近年来，环境高响应传感材料因其高灵敏度、高选择性的分析特性和无需仪器辅助的便携式应用而备受瞩目。同时，随着可持续发展理念的深入，探索和开发可替代石油基产品的生物聚合物多功能材料，吸引了研究者的广泛关注。作为地球上最丰富、应用最广泛的原材料之一，纤维素 ...

The Cellulose Chemistry research group, lead by Dr. Alistair King, concerns the development of techniques for tuning the reactivity of bulk cellulose and at the surface, with applications in textiles, ...

Meanwhile, Kenji Tajima, at Hokkaido University’s Biomolecular Chemistry Lab, has been manipulating microbes to produce cellulose nanofibres. These ultrafine threads can be weaved into strong ...

More information: Ivan Schlembach et al, Nonengineered Fungus Provides a Shortcut from Cellulose to Bulk Erythro-isocitric ...

Recent research into bacterial cellulose patches may speed plants' recovery, improve grafting and help with preservation.