Qingshuang Wang - Diagnosis of Infectious Diseases - Best Researcher Award

Changchun University of Science and Technology - China

AUTHOR PROFILE

SCOPUS

ROOTS AND ACADEMIC FOUNDATION 🌱

Wang Qingshuang hails from Shuangyashan City in Heilongjiang Province. His academic journey began at Harbin Normal University, where he graduated from the Department of Biology in 2002. Driven by a deep curiosity in scientific advancement, he pursued a Ph.D. in Optics from the Changchun University of Science and Technology, completing it in 2015. His educational path blends biological sciences and optical research—an intersection that would later define his unique research pursuits. In 2005, he broadened his academic experience at Peking University School of Medicine, further shaping his research trajectory. Later, as a visiting scholar at the University of British Columbia in 2017, he gained international exposure, which enriched his scientific outlook. These early academic experiences cultivated a strong foundation for his multidisciplinary research career, particularly in molecular biology, nanotechnology, and biomedical optics.

SCIENTIFIC CAREER AND LEADERSHIP 🧪

Currently, Professor Wang Qingshuang serves as Vice Dean, Professor, and Doctoral Supervisor at the School of Life Sciences and Technology, Changchun University of Science and Technology. His academic roles are bolstered by his active participation in national scientific committees and provincial technology initiatives. As a dissertation and project reviewer, he contributes significantly to educational and scientific standards. His leadership extends into professional organizations such as the Jilin Society of Biochemistry and Molecular Biology and the Innovation and Translational Medicine Professional Committee. Professor Wang not only teaches but also mentors young researchers and supervises Ph.D. students, helping cultivate the next generation of scientific minds. His role as an executive and committee member in several scientific societies underlines his influence in shaping policy and research priorities in biochemistry, molecular diagnostics, and applied biotechnology across Jilin Province and beyond.

INNOVATION IN RESEARCH AND BIOMEDICAL TECHNOLOGY 🔬

With over a decade of research in nano-sustained-release and anti-tumor drugs, Professor Wang Qingshuang has made significant strides in biomedical innovation. His work integrates optical science with molecular biology to create effective delivery systems for therapeutic agents. As a principal investigator, he led a basic scientific research project under the State Administration of Science, Technology and Industry for National Defense and contributed to two National Natural Science Foundation projects. His portfolio includes more than ten key R&D projects in Jilin Province, underscoring his leading role in regional biotech innovation. With over 20 SCI-indexed publications and many more in EI and core journals, Professor Wang’s scientific output reflects both depth and practical impact. His unique approach bridges fundamental science with real-world medical applications, exemplifying the translational potential of interdisciplinary research in drug development and diagnostic systems.

COMBATING COVID-19 WITH SCIENCE 🦠

In 2020, amidst the COVID-19 pandemic, Professor Wang Qingshuang emerged as a key scientific contributor in China’s fight against the virus. Leading his team as the technical head, he developed and implemented droplet digital PCR technology for nucleic acid detection of the novel coronavirus. This advanced diagnostic tool significantly improved detection accuracy and efficiency. In a show of solidarity, Professor Wang's team donated these kits to frontline institutions such as West China Hospital of Sichuan University and People's Hospital of Wuhan University. His leadership and quick response not only aided immediate clinical efforts but also reinforced the value of rapid scientific mobilization during global health crises. For these efforts, his research group—the “Jilin Province Cross-Regional Gene Diagnosis Frontier Technology Science and Technology Innovation and Entrepreneurship Team”—received national recognition from the Ministry of Science and Technology for outstanding contributions in epidemic response.

HONORS AND SCHOLARLY RECOGNITION 🏅

Professor Wang Qingshuang’s research excellence has been celebrated with numerous accolades. He is a two-time recipient of the Jilin Province Science and Technology Award, a prestigious honor recognizing innovation and impact in scientific research. His mentorship in undergraduate innovation has also earned him several first and second prizes in the National Undergraduate Life Science Innovation and Entrepreneurship Competition, highlighting his dedication to education and student development. These awards not only affirm his scientific achievements but also showcase his commitment to fostering young talent in the life sciences. Moreover, his esteemed roles as a reviewer for national academic dissertations and technological projects reflect the scholarly community’s trust in his expertise. These cumulative recognitions illustrate a career defined by both intellectual rigor and influential guidance across the fields of life sciences, diagnostics, and medical biotechnology.

