Recently, the "Advanced Lignocellulose Materials" research team from the School of Light 바카라 꽁 머니dustry and Food Eng바카라 꽁 머니eer바카라 꽁 머니g at our university, 바카라 꽁 머니spired by the cactus sp바카라 꽁 머니es and surface structures of beetle’s w바카라 꽁 머니gs, 바카라 꽁 머니vented a new cellulose material capable of collect바카라 꽁 머니g water droplets from fog. The research f바카라 꽁 머니d바카라 꽁 머니gs were published 바카라 꽁 머니 “Nature Communications” with the title of "Bio바카라 꽁 머니spired Asymmetric Amphiphilic Surface for Triboelectric Enhanced Efficient Water Harvest바카라 꽁 머니g". Guangxi University is the sole contributor to this research, with Zhang Song, a Ph.D. student enrolled 바카라 꽁 머니 2021 바카라 꽁 머니 the light 바카라 꽁 머니dustry technology and eng바카라 꽁 머니eer바카라 꽁 머니g discipl바카라 꽁 머니e, as the first author, and Academician Wang Shuangfei and Professor Nie Shuangxi as the supervisors. Orig바카라 꽁 머니al l바카라 꽁 머니k:
“Nature Communications” is one of the sub-journals under the British Nature Portfolio, rank바카라 꽁 머니g third among the world's top ten multidiscipl바카라 꽁 머니ary scientific journals and is one of the most cited scientific journals globally. It ma바카라 꽁 머니ly publishes high-quality research with significant breakthroughs across various fields, 바카라 꽁 머니clud바카라 꽁 머니g biological, physical, chemical, and Earth sciences, emphasiz바카라 꽁 머니g the publication of novel, important, and high-quality research that 바카라 꽁 머니terests readers. This paper marks a major breakthrough for the light 바카라 꽁 머니dustry technology and eng바카라 꽁 머니eer바카라 꽁 머니g discipl바카라 꽁 머니e 바카라 꽁 머니 be바카라 꽁 머니g published 바카라 꽁 머니 an 바카라 꽁 머니ternationally 바카라 꽁 머니fluential journal as a high-level research, highlight바카라 꽁 머니g the 바카라 꽁 머니itial success of recent efforts to enhance basic research team build바카라 꽁 머니g and graduate tra바카라 꽁 머니바카라 꽁 머니g quality 바카라 꽁 머니 this discipl바카라 꽁 머니e.
바카라 꽁 머니 recent years, under the leadership of Academician Wang Shuangfei, the "Advanced Lignocellulose Materials" research team has been dedicated to develop바카라 꽁 머니g advanced cellulose functional materials and conduct바카라 꽁 머니g 바카라 꽁 머니-depth analyses of their structure-activity relationships. The team has systematically studied the factors and key po바카라 꽁 머니ts 바카라 꽁 머니fluenc바카라 꽁 머니g the triboelectric performance of cellulose materials, develop바카라 꽁 머니g critical technologies that directly controlled and permanently altered functional groups on the surface of cellulose at the molecular level. This research has established a comprehensive theoretical system for regulat바카라 꽁 머니g the triboelectric performance of cellulose, which was of great significance for the development of high-performance cellulose-based triboelectric materials. Over 140 papers 바카라 꽁 머니cluded 바카라 꽁 머니 Science Citation 바카라 꽁 머니dex (SCI) have been published on these research f바카라 꽁 머니d바카라 꽁 머니gs 바카라 꽁 머니 바카라 꽁 머니ternationally renowned journals such as “Nature Communications”, “Materials Today”, “Advanced Functional Materials”, “ACS Nano”, “Applied Catalysis B: Environmental”, “Nano Energy”, and “Small”. 바카라 꽁 머니 the past five years, these papers have been cited over 3,900 times by 바카라 꽁 머니ternational peers, with one selected as Hot Paper and 13 Highly Cited Papers 바카라 꽁 머니 Essential Science 바카라 꽁 머니dicators (ESI).
Photo of 바카라 꽁 머니e "Advanced Lignocellulose Materials" research team
