Research Excellence Award

Qizhi Diao is a professor affiliated with the Hainan Branch of Shanghai Children’s Medical Center, School of Medicine, Shanghai Jiao Tong University, Sanya, China. His academic work has focused on the synthesis of functional nanomaterials, the construction of advanced clinical diagnostic sensors, and the development of nanocarrier-mediated therapeutic systems for biomedical applications. His research activities have contributed to innovations in biosensing technologies, point-of-care diagnostics, CRISPR/Cas-enabled sensing systems, and nanopharmaceutical delivery platforms.[1] Diao has participated in multiple nationally and provincially funded scientific projects related to cancer diagnostics, SARS-CoV-2 detection technologies, and exosome identification systems within nucleic acid assembly frameworks.[2]

Abstract

The academic contributions of Qizhi Diao are associated with interdisciplinary developments in nanomedicine, biosensor engineering, and clinical laboratory technologies. His research has emphasized the design of graphdiyne-based nanostructures, electrochemical sensing systems, nanozyme-assisted diagnostics, and portable point-of-care biosensing platforms. Through projects supported by the National Natural Science Foundation of China and regional scientific agencies, Diao has contributed to the development of technologies for detecting infectious diseases, circulating tumor cells, and gastric cancer biomarkers.[3] His work integrates materials science, clinical diagnostics, and biomedical engineering into translational research frameworks applicable to modern laboratory medicine.

Keywords

Nanomaterials; Graphdiyne; Clinical Diagnostic Sensors; CRISPR/Cas Technology; Electrochemical Biosensors; Nanopharmaceuticals; Targeted Drug Delivery; Nanozymes; Medical Laboratory Technology; Point-of-Care Diagnostics; Biomedical Engineering; Electrochemical Sensing.

Introduction

Recent advancements in biomedical engineering and nanotechnology have accelerated the development of highly sensitive diagnostic platforms and targeted therapeutic systems. Within this scientific context, Qizhi Diao has conducted research aimed at integrating nanomaterial synthesis with clinical laboratory applications. His work has addressed major challenges in biosensing accuracy, rapid pathogen detection, and nanocarrier-mediated therapeutic delivery systems.[4]

Qizhi Diao’s investigations into graphdiyne-based sensing systems and nanozyme catalytic materials have contributed to the broader understanding of electrochemical diagnostics and biosensor miniaturization. His projects have also focused on CRISPR/Cas-mediated detection systems capable of improving diagnostic sensitivity for infectious diseases and cancer-associated biomarkers.[5]

Research Profile

Qizhi Diao has maintained a long-term academic focus on the fabrication of functional nanomaterials, clinical diagnostic sensors, and nanocarrier-mediated drug delivery systems. His institutional affiliations include the Hainan Branch of Shanghai Children’s Medical Center and Shanghai Jiao Tong University School of Medicine.[1]

His completed and ongoing projects include:

• Research on encoding for the identification of plasma exosome subtypes based on confined recognition and amplification systems within nucleic acid assembly frameworks funded by the National Natural Science Foundation of China.
• Portable sensors for simultaneous detection of multiple gastric cancer biomarkers using CRISPR/Cas technology funded by the Hainan Provincial Health Commission.
• Point-of-care quantitative detection systems for SARS-CoV-2 nucleic acids using graphdiyne sub-nanosheets supported by the Natural Science Foundation Project of Chongqing.
• Novel 3D magnetic nanocomposites based on graphdiyne-MOFs for simultaneous capture and chemotherapy of circulating tumor cells in peripheral blood.
• Development of graphdiyne-based systems for the detection of SARS-CoV-2 antigen biomarkers under emergency biomedical research initiatives.

His scientific profile additionally includes responsibilities as an ISO 15189 medical laboratory accreditation assessor and research review expert for multiple scientific organizations and governmental institutions in China.[6]

Research Contributions

Among Qizhi Diao’s reported scientific contributions is the synthesis of sub-nanoscale graphdiyne materials for the rapid and quantitative detection of Mycobacterium tuberculosis and drug-resistant genes.[7] This work supported the development of fluorescence sensing systems with improved analytical sensitivity and operational simplicity.

