Miriding Mutailipu | Inorganic Chemistry | Young Scientist Award

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Prof Dr. Miriding Mutailipu | Inorganic Chemistry | Young Scientist Award🏆

Chinese Academy of Sciences, China

Author Profile

Early Academic Pursuits:

Prof. Miriding Mutailipu began his academic journey with a strong foundation in material science and engineering, earning his Bachelor of Science degree from the College of Material Science and Engineering at Hunan University. This provided him with essential knowledge in the field and laid the groundwork for his future research endeavors. He pursued his passion for inorganic functional materials by furthering his studies at the Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Sciences. Here, he completed his Ph.D. in Material Physics and Chemistry under the guidance of Prof. Dr. Shilie Pan. During this time, he delved into the intricate realm of metal borates, setting the stage for his subsequent research focus.

Professional Endeavors:

After completing his Ph.D., Prof. Mutailipu continued his academic journey at the Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Sciences, where he progressed from an Associate Professor to a Full Professor in Material Physics and Chemistry. Throughout his career, he has dedicated himself to advancing the understanding and application of borate chemistry, particularly in the design and synthesis of novel optical functional materials.

Contributions and Research Focus:

His research has centered on the design, synthesis, and characterization of new borates with a keen focus on their optical properties. His investigations into the structural chemistry of metal borates and their potential as nonlinear optical materials have led to significant advancements in the field. His expertise extends to single crystal growth and characterization, allowing for a comprehensive understanding of the correlation between crystal structure and material properties.

Accolades and Recognition:

His contributions to the field of borate chemistry have earned him recognition both nationally and internationally. As evidenced by his extensive publication record in prestigious peer-reviewed journals and the authorization of multiple Chinese invention patents, his work has made a significant impact on the scientific community. He has received funding and support from various prestigious organizations, including the National Key R&D Program of China and the National Natural Science Foundation of China.

Impact and Influence:

His research has not only expanded the fundamental understanding of borate chemistry but also has practical implications in the development of new materials with tailored optical properties. His work has the potential to drive advancements in various fields, including photonics, telecommunications, and optoelectronics.

Legacy and Future Contributions:

His legacy lies in his pioneering research in borate chemistry and his dedication to advancing the field of inorganic functional materials. His work serves as a foundation for future researchers to build upon, offering new avenues for exploration and innovation. Moving forward, he continues to contribute to the scientific community through his ongoing research, mentorship of young scientists, and pursuit of knowledge at the forefront of material science and chemistry.

Citations

A total of  3948 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations           3948
  • h-index              27
  • i10-index           44

Notable Publications 

Achieving the full-wavelength phase-matching for efficient nonlinear optical frequency conversion in C (NH2) 3BF4

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

Hydroxyfluorooxoborate Na [B3O3F2 (OH) 2]⋅[B (OH) 3]: Optimizing the Optical Anisotropy with Heteroanionic Units for Deep Ultraviolet Birefringent Crystals

PbB5O7F3: A High-Performing Short-Wavelength Nonlinear Optical Material

Toward the enhancement of critical performance for deep-ultraviolet frequency-doubling crystals utilizing covalent tetrahedra

Achieving the full-wavelength phase-matching for efficient nonlinear optical frequency conversion in C (NH2) 3BF4

Strong nonlinearity induced by coaxial alignment of polar chain and dense [BO3] units in CaZn2 (BO3) 2

Borates: A Rich Source for Optical Materials

Guanidinium fluorooxoborates as efficient metal-free short-wavelength nonlinear optical crystals

 

Pardeep Kumar Gianchandani | Material Science and Technology | Best Researcher Award

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Assist Prof Dr. Pardeep Kumar Gianchandani | Material Science and Technology | Best Researcher Award

Politecnico di Torino, Italy

Author Profile

Early Academic Pursuits:

Pardeep Kumar Gianchandani embarked on his academic journey with a Bachelor of Engineering in Textile Engineering from Mehran University of Engineering and Technology in Pakistan. He continued his education with a Post-Graduate Diploma and Master of Engineering in Textile Engineering from Politecnico di Torino, Italy. Gianchandani pursued his Ph.D. in Applied Science and Technology from the same institution, focusing on joining ceramics and ceramics matrix composites for aerospace and energy applications.

Professional Endeavors:

His professional career includes roles such as Lab Engineer, Lab Technician, and Assistant Spinning Manager, providing him with diverse experience in the textile industry. He has also served as an Assistant Professor at both Politecnico di Torino in Italy and Mehran University of Engineering and Technology in Pakistan, teaching various subjects in undergraduate and postgraduate programs.

Contributions and Research Focus:

His research interests revolve around material science and technology, particularly in the areas of ceramics, composites, and high-temperature materials. His research projects have addressed advanced manufacturing routes for aerospace components, joining technologies, antibacterial materials for textiles, and innovative cladding materials for energy systems.

Accolades and Recognition:

He has received several awards and grants in recognition of his academic and research achievements. These include research grants, travel grants, and scholarships, highlighting his dedication and excellence in the field. He was also the CEO and founder of "MUETFIT," a startup company focused on smart mobility solutions.

Impact and Influence:

Through his teaching, research, and entrepreneurial endeavors, Gianchandani has made a significant impact in advancing knowledge and innovation in material science and technology. His contributions to academia, industry, and research have helped address critical challenges in various sectors, including aerospace, energy, and textiles.

Legacy and Future Contributions:

His legacy lies in his commitment to excellence in education, research, and innovation. As he continues his academic and professional journey, he aims to further expand his contributions to material science and technology, fostering collaboration and driving positive change in the field.

Citations

A total of  96 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations            96
  • h-index              5
  • i10-index           3

Notable Publications 

Sonication induced effective approach for coloration of compact polyacrylonitrile (PAN) nanofibers

Pressure‐less joining of C/SiC and SiC/SiC by a MoSi2/Si composite

SiC foam sandwich structures obtained by Mo-wrap joining

“Refractory Metal, RM–Wrap”: A tailorable, pressure-less joining technology

Joining of SiC, alumina, and mullite by the Refractory Metal—Wrap pressure‐less process

Coloration of polycaprolactone nanofibers by continuous and semicontinuous methods

Influence of traveler weight on quality and production of cotton spun yarn

Joining of Ceramics and Ceramic Matrix Composites (CMC) for Aerospace and Energy Applications

Sustainable Approaches for the Additive Manufacturing of Ceramic Materials

Investigations of Kinetic Characteristics for Co-combustion of Coal with Waste Tyres through Thermogravimetric Analysis (TGA)