Assoc Prof Dr. Juanjuan Wang | Innovative Leadership | Best Researcher Award

Xi’an University of Technology, China

Author Profile

Scopus 

Early Academic Pursuits

Juan-juan Wang’s journey in the realm of materials science began with a solid foundation in applied chemistry, earning a Bachelor of Science degree from Shaanxi University of Science and Technology in 1997. This initial academic grounding provided Wang with a comprehensive understanding of chemical principles, which would later serve as a critical underpinning for advanced material research. Following this, Wang pursued a Master of Science in Materials Physics and Chemistry at Northwestern Polytechnical University, completing the program in 2001. This stage marked a significant deepening of expertise, blending physics and chemistry to explore the fundamental properties and behaviors of materials. The culmination of Wang’s early academic endeavors was the pursuit of a PhD in Materials Science and Engineering at Xi’an University of Technology, awarded in 2010. This advanced training refined Wang’s research skills and established a clear direction toward ceramic composites and piezoelectric materials, areas that would define the rest of the career.

Professional Endeavors and Growth

Since May 2006, Juan-juan Wang has held the position of Associate Professor at the School of Materials Science and Engineering at Xi’an University of Technology, a role that highlights his commitment to both education and research. This period reflects over a decade and a half of dedicated academic work, mentoring students, and developing innovative materials. Wang’s professional growth was further enriched by an international postdoctoral training stint at the Materials Research Institute of Pennsylvania State University, from 2014 to 2016. This experience in the United States exposed him to cutting-edge research methodologies and broadened his collaborative network, providing opportunities to engage with a global community of materials scientists. The exposure to diverse research environments enabled Wang to integrate advanced techniques and new perspectives into his work, fostering innovation and cross-cultural academic exchange.

Contributions and Research Focus

Juan-juan Wang’s research contributions primarily revolve around advanced ceramic-based composites, a field crucial for technological advancement in materials science. His work delves deeply into materials processing, microstructure development, and the phase characterization of ceramics, seeking to optimize properties for various applications. This area of research has broad implications, ranging from industrial manufacturing to electronics. Wang’s pioneering focus on piezoelectric-damp and giant dielectric materials marks a significant niche in materials engineering. Particularly, his investigations into ceramic-polymer piezoelectric-damp composites and lead-free giant dielectric ceramics are aligned with the global push towards environmentally friendly, high-performance materials. These materials are essential for modern electronics, sensors, and energy applications, and Wang’s work contributes to both fundamental science and practical innovations. Through his bilingual teaching of Advanced Composites and Nanomaterials, alongside Non-Destructive Testing Technology, Wang integrates cutting-edge research with education, preparing the next generation of scientists and engineers.

Accolades and Recognition

While specific awards and honors are not detailed, Wang’s academic appointments and international postdoctoral experience at a prestigious institution such as Pennsylvania State University serve as implicit recognition of his expertise and contributions. Holding an associate professorship at Xi’an University of Technology since 2006 underscores sustained excellence in teaching and research. Such longevity and international engagement typically accompany various forms of institutional acknowledgment, invitations to conferences, research funding, and publication records that collectively enhance Wang’s standing in the scientific community.

Impact and Influence

The impact of Juan-juan Wang’s work can be seen both locally and globally. His contributions to advanced ceramics and piezoelectric materials influence multiple industries, from electronics to environmental technology. By focusing on lead-free dielectric ceramics, Wang addresses critical environmental concerns, pushing materials science toward sustainability. Moreover, his role as an educator ensures that his knowledge and insights propagate through his students, many of whom are likely to become researchers and innovators themselves. The bilingual nature of his teaching reflects a dedication to accessibility and international collaboration, positioning Xi’an University of Technology as a hub for global materials science education.

Legacy and Future Contributions Highlight

Looking ahead, Juan-juan Wang’s legacy is poised to grow through continued innovation in ceramic composites and dielectric materials. His dedication to developing environmentally friendly, high-performance materials aligns perfectly with current global priorities in sustainability and technology. As materials science evolves with the integration of nanotechnology and new fabrication methods, Wang’s foundational work and ongoing research place him at the forefront of these advancements. His bilingual teaching and international research experience suggest that Wang will continue fostering cross-border collaborations and nurturing talents prepared to tackle future scientific challenges. His contributions will likely resonate in both academic literature and practical applications, ensuring a lasting influence on the materials science community.

