ORICD Profile
🎓 Early Academic Pursuits
Dr. Naikun Shen’s academic journey began with a deep curiosity about the microbial world and its hidden potential. He pursued his doctoral degree in microbiology, laying a strong foundation in microbial ecology and biochemical processes. During his early academic years, he demonstrated a keen interest in sustainable biotechnologies, particularly the use of microorganisms in environmental remediation and resource recovery. His scientific acumen and commitment to eco-innovation were evident even in his formative years, setting the stage for a lifelong pursuit of environmentally friendly research solutions.
👨🔬 Professional Endeavors
Dr. Shen currently serves as a Professor and Department Head at Guangxi Minzu University, where he is also a respected master’s supervisor. Over the years, he has developed a specialized niche in the development and utilization of microbial resources, spearheading research programs that convert waste into valuable bio-products. His professional career is marked by strategic leadership and scientific rigor. With over seven major provincial and ministerial-level projects under his leadership, Dr. Shen has successfully translated research from the lab into real-world applications. In addition, he has contributed to two consultancy and industry collaborations, demonstrating the real-world viability of his innovations. His work often bridges academia and applied science, especially in green chemistry and bio-conversion technologies.
🧪 Contributions and Research Focus
Dr. Shen’s research is centered on the biodegradation of waste resources, particularly shrimp and crab shells and feathers. By constructing unique microbial communities and leveraging enzyme-based methods, his team efficiently breaks down these wastes into amino acids, lactate calcium, and chitin—critical inputs for various industrial and agricultural applications. What sets his work apart is the completely environmentally friendly approach: the degradation process relies solely on microbial strains or enzymes, without producing secondary pollution. This has positioned his work as a model for sustainable waste valorization in the context of circular economy and green manufacturing. Moreover, Dr. Shen’s research on transforming chitin into chitin oligosaccharides and shell oligosaccharides has opened new avenues in biomedicine, agriculture, and environmental protection. His commitment to practical, clean, and scalable solutions has helped push the boundaries of microbial resource utilization.
🏆 Accolades and Recognition
Dr. Shen’s exceptional contributions have not gone unnoticed. He is a recipient of the Second Prize of the Guangxi Science and Technology Progress Award (4/9)—a prestigious recognition that reflects the regional and national significance of his work. In addition to accolades, Dr. Shen holds 12 published or in-process Chinese patents, demonstrating the novelty and commercial potential of his innovations. His publication record includes over 100 academic papers, of which 28 are indexed in SCI journals, underscoring both the depth and global reach of his research.
🌏 Impact and Influence
Dr. Shen’s work has made a profound impact on multiple fronts:
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Environmental sustainability: His research contributes significantly to waste reduction and resource recovery.
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Green chemistry: His microbial methodologies serve as models for low-impact industrial processes.
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Academic advancement: His research outputs and mentorship continue to nurture the next generation of scientists.
While he does not currently hold formal editorial or collaborative positions, his published work has influenced the scientific community through high citation value and practical utility.
🌱 Legacy and Future Contributions
Dr. Naikun Shen’s legacy lies in his pioneering approach to microbial biotechnology for environmental applications. As the global scientific community turns increasingly toward sustainable solutions, his work will remain relevant and impactful. Looking ahead, Dr. Shen aims to expand his research into biomedical applications of chitin derivatives, enhance industry-university partnerships, and contribute further to policy-oriented innovations in green technology. His vision includes developing globally scalable microbial systems for biodegradable waste management, thus helping nations meet climate and sustainability goals.
📖Notable Publications
Enhanced chitinase production by Bacillus paralicheniformis GXMU-J23.1: Optimization, genomic insights, and chitin degradation mechanism
Authors: Xie, J.; Zhang, L.; Yang, K.; Zhang, H.; Jiang, M.; Liao, S.; Yang, D.; Shen, N.
Journal: Bioresource Technology
Year: 2025
Halobacillus rhizosphaerae sp. nov., a moderately halophilic bacterium with protease activities isolated from the rhizosphere soil of the mangrove Acanthus ebracteatus
Authors: Yin, D.; Xie, J.; Liu, R.; Song, C.; Liang, Y.; Huang, H.; Huang, Y.; Long, R.; Shen, N.; Yan, B. et al.
Journal: Antonie van Leeuwenhoek, International Journal of General and Molecular Microbiology
Year: 2025
A Comparative Transcriptome Analysis Unveils the Mechanisms of Response in Feather Degradation by Pseudomonas aeruginosa Gxun-7
Authors: Song, C.; Liu, R.; Yin, D.; Xie, C.; Liang, Y.; Yang, D.; Jiang, M.; Zhang, H.; Shen, N.
Journal: Microorganisms
Year: 2024
A new strain of Rhodococcus indonesiensis T22.7.1<sup>T</sup> and its functional potential for deacetylation of chitin and chitooligsaccharides
Authors: Xie, J.; Yin, D.; Ou, J.; Lu, B.; Liao, S.; Yang, D.; Zhang, H.; Shen, N.
Journal: Frontiers in Microbiology
Year: 2024
Antimicrobial mechanisms and antifungal activity of compounds generated by banana rhizosphere Pseudomonas aeruginosa Gxun-2 against fusarium oxysporum f. sp. cubense
Authors: Lu, J.; Huang, Y.; Liu, R.; Liang, Y.; Zhang, H.; Shen, N.; Yang, D.; Jiang, M.
Journal: Frontiers in Microbiology
Year: 2024