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Prof Dr. Bingbing Gao | Materials Science | Best Researcher Award

Prof Dr. Bingbing Gao, Nanjing Tech University, China

Prof. Dr. Bingbing Gao is a distinguished scholar and researcher in the field of pharmaceutical sciences, currently affiliated with Nanjing Tech University, China. With a keen focus on biomaterials and advanced healthcare technologies, Dr. Gao’s research spans across interdisciplinary domains, aiming to address pressing healthcare challenges. His notable contributions include the development of innovative wound management strategies, such as the groundbreaking kirigami-inspired artificial spidroin microneedles for wound patches. These microneedles boast high mechanical strength, precise patterning abilities, and integrated functionalities like photonic crystal structures and microelectronic circuits, showcasing Dr. Gao’s expertise in biomimetic materials and smart healthcare solutions. Through his dedication to research and collaboration with co-authors like Prof. Dr. Bingfang He, Dr. Gao continues to push the boundaries of biomedical engineering, paving the way for novel advancements in healthcare.

Publication Profile:

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Education and qualifications:

šŸŽ“ Prof. Dr. Bingbing Gao pursued an illustrious academic journey, culminating in a distinguished career in pharmaceutical sciences. He earned his Bachelor’s degree in Life Sciences and Chemistry from Haerbin University, laying the groundwork for his future endeavors. Building upon this foundation, he completed his Master’s degree in Resources and Environmental Sciences at Nanjing Agricultural University, delving deeper into interdisciplinary studies. Driven by a passion for cutting-edge research, Dr. Gao obtained his Ph.D. from Southeast University, specializing in Biological Sciences and Medical Engineering. His diverse educational background equips him with a holistic understanding of biomaterials and healthcare technologies, shaping his innovative contributions to the field.

 

Employment:

šŸ‘Øā€šŸ« Prof. Dr. Bingbing Gao’s career reflects a steadfast commitment to academia and research in pharmaceutical sciences. Since February 2019, he has served as an Associate Professor at Nanjing Tech University’s School of Pharmaceutical Sciences, where he contributes to shaping the next generation of pharmaceutical professionals. Prior to this, Dr. Gao held a post-doctoral position at Southeast University’s School of Biological Science and Medical Engineering from April 2017 to January 2019. Through these roles, he has harnessed his expertise in biomaterials and healthcare technologies, driving forward innovative research initiatives and fostering academic excellence.

 

Research Focus:

šŸ”¬ Prof. Dr. Bingbing Gao’s research focuses on developing innovative biomedical technologies with a multidisciplinary approach. His expertise lies in biomaterials, microfluidics, and wearable biosensors. He pioneers the integration of bioinspired designs, such as kirigami structures and shark tooth-inspired microneedles, into advanced wound management systems. Additionally, Dr. Gao explores the fabrication of functional materials like photonic crystals and piezoelectric nanofibers for applications in sensing and energy harvesting. With a keen interest in 3D printing, microfluidics, and enzyme immobilization techniques, he continually explores novel avenues for improving healthcare diagnostics and treatment. Through his diverse research endeavors, Dr. Gao strives to advance personalized medicine and enhance human health. šŸŒŸ

 

Publication Top Notes:

šŸ“š 3D printing of bioinspired liquid superrepellent structuresĀ – Cited by 176 (2018) šŸ”—
šŸ“šMultiresponsive elastic colloidal crystals for reversible structural color patternsĀ – Cited by 114 (2019) šŸ”—
šŸ“šTunable Structural Color Surfaces with Visually Selfā€Reporting WettabilityĀ – Cited by 110 (2016) šŸ”—
šŸ“š Shark tooth-inspired microneedle dressing for intelligent wound management– Cited by 96 (2021) šŸ”—
šŸ“š Multifunctional wearable sensing devices based on functionalized graphene films for simultaneous monitoring of physiological signals and volatile organic compound biomarkersĀ – Cited by 95 (2018) šŸ”—
šŸ“š Bioinspired kirigami fishā€based highly stretched wearable biosensor for human biochemicalā€“physiological hybrid monitoringĀ – Cited by 82 (2018) šŸ”—
šŸ“š Piezoelectric-driven self-powered patterned electrochromic supercapacitor for human motion energy harvestingĀ – Cited by 81 (2018) šŸ”—
šŸ“š A versatile approach for enzyme immobilization using chemically modified 3D-printed scaffoldsĀ – Cited by 78 (2019) šŸ”—
šŸ“šIntelligent silk fibroin based microneedle dressing (iā€SMD)Ā – Cited by 76 (2021) šŸ”—
šŸ“š Advances of microfluidics in biomedical engineeringĀ – Cited by 74 (2019) šŸ”—
šŸ“šPatterned photonic nitrocellulose for pseudo-paper microfluidicsĀ – Cited by 72 (2016) šŸ”—
šŸ“š Core/shell piezoelectric nanofibers with spatial self-orientated Ī²-phase nanocrystals for real-time micropressure monitoring of cardiovascular wallsĀ – Cited by 69 (2019) šŸ”—
šŸ“š Wearable eye health monitoring sensors based on peacock tail-inspired inverse opal carbonĀ – Cited by 48 (2019) šŸ”—
šŸ“šPatterned photonic nitrocellulose for pseudopaper ELISAĀ – Cited by 47 (2017) šŸ”—
šŸ“š UVā€Triggered Polydopamine Secondary Modification: Fast Deposition and Removal of Metal NanoparticlesĀ – Cited by 46 (2019) šŸ”—
Bingbing Gao | Materials Science | Best Researcher Award

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