Notable Publications

Sodium Tantalate doping-induced phase structure Regulation and electrical property enhancement in lead-free (Bi0.5Na0.5)₀.₉₄Ba₀.₀₆TiO₃ ceramic

Authors: J. Wang, Juanjuan; P. Ma, Pengkang; Q. Chai, Qizhen; X.L. Chao, Xiaoliang Lian; T. Yang, Tianyi

Journal: Current Applied Physics
Year: 2025

Energy storage properties in multiple ions co-doped Bi0.5Na0.5TiO3-SrTiO3 based ferroelectric ceramics via heterogeneous strategy coordination

Authors: J. Wang, Juanjuan; F. Lai, Fusheng; P. Ma, Pengkang; Z. Peng, Zhanhui; X.L. Chao, Xiaoliang Lian
Journal: Ceramics International
Year: 2025

Enhanced triboelectric capabilities of NaYW₂O₈/P(VDF-TrFE) composite films for human motion monitoring

Authors: B. Xie, Bochao; J. Wang, Juanjuan; Y. Ma, Yingying; Y. Jia, Yutong; J. Wang, Jiale
Journal: Ceramics International
Year: 2024

Dr. Zhaofeng Hou | Innovative Leadership | Best Researcher Award

yangzhou university, China

Author Profile

Scopus 

Early Academic Pursuits

Zhaofeng Hou’s academic journey is deeply rooted in the rigorous and complex field of molecular parasitology, with a special focus on Toxoplasma gondii, a protozoan parasite of major medical and veterinary importance. Early in his scholarly path, Dr. Hou was captivated by the intricate biological interactions between parasites and their hosts. This foundational interest led him to explore immune-pathogenic mechanisms, particularly within the Chinese Type I T. gondii strains. His educational experiences laid the groundwork for advanced investigation into host-pathogen interactions, setting the stage for a future defined by high-impact research and molecular innovation.

Professional Endeavors

Currently serving as an Associate Professor at Yangzhou University, Dr. Hou has consistently expanded the frontiers of research in parasitology and zoonotic diseases. His professional milestones include the successful leadership of six major scientific research projects, encompassing national, provincial, and institutional funding bodies. These include competitive grants from the National Natural Science Foundation of China, the Natural Science Foundation of Jiangsu Province, the China Postdoctoral Science Foundation, and several key laboratory open projects in zoonosis and infectious disease control. Each of these endeavors reflects his commitment to both scientific advancement and public health relevance.

Through his role, Dr. Hou not only supervises graduate-level research but also serves as a mentor for young scholars and medical researchers, fostering a new generation of scientists skilled in immunological and molecular techniques. His teaching methodology blends theoretical knowledge with applied research, nurturing a holistic understanding of disease mechanisms in his students.

Contributions and Research Focus

Dr. Hou’s work is distinguished by its precise focus on the molecular and immune mechanisms underlying Toxoplasma gondii infection. His cutting-edge studies delve into how this parasite manipulates host immunity and metabolism, particularly through the regulation of macrophage glycolytic feedback loops. Furthermore, his research extends to the intriguing overlap between toxoplasmic encephalitis and neurodegenerative disorders, aiming to uncover shared pathological mechanisms and design immune-metabolic interventions that can serve both domains.

Noteworthy contributions include the identification of key host microRNAs (miRNAs) that regulate immune response and damage during infection, transcriptomic profiling of macrophages in response to different T. gondii strains, and the characterization of strain-dependent activation of critical pathways such as the Hippo signaling cascade—leading to lung damage and apoptosis. He also conducted phosphoproteomic profiling in infected macrophages, identifying alterations involving A-Raf-related proteins, which may serve as biomarkers or therapeutic targets.

Accolades and Recognition

Dr. Hou’s work has garnered wide scholarly recognition. His publication record includes 35 peer-reviewed journal articles, many indexed in SCI and Scopus, reflecting his active engagement with the global research community. Additionally, he has contributed a textbook with an ISBN (978-7-5576-8031-2), further establishing his academic authorship. His involvement in multiple editorial boards and collaborative research across institutions highlights his growing influence as a thought leader in infectious disease research.

Furthermore, Dr. Hou’s projects have been recognized for their epidemiological significance, particularly in identifying virulent genotypes of T. gondii in humans, pigs, and cats in Eastern China. His collaborative studies have added to the understanding of zoonotic transmission patterns, which is critical for both animal and public health sectors.

Impact and Influence

Beyond academic circles, Dr. Hou’s research holds practical implications for public health policy and veterinary medicine. His studies contribute directly to infection control strategies, vaccine development, and targeted immune therapies. By uncovering the cellular and molecular intricacies of host-pathogen dynamics, his findings help shape how we understand and respond to zoonotic threats. He has also played a significant role in training students and research professionals, helping bridge the gap between basic science and translational research.

Legacy and Future Contributions

As Dr. Zhaofeng Hou looks toward the future, his legacy is poised to expand through continued cross-disciplinary collaborations, enhanced by international cooperation. His aspiration to decode the shared mechanisms between parasitic infections and chronic neurodegeneration suggests a broader, integrative research vision. By developing novel biomarkers and therapeutic pathways, Dr. Hou aims to advance precision medicine strategies for complex infectious and neurological diseases.

In the coming years, he plans to deepen his research through expanded use of omics technologies, AI-assisted bioinformatics, and clinical modeling, thereby contributing solutions that are both innovative and globally relevant.

Notable Publications