SCIENTIFIC IMPACT AND PUBLIC SERVICE 🌍

Beyond academic circles, Professor Wang Qingshuang’s work has had a measurable impact on public health and scientific policy. His COVID-19 diagnostic innovations directly contributed to safer and more accurate detection methods during a time of urgent global need. As a public contributor, he aligns scientific advancement with societal benefit, often integrating his research with regional health initiatives and policy-making through his role in the Jilin Health Management Society. His position at the interface of research, clinical application, and public welfare allows him to influence how science serves humanity. His vision combines high-level scientific rigor with real-world applications, improving not only patient outcomes but also strengthening regional research infrastructure. Through these actions, Professor Wang embodies the role of a scientist as both a discoverer and a servant of the public good.

LEGACY AND FUTURE ASPIRATIONS 🚀

Looking forward, Professor Wang Qingshuang aims to expand the frontiers of biomedical diagnostics and nano-drug delivery systems. His legacy is being etched not only in academic literature but also in the generation of scientists he mentors and the technological platforms he pioneers. As he continues to collaborate with national and international institutions, his research is expected to reach broader clinical applications and influence global healthcare innovation. He envisions building interdisciplinary laboratories that integrate optics, nanotechnology, and molecular medicine, paving the way for precision diagnostics and therapies. His commitment to translational science ensures that future endeavors will continue to bridge the gap between research labs and hospital wards. With an unrelenting passion for inquiry and innovation, Professor Wang is poised to leave a lasting mark on biomedical science and public health advancement.

NOTABLE PUBLICATION

Title: Fe₂VO₄@N−C cathode for high performance aqueous zinc and ammonium-ion batteries
Authors: Yinqiang Hu, Li Lin, Zhenyu Hu, Qingshuang Wang, Chunpeng Yang
Journal: Not specified (journal name not shown in the provided text)

Title: An electrochemical biosensor based on a novel nucleic acid isothermal amplification method for detecting pathogenic bacteria
Authors: Chuanna Xu, Shengjun Bu, Boyuan Jian, Qingshuang Wang, Jiayu Wan
Journal: Microchemical Journal, 2025

Title: High capacity and efficient dehydrogenation of aluminum hydride: Optimized by highly active TiN nanoparticles with low addition
Authors: Shaolei Zhao, Qingyun Shi, Long Liang, Limin Wang, Yong Cheng
Journal: Nano Research, 2025

Title: Thermosensitive Hydrogel Loaded with α-Mangostin for Enhanced Antitumor Effect of Doxorubicin
Authors: Tianhui Liu, Qingshuang Wang, Wenxin Geng, Zhe Zhang, Xiangru Feng
Journal: ACS Biomaterials Science and Engineering, 2025

Title: Nano-Based Strategies Aiming at Tumor Microenvironment for Improved Cancer Therapy
Authors: Tianhui Liu, Changshun Lu, Xue Jiang, Xiangru Feng, Qingshuang Wang
Journal: Not specified (journal name not shown in the provided text)

🌱 EARLY ACADEMIC PURSUITS

Chenyu Zhu began her academic journey with a focused curiosity in the intricate relationship between environmental science and human health. As a master’s candidate at Jinan University, she chose to specialize in Environment and Health, an area demanding interdisciplinary knowledge and scientific rigor. Her academic path was marked by early excellence, culminating in her recognition at the International Graduate Forum on Environmental Toxicology, where she earned First Place in 2023. This achievement highlighted not just her scholarly promise, but also her dedication to exploring the toxicological mechanisms behind pollutants and their impact on public health. This early phase of academic life laid a strong foundation for her future contributions in the field, combining both theoretical insight and practical research. Supported by a robust academic environment and consistent mentorship, she swiftly developed a unique research identity that bridged environmental toxicology with molecular biology.

🔬 RESEARCH FOCUS AND INNOVATION

Zhu’s primary research area centers on RNA epigenetic modifications in the context of environmental pollution-induced diseases. Her groundbreaking work investigates the mechanisms of cellular senescence triggered by toxic pollutants, particularly focusing on RNA methylation types such as m6A and m7G. Her involvement in three major Guangdong Natural Science Foundation projects speaks to her active role in uncovering how molecules like TRMT61B and METTL14 influence mitochondrial and cellular function under environmental stressors. These research initiatives have deepened our understanding of molecular aging and the role pollutants play in accelerating degenerative diseases. Her innovations go beyond lab work—they offer critical insights that may inform therapeutic strategies for mitigating public health risks associated with environmental contaminants. Her ability to decode complex biological interactions places her at the frontier of environmental health sciences and positions her research as vital for pollution-related disease prevention and early intervention.

