Associate Professor, Nanjing Tech University, China
Dr. Jin Luo (b. February 6, 1983) is an accomplished Associate Professor and Deputy Department Head of the Composite Materials Department at Nanjing Tech University. He earned his B.Sc. in Material Chemistry from Wuhan University of Technology (2002–2006), an M.Sc. in Material Science and Technology from Zhejiang University (2006–2009), and a Ph.D. from the University of Kentucky in Material Science and Technology (2010–2014). Following a postdoctoral appointment at Tsinghua University (2015–2018), he joined Nanjing Tech University in October 2018. Dr. Luo is also a recognized Master’s supervisor. With over 30 peer‑reviewed articles in leading journals and multiple national research grants, he is a respected figure in ferroelectric and piezoelectric thin‑film research.
Professional Profile
ORCID Profile
Education
Dr. Luo’s academic journey began at Wuhan University of Technology, where he completed his B.Sc. in Material Chemistry (2002–2006). He pursued a deeper specialization in materials by earning a Master’s degree in Material Science and Technology from Zhejiang University (2006–2009). His passion for advanced functional materials led him overseas to the University of Kentucky (USA), where he completed his Ph.D. in Material Science and Technology (2010–2014). His doctoral work equipped him with extensive experimental and analytical expertise in ferroelectric and piezoelectric ceramics and thin films. This strong foundation, spanning fundamental chemistry to cutting‑edge material engineering, underpins his current research and academic accomplishments.
Experience
Dr. Luo served as a postdoctoral researcher at Tsinghua University from August 2015 to April 2018, investigating domain structure and piezoelectric properties of ferroelectric ceramic thin films. In October 2018, he joined Nanjing Tech University as an Associate Professor and now Deputy Department Head in the Composite Materials Department. He developed and teaches graduate-level courses such as “Modern Testing Methods for Materials” and “Professional Writing for Materials Science.” As a Master’s supervisor, he mentors students in materials science research. Dr. Luo has successfully led several research initiatives, including National Natural Science Foundation of China grants, Nanjing Overseas Scholars Science & Technology Innovation Program awards, and collaborative funding from Tsinghua’s State Key Lab. His administrative role, teaching contributions, and leadership in national-level projects highlight his multifaceted academic career.
Research Focus
Dr. Jin Luo specializes in the design, synthesis, and characterization of ferroelectric ceramic thin films, with emphasis on piezoelectric and energy-storage applications. His research addresses key challenges in lead-free piezoelectric materials, such as domain engineering, strain modulation, and dielectric performance optimization. Employing advanced deposition (e.g., sol‑gel, spin‑coating, epitaxy) and testing techniques, he investigates intrinsic and extrinsic piezoelectric contributions, thermotropic phase behavior, and relaxor ferroelectric structures. His objective is to develop high-performance, environmentally friendly materials (e.g., (K,Na)NbO₃, Bi₀.₅Na₀.₅TiO₃, SrBiTiO₃ systems) for practical energy-harvesting, actuator, and capacitor devices. His work bridges fundamental materials science and applied functional thin films, with over 30 high-impact publications showcasing innovations in piezoelectric response enhancement and energy density improvements.
Publication Top Notes
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“A slush-like polar structure for high energy storage performance in a Sr₀.₇Bi₀.₂TiO₃ lead‑free relaxor ferroelectric thin film,” Journal of Materials Chemistry A (2022).
DOI: 10.1039/d1ta10524h
Summary: Introduces a novel “slush-like” polar domain arrangement in SBT thin films, yielding enhanced dielectric breakdown strength and recoverable energy density—paving the way for high-efficient, lead-free film capacitors.
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“Orientation dependent intrinsic and extrinsic contributions to the piezoelectric response in lead‑free (Na₀.₅K₀.₅)NbO₃ based films,” Journal of Alloys and Compounds (June 2022).
DOI: 10.1016/j.jallcom.2022.164346
Summary: Systematically disentangles orientation-dependent piezoelectric effects in KNN films, quantifying crystal orientation’s role in intrinsic vs extrinsic contributions, informing design of superior lead-free piezoelectrics.
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“Optimized energy-storage performance in Mn‑doped Na₀.₅Bi₀.₅TiO₃–Sr₀.₇Bi₀.₂TiO₃ lead‑free dielectric thin films,” Applied Surface Science (Jan 2022).
DOI: 10.1016/j.apsusc.2021.151274
Summary: Demonstrates Mn‑doping in BNT‑SBT films enhances dielectric breakdown strength and energy density, proposing an optimized composition for practical eco-friendly film capacitors.
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“Enhancement of piezoelectricity in spin‑coated Bi₁/₂Na₁/₂TiO₃–BaTiO₃ epitaxial films by strain engineering,” Journal of Materials Chemistry C (2021).
DOI: 10.1039/d1tc03917b
Summary: Utilizes strain engineering in BNT–BT epitaxial films to boost piezoelectric properties, revealing the mechanistic link between strain and domain structure—informing thin-film actuator development.
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“Ferroelectric Domain Structures in Monoclinic (K₀.₅Na₀.₅)NbO₃ Epitaxial Thin Films,” physica status solidi (RRL) (June 2021).
DOI: 10.1002/pssr.202100127
Summary: Characterizes unique monoclinic ferroelectric domain configurations in KNN films, correlating structural features to enhanced functional responses under electric fields.
Conclusion
Dr. Jin Luo is highly suitable for the Best Researcher Award, particularly in the field of materials science with specialization in ferroelectric and piezoelectric thin films. His contributions are technically advanced, academically consistent, and nationally recognized through competitive research funding. With added visibility in international collaborations and recognition, he could further cement his status as a leading researcher in his domain.