Assoc. Prof. Dr. Li Xiaobing | Materials Science | Best Researcher Award
Assoc. Prof. Dr. Li Xiaobing, University of Shanghai for Science and Technology, China.
Dr. Xiaobing LiΒ is an Associate Professor at the University of Shanghai for Science and Technology. With a Ph.D. in Materials Science & Engineering from SICCAS, he specializes in ferroelectric single-crystal growth and piezoelectric transducer design π¬. His work on PMN-PT crystals and 40 MHz miniature ultrasound probes has advanced biomedical imaging π₯π‘. A prolific author in top journals, Dr. Liβs innovations bridge fundamental science and medical applications ππ. His international collaborations include visiting roles at UNSW and Hallym University π.
Profile
π Early Academic Pursuits
Xiaobing Li began his academic journey with a Bachelor’s degree in Physics from Qingdao University (2000β2004), followed by a Masterβs degree (2004β2007) and Ph.D. in Materials Science & Engineering from the prestigious Shanghai Institute of Ceramics, Chinese Academy of Sciences (2007β2010). His formative years laid a strong foundation in crystallography, materials science, and advanced ceramics. π§ͺπ
πΌ Professional Endeavors
Dr. Li currently serves as an Associate Professor at the University of Shanghai for Science and Technology (2019βPresent). He held previous academic roles at the Shanghai Institute of Ceramics as Assistant and Associate Professor (2010β2018), and was an academic visitor to Hallym University, Korea, and University of New South Wales, Australia. His global exposure enhanced his research breadth and collaborative strength. ππ¬
π¬ Contributions and Research Focus On Materials Science
Dr. Xiaobing Li specializes in single crystal growth, particularly PMN-PT ferroelectric crystals using the Bridgman technique. His pioneering work has unraveled growth defect mechanisms, phase transitions, and point defects using advanced methods such as X-ray diffraction, Raman spectroscopy, neutron scattering, and synchrotron radiation. Moreover, he ventured into ultrasound medical imaging, developing miniature 40 MHz ultrasound transducers for soft tissue visualization. π§«π§
π Impact and Influence
Dr. Li’s work bridges materials science and biomedical engineering, contributing to next-gen imaging technologies. His crystals serve as functional components in high-performance sensors and medical devices, reinforcing his impact across disciplines. His collaborations with global institutions demonstrate thought leadership and innovation. π‘π
π§ Research Skills
Dr. Li demonstrates strong expertise in single crystal synthesis, defect analysis, ferroelectric materials, piezoelectric composites, and nanostructure characterization. He is proficient with advanced instrumentation techniques and has contributed to both experimental design and application-based innovations. βοΈπ
π Awards and Honors
While specific awards are not listed, Xiaobing Liβs prestigious academic postings, international collaborations, and invited publications reflect consistent recognition and trust by the global materials science community. His positions at top Chinese and international institutions speak volumes about his academic stature. ποΈπ
ποΈ Legacy and Future Contributions
Dr. Xiaobing Liβs legacy lies in his ability to connect crystal physics with practical biomedical applications. As technology advances, his research on lead-free ferroelectrics and miniaturized imaging transducers will play a crucial role in sustainable and precision healthcare technologies. His mentorship and continued innovation promise a strong future impact. ππ¨βπ«
Publications Top Notes
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Shortβfiber piezocomposite and its bandwidth enhancement for highβfrequency medical ultrasound transducer
π° Journal of Materials Science: Materials in Electronics | π 1 citation | π 2025 -
Advances in electrochemical biosensors for the detection of tumorβderived exosomes (Review, Open Access)
π Review article | π 1 citation | π 2025 -
High Frequency Ultrasound Transducer Based on SmβDoped Pb(Mgβ/βNbβ/β)Oβ-0.28PbTiOβ Ceramic for Intravascular Ultrasound Imaging
π° Ultrasonic Imaging | π 1 citation | π 2024 -
Preparation of 1-3 piezoelectric composites based on PMNT ceramics by soft mold method and research of ultrasound transducer
π° Gongneng Cailiao Journal of Functional Materials | π 2024 -
Ultrasonic Transducer Based on High-Performance Lead-Free (Kβ.β Naβ.β )NbOβ-Based Ceramics
π° Yadian Yu Shengguang Piezoelectrics and Acoustooptics |Β π 2023 -
Deep learning-based classification for benign and malignant breast masses using multimodal ultrasound images
π° Chinese Journal of Medical Physics | π 1 citation | π 2023 -
Fabrication of 1-3 Piezocomposite and High-Frequency Medical Ultrasonic Transducer Via Soft-Mold Process
π° Yadian Yu Shengguang Piezoelectrics and Acoustooptics |Β π 2023 -
High Frequency Ultrasonic Transducer and Scanning Method for Ultrasound Imaging of Skin Cyst
π° Yadian Yu Shengguang Piezoelectrics and Acoustooptics |Β π 2022 -
Fabrication of 1β3 piezoelectric composites via modified soft mold process for 40 MHz ultrasonic medical transducers
π° Ceramics International | π 9 citations | π 2022 -
Investigation of the dielectric relaxation mechanisms for Pb(Feβ/βNbβ/β)Oβ single crystal based on the universal relaxation law
π° Physica B: Condensed Matter | π 1 citation | π 2022