He also contributed to the preparation of core-shell nanozymes such as ZrFe-MOF@PtSn exhibiting strong peroxidase-like catalytic properties for biosensing applications. Additionally, his research integrated miRNA-initiated strand displacement amplification with CRISPR/Cas12a amplification strategies, nanozyme catalysis, and machine-learning-assisted electrochemical sensing systems.[8]

Qizhi Diao has further contributed to patents related to electrochemical immunosensors, medical testing oscillation devices, and laboratory inspection equipment. These developments reflect the translational dimension of his work in clinical laboratory technologies.[9]

Publications

Qizhi Diao has published research in internationally recognized journals focusing on nanotechnology, biomedical sensing, and clinical diagnostic systems. His publications explore graphdiyne-based fluorescent sensing platforms for detecting Mycobacterium tuberculosis and drug-resistant genes, nanoparticle-based drug delivery systems for cardiovascular diseases, and nanozyme-assisted biosensing technologies for rapid pathogen detection. He has also contributed to studies on high-porosity carbon electrocatalysts and amino-functionalized carbon nanodots for biomedical applications. His scholarly work integrates nanomaterials, electrochemical sensing, CRISPR/Cas technologies, and translational laboratory medicine, supporting advancements in point-of-care diagnostics, targeted therapeutics, and innovative clinical biosensor development.

Research Impact

The research activities of Qizhi Diao have contributed to interdisciplinary developments linking nanotechnology, laboratory medicine, and biomedical sensing systems. His work on graphdiyne nanostructures and nanozyme catalytic platforms has been associated with improved biosensor sensitivity and enhanced diagnostic performance in infectious disease detection.[10]

According to the provided academic indicators, his research record includes an h-index of 9 and more than 252 citations indexed through Scopus, in addition to reported Web of Science citations exceeding 300.[11] His collaborative work with organizations such as the Chinese Medical Doctor Association and the Chinese Medical Association has also supported laboratory medicine standardization and diagnostic research initiatives.

Award Suitability

The academic profile of Qizhi Diao demonstrates sustained engagement in translational biomedical research, particularly within nanomaterials, biosensors, and clinical diagnostics. His involvement in nationally funded scientific projects, patented technologies, and peer-reviewed publications indicates an active contribution to applied medical research and laboratory innovation.

His combination of scientific output, technical expertise, research leadership, and participation in accreditation and evaluation activities supports consideration for the Research Excellence Award under the International Phenomenological Research Awards framework.

Conclusion

Qizhi Diao has contributed to the advancement of nanotechnology-enabled diagnostic systems and biomedical sensing platforms through interdisciplinary scientific research. His work combines materials engineering, electrochemical sensing, nanozyme catalysis, and clinical laboratory applications into translational biomedical solutions. Through publications, funded research projects, patents, and scientific service roles, he has established a research profile connected to contemporary developments in medical diagnostics and nanomedicine.

External Links

• ORCID Profile
  
• Scopus Author Profile
  

References

1. International Phenomenological Research Awards. (2026). Award nomination application form: Qizhi Diao. https://phenomenologicalresearch.com/
2. National Natural Science Foundation of China. Research project information related to biomedical sensing and exosome identification systems.
3. Diao Q. Research projects and biomedical sensing technologies associated with clinical diagnostics and nanomaterials research.
4. Shanghai Jiao Tong University School of Medicine. Biomedical nanotechnology and laboratory medicine research activities.
5. CRISPR/Cas biosensing applications in rapid diagnostic systems and molecular detection technologies.
6. China National Accreditation Service for Conformity Assessment (CNAS). ISO 15189 medical laboratory accreditation activities and technical assessment programs.
7. Chang F, Huang L, Guo C, Xie G, Li J, Diao Q. (2019). Graphdiyne-Based One-Step DNA Fluorescent Sensing Platform for the Detection of Mycobacterium tuberculosis and Its Drug-Resistant Genes. ACS Applied Materials & Interfaces. https://pubs.acs.org/doi/abs/10.1021/acsami.9b15248
8. Yang F, Xue J, Wang G, Diao Q. (2022). Nanoparticle-based drug delivery systems for the treatment of cardiovascular diseases. Frontiers in Pharmacology. https://doi.org/10.3389/fphar.2022.999404
9. Chinese patent documentation related to electrochemical immunosensors, laboratory inspection devices, and medical testing technologies.
10. Feng T, Liao W, Li Z, Sun L, Shi D, Guo C, Huang Y, Wang Y, Cheng J, Li Y, Diao Q. (2017). Heavily Graphitic-Nitrogen Self-doped High-porosity Carbon for the Electrocatalysis of Oxygen Reduction Reaction. Nanoscale Research Letters. https://link.springer.com/article/10.1186/s11671-017-2364-6
11. Elsevier. (n.d.). Scopus author details: Qizhi Diao, Author ID 52563308500. Scopus. https://www.scopus.com/authid/detail.uri?authorId=52563308500