机译:贻贝式基于生物的耐水大豆粘合剂,具有低成本多巴胺模拟改性蚕丝纤维
Beijing Forestry Univ MOE Key Lab Wooden Mat Sci &
Applicat 35 Tsinghua East Rd Beijing 100083 Peoples R China;
Beijing Forestry Univ MOE Key Lab Wooden Mat Sci &
Applicat 35 Tsinghua East Rd Beijing 100083 Peoples R China;
Beijing Forestry Univ MOE Key Lab Wooden Mat Sci &
Applicat 35 Tsinghua East Rd Beijing 100083 Peoples R China;
Beijing Forestry Univ MOE Key Lab Wooden Mat Sci &
Applicat 35 Tsinghua East Rd Beijing 100083 Peoples R China;
Beijing Forestry Univ MOE Key Lab Wooden Mat Sci &
Applicat 35 Tsinghua East Rd Beijing 100083 Peoples R China;
Chinese Acad Forestry Res Inst Wood Ind Beijing 100091 Peoples R China;
Beijing Forestry Univ MOE Key Lab Wooden Mat Sci &
Applicat 35 Tsinghua East Rd Beijing 100083 Peoples R China;
Beijing Forestry Univ MOE Key Lab Wooden Mat Sci &
Applicat 35 Tsinghua East Rd Beijing 100083 Peoples R China;
adhesives; biomaterials; biopolymers and renewable polymers; proteins; thermosets;
机译:贻贝式基于生物的耐水大豆粘合剂,具有低成本多巴胺模拟改性蚕丝纤维
机译:生物启发的纤维素纳米纤维增强的大豆蛋白树脂胶粘剂,多巴胺诱导“防水”界面的共沉积
机译:生物启发性纤维素纳米纤维增强大豆蛋白树脂粘合剂,具有多巴胺诱导的“防水”互相沉积
机译:天然蚕丝和再生丝素蛋白纤维的同步辐射微衍射
机译:蜘蛛网:使用蚕作为主机,以生产混合蚕蜘蛛丝纤维
机译:水性环氧树脂和贻贝启发的聚多巴胺装饰丝纤维协同增强的高性能大豆分离蛋白基膜
机译:基于高性能的大豆蛋白分离液的薄膜通过水性环氧树脂和贻贝 - 灵感的聚(多巴胺) - 玻璃纤维协同增强