries of chemical engineering for sustainability. 🧪🔧💻

Research Focus

Samruddhi’s research is centered on sustainable and eco-benign technologies. She has extensively worked on methanol dehydration to dimethyl ether (DME), contributing to energy-efficient DME-fired boilers. Her work also spans the O-alkylation of aromatic alcohols, and the hydrogenation of CO2 to value-added products, all aimed at minimizing environmental impact. Samruddhi’s keen interest in catalyst design for these processes underscores her focus on green chemistry and sustainable energy solutions. ⚗️🌱🔬

Awards and Honors

🏆 Patent for biomolecule extraction from biomass (2023)
🏆 Patent for energy-efficient DME-fired boiler design (2020)
🎖️ Publications in MDPI and Elsevier on selective catalysis

📖 Co-authored chapters in Springer Nature’s Handbook of Materials Science

Publication Top Notes

  • Nitric acid-free cyclohexane to adipic acid production using nickel and vanadium incorporated AlPO-5 molecular sieve (2023) – Cited by 5 📚🔬
  • Selective O-alkylation of Phenol Using Dimethyl Ether (2022) – Cited by 0 📖

Conclusion

Samruddhi Mane’s impressive record of research, publications, patents, and leadership in chemical and environmental engineering makes her an ideal candidate for the Women Researcher Award. Her dedication to developing eco-benign processes and her contributions to both industry and academia underscore her exceptional qualifications. Ms. Mane’s work not only advances scientific knowledge but also has a meaningful impact on sustainable practices and environmental protection.