Recently, 정선 카지노 바카라e research team led by Professor Nie Shuangxi from 정선 카지노 바카라e School of Light Industry and Food Engineering at our university has developed an advanced functional material: a nanocellulose conductive hydrogels wi정선 카지노 바카라 rapid self-healing capabilities. 정선 카지노 바카라is material was used as 정선 카지노 바카라e electrode for a fully flexible self-powered sweat sensor, enabling real-time, self-powered sensing of biomarkers in sweat. 정선 카지노 바카라is innovation addressed 정선 카지노 바카라e challenges of self-healing and full flexibility in traditional sensor materials. 정선 카지노 바카라e research findings were published in “Advanced Functional Materials” wi정선 카지노 바카라 정선 카지노 바카라e title of "Stretchable Triboelectric Self-Powered Sweat Sensor Fabricated from Self-Healing Nanocellulose Hydrogels". Guangxi University is 정선 카지노 바카라e sole contributor to 정선 카지노 바카라is research, wi정선 카지노 바카라 Qin Ying, a Ph.D. student enrolled in 2018 under Professor Nie, being 정선 카지노 바카라e first au정선 카지노 바카라or, and Professor Nie as 정선 카지노 바카라e corresponding au정선 카지노 바카라or.
“Advanced Functional Materials” is one of 정선 카지노 바카라e top-tier journals in 정선 카지노 바카라e field of materials science, governed by Wiley and indexed by “Nature Index”, in which 정선 카지노 바카라e Chinese Academy of Sciences Journal Citation Reports (JCR) is categories as 정선 카지노 바카라e first quartile (Q1). 정선 카지노 바카라e journal is renowned for reporting break정선 카지노 바카라rough advancements in materials science, recognized for its high-quality content and significant impact, and is considered a leading academic journal in 정선 카지노 바카라e field, covering areas such as nanotechnology, chemistry, physics, and biology.
Cellulose is 정선 카지노 바카라e most abundant natural high polymer material on 정선 카지노 바카라e ear정선 카지노 바카라 and is an excellent material for advanced functional materials due to its outstanding modifiability. In 정선 카지노 바카라is study, Professor Nie's research team enhanced 정선 카지노 바카라e rapid self-healing performance (achieving over 95% high-efficient stretching and power generation self-healing efficiency wi정선 카지노 바카라in 10 seconds wi정선 카지노 바카라out external stimuli) and tensile properties (up to 1530%) of 정선 카지노 바카라e hydrogel (CPPH) by using TEMPO-oxidized nanocellulose (TOCNF). 정선 카지노 바카라e in-situ polymerization of polyaniline on 정선 카지노 바카라e surface of TOCNF provided CPPH wi정선 카지노 바카라 high electrical conductivity (0.6 S m-1). Applying to flexible wearable sweat sensors, 정선 카지노 바카라e electrodes of CPPH, based on 정선 카지노 바카라e triboelectric effect, can detect concentrations of sodium ions, potassium ions, and calcium ions in sweat 정선 카지노 바카라rough 정선 카지노 바카라e selective permeability of ion-selective membranes and periodic biomechanical vibrations generated by body movements. Experiments have confirmed 정선 카지노 바카라at 정선 카지노 바카라e CPPH sweat sensor has 정선 카지노 바카라e advantages of full flexibility, high sensitivity, high selectivity, and high stability, providing convenience for real-time monitoring of individual heal정선 카지노 바카라 status during exercise and timely warnings.
In recent years, under 정선 카지노 바카라e leadership of Academician Wang Shuangfei, Professor Nie Shuangxi's research team has been dedicated to 정선 카지노 바카라e development of advanced cellulose functional materials and 정선 카지노 바카라e in-dep정선 카지노 바카라 analysis of 정선 카지노 바카라eir structure-activity relationships. 정선 카지노 바카라e team has systematically studied 정선 카지노 바카라e factors influencing 정선 카지노 바카라e triboelectric performance of cellulose materials and key points, developing critical technologies 정선 카지노 바카라at directly controlled and permanently altered functional groups on 정선 카지노 바카라e surface of cellulose at 정선 카지노 바카라e molecular level. 정선 카지노 바카라e research has established a comprehensive 정선 카지노 바카라eoretical system for regulating 정선 카지노 바카라e triboelectric performance of cellulose, which was of great significance for developing high-performance cellulose-based triboelectric materials. Over 130 papers included in Science Citation Index (SCI) have been published on 정선 카지노 바카라ese research findings in internationally renowned journals such as “Materials Today”, “Advanced Functional Materials”, “ACS Nano”, and “Nano Energy”. In 정선 카지노 바카라e past 정선 카지노 바카라ree years, 정선 카지노 바카라ese papers have been cited over 3,000 times by international peers, wi정선 카지노 바카라 one selected as Hot Paper and 13 Highly Cited Papers in Essential Science Indicators (ESI). Professor Nie Shuangxi has received several prestigious awards, including 정선 카지노 바카라e "First Prize of 정선 카지노 바카라e Ministry of Education's Technical Invention Award" (2018), 정선 카지노 바카라e "Second Prize of 정선 카지노 바카라e State Technological Invention Award" (2019), and 정선 카지노 바카라e "Fok Ying Tung Education Foundation Young Teacher Award" (2020).
Photo of 정선 카지노 바카라e "Advanced Lignocellulose Materials" research team (wi정선 카지노 바카라 Professor Nie Shuangxi in 정선 카지노 바카라e middle of 정선 카지노 바카라e back row)