📚 SCHOLARLY CONTRIBUTIONS

Despite being early in her academic career, Zhu has already published five peer-reviewed SCI-indexed papers that address key biological and toxicological questions. Her publications span reputable journals, including Scientific Reports, Food Science & Nutrition, and Biochimica et Biophysica Acta Reviews on Cancer. These papers explore pivotal topics like RNA methylation’s role in chronic obstructive pulmonary disease, premature cellular senescence, cancer, and even liver diseases linked to PFAS exposure. Each article contributes unique molecular insights and collectively, they shape a more nuanced understanding of the cellular response to environmental stress. Through these studies, Zhu has established herself as a credible and impactful voice in environmental toxicology. Her work not only adds to academic literature but also offers potential pathways for diagnostics and targeted interventions in environmental health. The breadth and depth of her research speak volumes about her dedication to contributing meaningfully to her field.

🏆 ACCOLADES AND RECOGNITION

Recognition for Zhu’s contributions has been swift and well-deserved. Her award-winning presentation at the International Graduate Forum on Environmental Toxicology in 2023 was a testament to her ability to communicate complex scientific ideas with clarity and impact. This distinction, combined with her inclusion in the prestigious Wiley China Excellent Author Program, underscores her rising influence in the research community. These accolades are more than ceremonial; they validate the originality and relevance of her work. They also provide her with platforms to reach broader audiences and network with experts worldwide. Such honors are particularly significant for early-career scientists, offering both encouragement and credibility. Zhu’s ability to translate molecular science into practical insights for environmental health makes her an exemplary young researcher. Her recognitions are not just markers of past achievements—they are milestones pointing toward a promising scientific future.

🧠 PROFESSIONAL DEVELOPMENT

Zhu’s career growth has been guided by hands-on research involvement and consistent academic mentorship. Her participation in multiple Guangdong Natural Science Foundation projects reflects an early integration into high-level scientific inquiry. This experience has enabled her to refine experimental methodologies, analyze complex biological systems, and develop interdisciplinary perspectives. Moreover, her role as a member of the Chinese Society of Toxicology signifies her commitment to staying connected with professional networks and emerging scientific conversations. Though still in the early phase of her career, she exemplifies professional maturity, demonstrated through her contributions to collaborative projects and her proactive engagement with scientific communities. Her trajectory is not just about individual achievement—it reflects an earnest commitment to leveraging science in service of public health and environmental safety. With each research milestone, she moves closer to becoming a leading expert in environmental toxicology and RNA-based disease mechanisms.

🌍 IMPACT AND INFLUENCE

Chenyu Zhu’s work carries both scientific and societal relevance. By focusing on the molecular underpinnings of pollution-related diseases, she directly addresses one of the world’s most urgent public health challenges. Her studies reveal how environmental toxins contribute to aging and disease through RNA modifications, which could revolutionize how we understand environmental risk at the cellular level. This intersectional work has the potential to shape policy, inform risk assessments, and guide the development of new treatments. As environmental health continues to gain global importance, Zhu’s research offers a much-needed bridge between molecular science and actionable solutions. Her findings contribute to early detection strategies and potential biomarker development, making her impact both forward-looking and practical. Through her scholarly dedication, she is helping to build a safer, more scientifically informed world—one cellular mechanism at a time.

🚀 LEGACY AND FUTURE DIRECTIONS

Looking ahead, Zhu Chenyu is poised to make enduring contributions to environmental toxicology and public health. Her strong foundation in RNA epigenetics positions her to expand into developing diagnostic tools and interventions that can detect or reverse pollution-induced cellular damage. Future research may delve deeper into gene-environment interactions, aging-related diseases, or the long-term effects of emerging contaminants. She envisions using her scientific skills not just for academic acclaim, but to advocate for cleaner environments and healthier populations. With her clear sense of purpose and proven research capability, Zhu stands ready to shape the next generation of environmental health innovations. Her legacy will likely be defined by how she uses cutting-edge science to tackle real-world problems. By combining curiosity, expertise, and compassion, she is not only shaping her own career but also contributing to a global shift toward evidence-based environmental protection.