Prof. Zhuang Liu, Materials Science, Best Researcher Award

Prof. Zhuang Liu, Materials Science, Best Researcher Award

Professor at Ningbo Institute of Material Technology and Engineering, Chinese Academy of Science, China

Professional Profile

Scopus

🎓 Academic and Professional Background

Prof. Zhuang Liu Ph.D. in Materials Physics and Chemistry from the Chinese Academy of Sciences in 2010. Following this, I began my postdoctoral research at Chung Cheng University in Taiwan, China, in 2011. Since 2012, I have been associated with the Ningbo Institute of Materials Technology and Engineering, under the Chinese Academy of Sciences. In 2016, I undertook a year-long research project as a visiting scholar at Ames National Laboratory in the United States, gaining invaluable experience and expanding my knowledge in materials science.

🔬 Research and Innovations

Completed/Ongoing Research Projects: Includes the National Key R&D Program of China (Grant No. 2021YFB3503102), Zhejiang Provincial Natural Science Foundation Youth Original Project (Grant No. LDQ24E010001), and the Science and Technology Innovation 2025 Major Project of Ningbo (Grant No. 2022Z204).

🌐 Collaborative Projects

As the leader of a sub-project within China’s National Key Research and Development Plan for high-performance samarium-cobalt permanent magnet materials, I play a key role in advancing research in magnetic materials, working alongside top researchers to drive innovation in this area.

📚 Professional Memberships

I am a Senior Member of the Chinese Institute of Electronics, actively contributing to the advancement of electronic and materials research.

🔍 Areas of Research

My primary research focus is on the structure and magnetism of Sm2Co17-type magnets, a crucial field with applications in advanced magnetics and materials science. This includes an atomic-level analysis of material properties that impact performance and stability in practical applications.

Publications Top Noted📚 

Simultaneous enhancement of magnetic properties and flexural strength in 2:17 type SmCo magnets induced by spherical WO3 particles doping

Authors: Yang, Y., Liu, Z., Zhu, C., Chen, R., Yan, A.
Journal: Journal of Magnetism and Magnetic Materials
Year: 2024

Phase structure evolution and its effect on magnetic and mechanical properties of B-doped Sm2Co17-type magnets with high Fe content

Authors: Li, Y.-W., Liu, Z., Wu, H.-C., Chen, R.-J., Yan, A.-R.
Journal: Chinese Physics B
Year: 2024

Significant effect of ordered micro-domain on cell boundary phase distribution and demagnetization curve squareness of Sm2Co17-type magnet

Authors: Liu, Z., Wu, H.-C., Zhang, C.-Y., Chen, R.-J., Yan, A.
Journal: Rare Metals
Year: 2024

 Enhanced electrical resistivity in SmFe2-xSix alloys with large magnetostriction

Authors: Hou, R., Zhang, M., Xia, R., Liu, J., Yan, A.
Journal: Journal of Magnetism and Magnetic Materials
Year: 2024

Effect of CeO2 doping on the coercivity of 2:17 type SmCo magnets

Authors: Gao, X.-L., Liu, Z., Wang, G.-Q., Chen, R.-J., Yan, A.-R.
Journal: Chinese Physics B
Year: 2023

Mr. Satish Singh, Materials Science, Best Researcher Award

Mr. Satish Singh, Materials Science, Best Researcher Award

Mr. Satish Singh, National Institute of Technology, Rourkela, India

Profile

Scopus

🌟Summary

Mr. Satish Kumar Singh is a dedicated research scholar and assistant professor specializing in material chemistry with a focus on innovative methods for fluoride removal. His work aims to address health concerns related to fluoride contamination through novel materials and processes.

🎓 Education

Master’s in Chemistry (Material Chemistry): 2017

Research Scholar at NIT Rourkela: 2019

Junior Research Fellowship (JRF)

🏛️ Professional Experience

Assistant Professor: College affiliated with Bundelkhand University

Research Scholar: NIT Rourkela

🔬 Research Interests

Fluoride Removal: Developing materials to efficiently remove fluoride and meet WHO’s permissible limit of 1.5 ppm.

Water Filtration Systems: Designing integrated gravity flow systems combining adsorptive and photocatalytic methods for hazardous species purification.

Publications📚

MOF-Decorated Rod-Shaped BiVO4 Heterostructures: Mutual Charge Transfer System Concerning Superior Photocatalytic Efficacy for Bromoxynil Breakdown and H2 Generation Process

Authors: Pahi, S., Behera, A., Singh, S.K., Patel, R.K.

Journal: Industrial and Engineering Chemistry Research

Year: 2024

Lanthanum Cerate Microspheres for Efficient Fluoride Removal from Wastewater

Authors: Singh, S.K., Pahi, S., Behera, A., Patel, R.K.

Journal: Langmuir

Year: 2024

Fermi level induced band edge alignment and band bending in Ag3PO4/Cu2O p-n heterojunction for proficient photocatalytic applications

Authors: Pahi, S., Mahapatra, B., Behera, A., Singh, S.K., Patel, R.K.

Journal: Materials Chemistry and Physics

Year: 2023

Polypyrrole modified zirconium (IV) phosphate nanocomposite: An effective adsorbent for Cr(VI) removal by adsorption-reduction mechanism

Authors: Behera, A., Sahu, S., Pahi, S., Mahapatra, B., Patel, R.K.

Journal: Materials Chemistry and Physics

Year: 2022

Visible light active Zr- And N-doped TiO2 coupled g-C3N4 heterojunction nanosheets as a photocatalyst for the degradation of bromoxynil and Rh B along with the H2 evolution process

Authors: Pahi, S., Sahu, S., Singh, S.K., Behera, A., Patel, R.K.

Journal: Nanoscale Advances

Year: 2021

Adsorption of methylene blue on chemically modified lychee seed biochar: Dynamic, equilibrium, and thermodynamic study

Authors: Sahu, S., Pahi, S., Tripathy, S., Sahu, U.K., Patel, R.K.

Journal: Journal of Molecular Liquids

Year: 2020