nanofibril formation
纳米纤维形成
nanofibril structure
纳米纤维结构
nanofibril diameter
纳米纤维直径
nanofibril network
纳米纤维网络
nanofibril morphology
纳米纤维形态
nanofibril assembly
纳米纤维组装
nanofibril synthesis
纳米纤维合成
nanofibril production
纳米纤维生产
nanofibril alignment
纳米纤维排列
nanofibril reinforcement
纳米纤维增强
cellulose nanofibrils are extracted from wood pulp using mechanical treatment and chemical pretreatments.
纤维素纳米纤维通过机械处理和化学预处理从木浆中提取。
the collagen nanofibril structure provides mechanical strength to connective tissues in mammals.
胶原蛋白纳米纤维结构为哺乳动物的结缔组织提供机械强度。
researchers have developed a method for synthesizing protein nanofibrils with controlled dimensions.
研究人员已经开发出一种合成可控尺寸蛋白质纳米纤维的方法。
plant-derived nanofibrils exhibit excellent biocompatibility for biomedical applications.
植物来源的纳米纤维在生物医学应用中表现出优异的生物相容性。
the diameter of individual nanofibrils typically ranges from 5 to 50 nanometers.
单根纳米纤维的直径通常在5到50纳米之间。
self-assembly of peptide nanofibrils creates hydrogels with potential drug delivery applications.
肽纳米纤维的自组装产生了具有药物递送应用潜力的水凝胶。
electrospun nanofibril mats are used as filters for removing nanoparticles from air and water.
静电纺丝纳米纤维垫用作从空气和水中去除纳米颗粒的过滤器。
the hierarchical organization of nanofibrils contributes to the toughness of biological materials.
纳米纤维的层级结构有助于生物材料的韧性。
chiral nanofibrils can be engineered to control light propagation in optical devices.
手性纳米纤维可以被工程化以控制光学器件中的光传播。
biodegradable nanofibril scaffolds support cell growth in tissue engineering applications.
可生物降解的纳米纤维支架支持组织工程应用中的细胞生长。
the synthesis of carbon nanofibrils involves catalytic decomposition of hydrocarbon gases at high temperatures.
碳纳米纤维的合成涉及在高温下对碳氢化合物气体的催化分解。
nanofibril networks in plant cell walls provide structural integrity and resistance to pathogens.
植物细胞壁中的纳米纤维网络提供结构完整性并抵抗病原体。
thermal treatment affects the crystallinity and mechanical properties of cellulose nanofibrils.
热处理影响纤维素纳米纤维的结晶度和机械性能。
functionalized nanofibrils can selectively bind to specific molecules for biosensing applications.
功能化纳米纤维可以选择性地结合特定分子用于生物传感应用。
nanofibril formation
纳米纤维形成
nanofibril structure
纳米纤维结构
nanofibril diameter
纳米纤维直径
nanofibril network
纳米纤维网络
nanofibril morphology
纳米纤维形态
nanofibril assembly
纳米纤维组装
nanofibril synthesis
纳米纤维合成
nanofibril production
纳米纤维生产
nanofibril alignment
纳米纤维排列
nanofibril reinforcement
纳米纤维增强
cellulose nanofibrils are extracted from wood pulp using mechanical treatment and chemical pretreatments.
纤维素纳米纤维通过机械处理和化学预处理从木浆中提取。
the collagen nanofibril structure provides mechanical strength to connective tissues in mammals.
胶原蛋白纳米纤维结构为哺乳动物的结缔组织提供机械强度。
researchers have developed a method for synthesizing protein nanofibrils with controlled dimensions.
研究人员已经开发出一种合成可控尺寸蛋白质纳米纤维的方法。
plant-derived nanofibrils exhibit excellent biocompatibility for biomedical applications.
植物来源的纳米纤维在生物医学应用中表现出优异的生物相容性。
the diameter of individual nanofibrils typically ranges from 5 to 50 nanometers.
单根纳米纤维的直径通常在5到50纳米之间。
self-assembly of peptide nanofibrils creates hydrogels with potential drug delivery applications.
肽纳米纤维的自组装产生了具有药物递送应用潜力的水凝胶。
electrospun nanofibril mats are used as filters for removing nanoparticles from air and water.
静电纺丝纳米纤维垫用作从空气和水中去除纳米颗粒的过滤器。
the hierarchical organization of nanofibrils contributes to the toughness of biological materials.
纳米纤维的层级结构有助于生物材料的韧性。
chiral nanofibrils can be engineered to control light propagation in optical devices.
手性纳米纤维可以被工程化以控制光学器件中的光传播。
biodegradable nanofibril scaffolds support cell growth in tissue engineering applications.
可生物降解的纳米纤维支架支持组织工程应用中的细胞生长。
the synthesis of carbon nanofibrils involves catalytic decomposition of hydrocarbon gases at high temperatures.
碳纳米纤维的合成涉及在高温下对碳氢化合物气体的催化分解。
nanofibril networks in plant cell walls provide structural integrity and resistance to pathogens.
植物细胞壁中的纳米纤维网络提供结构完整性并抵抗病原体。
thermal treatment affects the crystallinity and mechanical properties of cellulose nanofibrils.
热处理影响纤维素纳米纤维的结晶度和机械性能。
functionalized nanofibrils can selectively bind to specific molecules for biosensing applications.
功能化纳米纤维可以选择性地结合特定分子用于生物传感应用。
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