Assoc. Prof. Dr. Jun Wang | Nanomaterials Science | Best Researcher Award

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Assoc. Prof. Dr. Jun Wang | Nanomaterials Science | Best Researcher Award

Assoc. Prof. Dr. Jun Wang,Kunming University of Science and Technology, China

Jun Wang is a distinguished researcher in the field of materials science, specializing in fireproof coating materials, nanocomposites, and thermal barrier coating materials. His groundbreaking work has been recognized globally, earning him prestigious accolades such as the Geneva International Gold Medal for Invention and the China Nonferrous Metals Industry Science and Technology Award. Notably, he has contributed significantly to the advancement of thermal barrier coating materials through his publications in renowned journals and his patents in innovative technologies. With a keen focus on pushing the boundaries of material science, Jun Wang continues to make profound contributions to the field, solidifying his position as a leading figure in materials research.

Professional Profile:

Scopus

🏅 Honours:

un Wang is a distinguished researcher, celebrated for his remarkable achievements in the field of materials science and engineering. In 2023, he was honored with the prestigious Geneva International Gold Medal for Invention, a testament to his groundbreaking contributions to innovation. Prior to this, Jun Wang’s expertise was recognized with the China Nonferrous Metals Industry Science and Technology Award in 2017, specifically for his pivotal work on the “Key Technology and Application of Preparation of Refractory Metal Laminated Composites.” His trailblazing spirit continued to shine in 2022 when he emerged as the winner of the China Innovation Challenge and Zhongguancun Emerging Fields Competition, further solidifying his reputation as a leader in his field. Jun Wang’s dedication to pushing the boundaries of scientific discovery was also acknowledged through the receipt of the Invention and Entrepreneurship Award for his significant advancements in ultra-high-temperature thermal barrier coatings and their practical applications. These accolades underscore Jun Wang’s profound impact on the advancement of materials science, inspiring future generations of innovators to follow in his footsteps.

🔬 Research Focus:

Jun Wang’s specialization lies in unraveling the mysteries surrounding the low thermal conductivity of high-entropy rare-earth tantalates and ferroelastic ceramics. His research focuses on conducting multi-scale defect analysis and exploring the microstructural evolution of these advanced materials. By delving into the intricate details of their composition and structure, Jun Wang sheds light on the fundamental mechanisms underlying their thermal properties. Through his expertise, he not only expands our understanding of these innovative materials but also paves the way for the development of novel applications in thermal management and insulation technologies. Jun Wang’s dedication to unraveling these complexities underscores his pivotal role in advancing the field of materials science and engineering

📚Education:

Jun Wang holds the title of Associate Professor and serves as the Head of the Department of Inorganic Non-Metals at Kunming University of Science and Technology. Within this esteemed institution, he leads pioneering research endeavors in the realm of materials science and engineering. Jun Wang’s role extends beyond traditional academic pursuits as he actively engages in mentoring students and guiding them in their academic and research pursuits. Through his leadership and expertise, he fosters an environment of innovation and excellence, driving forward the boundaries of knowledge in his field. Jun Wang’s contributions at Kunming University of Science and Technology exemplify his commitment to academic excellence and his passion for advancing scientific understanding.

Publication Top Notes:

  1. High thermoelectric properties realized in polycrystalline (Ag, Ga) Co-doped SnSe via two-steps point defects modulation
    • Published in the Journal of Materials Research and Technology, 2023.
    • Cited by 3 articles.
  2. High-entropy ferroelastic (10RE0.1)TaO4 ceramics with oxygen vacancies and improved thermophysical properties
    • Published in the Journal of Materials Science and Technology, 2023.
    • Cited by 28 articles.
  3. Research progress in potential high-entropy ceramic thermal barrier coating materials | 潜在高熵陶瓷热障涂层材料的研究进展
    • Published in Cailiao Gongcheng/Journal of Materials Engineering, 2023.
    • Cited by 2 articles.
  4. New class of high-entropy rare-earth niobates with high thermal expansion and oxygen insulation
    • Published in the Journal of the American Ceramic Society, 2023.
    • Cited by 27 articles.
  5. Mechanical Properties of Single Crystal Organic–Inorganic Hybrid Perovskite MAPbX3 (MA = CH3NH3, X = Cl, Br, I)
    • Published in Coatings, 2023.
    • Cited by 1 article.

 

 

 

Synthesis and Self Assembly of Nanomaterials

Posted on by ScienceFather

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Bottom-Up Nanofabrication 🧬:

Dive into the world of bottom-up nanofabrication, where nanomaterials are built atom by atom, allowing for unparalleled control over their properties and applications.

Self-Assembled Nanoparticles 🧩:

Explore the fascinating world of self-assembling nanoparticles, where materials come together autonomously to form intricate structures, mimicking nature’s own processes

Quantum Dots for Advanced Electronics ⚡:

Investigate the synthesis of quantum dots, nanoscale semiconductor particles with unique optical and electronic properties, paving the way for quantum computing and advanced displays.

Drug Delivery Nanocarriers 💊:

Examine the development of nanomaterial-based drug delivery systems, offering targeted and controlled release of therapeutics for precision medicine.

Nanomaterials in Energy Conversion 🌞:

Uncover the role of nanomaterials in improving energy conversion technologies, such as solar cells and energy storage devices, ushering in a sustainable energy era.

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Synthesis and Self Assembly of Nanomaterials

Posted on by ScienceFather

Introduction of  Synthesis and self assembly of nanomaterials

The realm of synthesis and self-assembly of nanomaterials research stands at the forefront of scientific innovation, enabling us to engineer and manipulate materials at the nanoscale. This field holds the key to unlocking a multitude of possibilities across various domains, from electronics to medicine, where precise control over nanomaterial synthesis and self-assembly can yield groundbreaking applications.

Bottom-Up Nanofabrication 🧬:

Dive into the world of bottom-up nanofabrication, where nanomaterials are built atom by atom, allowing for unparalleled control over their properties and applications.

Self-Assembled Nanoparticles 🧩:

Explore the fascinating world of self-assembling nanoparticles, where materials come together autonomously to form intricate structures, mimicking nature's own processes

Quantum Dots for Advanced Electronics ⚡:

Investigate the synthesis of quantum dots, nanoscale semiconductor particles with unique optical and electronic properties, paving the way for quantum computing and advanced displays.

Drug Delivery Nanocarriers 💊:

Examine the development of nanomaterial-based drug delivery systems, offering targeted and controlled release of therapeutics for precision medicine.

Nanomaterials in Energy Conversion 🌞:

Uncover the role of nanomaterials in improving energy conversion technologies, such as solar cells and energy storage devices, ushering in a sustainable energy era.

Synthesis and Self Assembly of Nanomaterials
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Nanoscale characterisation
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Nanophotonics & Nanoelectronics
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Nanobiotechnology
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Nanocomposites
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Nanomaterials for Energy
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Computational Nanotechnology
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Commercialization of Nanotechnology
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Nanotheranostics
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