hydrogels
美 
英 ['haɪdrəʊɡelz]
词形变化
复数:hydrogels
英汉解释
英英解释
例句
Pulsatile variation of the glucose concentration was used to confirm the glucose-dependent swelling properties of these hydrogels.
脉动变化的血糖浓度是用来确定葡萄糖依赖性溶胀性能这些水凝胶。
Yes, all scientific evidence seems to indicate that basic and translational research in hydrogels has a bright future.
是的,所有科学证据似乎都指出水凝胶基础研究和转化研究的前景会很光明。
Recently many researchers have done a large number of studies on improving the response rate of intelligent hydrogels.
近年来,许多研究工作者围绕提高智能水凝胶的响应速度作出了大量的工作。
Among the recently developed scaffolds for tissue engineering, polymeric hydrogels have proven satisfactory in cartilage and bone repair.
对最新的几种生物材料所进行的研究证实,聚合水凝胶确实在骨及软骨组织工程中能取得令人满意的效果。
Hydrogels are widely used in tissue engineering due to their high water content, biodegradability and excellent biocompatibility.
水凝胶因其具有含水量高,生物可降解,生物相容性良好等特点而广泛应用于组织工程领域。
Hydrogels containing live cells can be "printed" or otherwise arranged and layered to delineate correct tissue structure.
含有活细胞的水凝胶可以被「印刷」,或以其他方式排列和分层,刻划成正确的组织结构。
Intelligent hydrogels , which can response to external stimulation, have found potential applications due to their unique responsibility.
能响应外界刺激的智能水凝胶由于其特有的响应性,具有广泛的应用前景。
Biodegradable poly(L - aspartic acid) hydrogels were synthesized by a two - step cross- linking reaction .
采用两步交联法合成了可生物降解聚天冬氨酸水凝胶。
From dynamical rheological tests, it was concluded that CTS-GMA solutions behave as physical hydrogels.
从动态流变测试,得出的结论是,整体表现为全球海洋环境状况评估的解决方案物理水凝胶。
To test these new vascular networks, the team implanted the hydrogels into the corneas of mice, where no natural vasculature exists.
为测试这些脉管网络,研究小组将水凝胶移植于小鼠的眼角膜,这是因为角膜在天然状态下并不存在脉管系统。
Hydrogels are a new kind of three-dimensional hydrophilic crosslinked polymers.
高吸水性凝胶是一种新型的亲水性的三维网络聚合物。
The hydrogels were prepared in the form of discs and microparticles.
该水凝胶的制备形式的光盘和微粒。
In contrast to the PEI hydrogels, non-crosslinked PEI does not lead to calcium phosphate nucleation and growth in SBF.
相反,北水,非交联聚乙烯亚胺不会导致磷酸钙的成核和生长的模拟体液。
In this paper, the recent researches on several typical electric-field-sensitive hydrogels are reviewed.
本文对近年来已见报道的几类典型的电场敏感水凝胶进行了较为详细的综述。
In conclusion, the direction of where smart hydrogels will go in the future should be addressed.
总之,应该关注智能水凝胶的未来发展方向。
Until only recently, though, hydrogels were toxic, and skeptics doubted that they could ever be made safe for consumption.
然而只到最近,因为水凝胶是有毒的,怀疑论者们仍怀疑它们可以产生出安全的消耗品。
Scientists are exploring different uses for hydrogels.
科学家们正在探索水凝胶的不同的应用。
The hydrogels were tested for their response to glucose by exposing microparticles to varying concentrations of glucose.
测试的水凝胶的响应葡萄糖揭露微粒,以不同浓度的葡萄糖。
Supramolecular hydrogels were formed via cooling the aqueous solutions of G2 under ambient condition.
通过在室温下冷却G2的水溶液,形成了超分子水凝胶。
Degradation rate (DR) of chitosan in the hydrogels decreased with increase of SD.
水凝胶中壳聚糖的降解速率随取代度的升高而降低。
Intelligent hydrogels are sensitive to the external stimulus such as temperature, pH, magnetic field, electric field, ionic strength, light.
智能水凝胶是一类对外界刺激能产生敏感响应的水凝胶,典型的外界刺激有温度、pH值、磁场、电场、离子强度、光等。
The secret is hydrogels, powerfully absorbent polymers that can suck up hundreds of times their weight in water.
秘密就在于水凝胶,强烈地吸收超过其重量几百倍的水的聚合物。
The hydrogels are prepared from cross-linked copolymers of N-benzyl-N-methylacrylamide.
所述水凝胶由N-苄基-N-甲基丙烯酰胺的交联共聚物制备而成。
It's an 8- to 12-inch layer of dirt impregnated with hydrogels, along with organic agents that nourish the natural bacteria in the soil.
这是一种浸满水凝剂的8至12英寸厚的土壤层,同时加入有机物介质,可以滋养土壤中的天然细菌。
In order to validate the model, the conventional density measurements of hydrogels were also performed.
为了验证该模型,对传统水凝胶密度测量,还进行。
Supramolecular copolymer hydrogels were prepared by mixing 1 and the additives 2-8, and their rheological properties were evaluated.
超共聚物水凝胶法制备了混合1和添加剂2月8日,其流变性能进行了评价。
The advance in polymeric hydrogels based on N-isopropylacrylamide was reviewed in this paper.
异丙基丙烯酰胺基高分子水凝胶的研究进展做了综述。
Swelling behaviors of a thermosensitive hydrogels and itsapplications for herb ingredients separation
温敏水凝胶溶胀行为及其分离性能
Hydrogels Used for Tissue Engineering
组织工程用水凝胶材料
PH-sensitive chitosan-polyvinyl pyrrolidone hydrogels as controlled release system for metronidazole delivery
pH-敏感甲硝唑壳聚糖-聚乙烯吡咯烷酮水凝胶的研究
Ampholytic hydrogels with polyurethane prepolymer as the crosslinking agent
以聚氨酯预聚物为交联剂的两性水凝胶
Advancement of "intelligent" polymer hydrogels and their applications to medicines and biotechnology
“智能”水凝胶研究进展及其在医药与生物工程中的应用
Preparation of Intelligent Hydrogels and Their Stimulative Responsibility
智能型水凝胶的合成及其刺激响应性
Observation of Thermo-sensitive Hydrogels by Environmental Scanning Electron Microscopy
环境敏感水凝胶的环境扫描电镜观察
Swelling Kinetics and Affecting Factors of Biodegradable Polysaccharide-Based Hydrogels
可降解多糖基水凝胶的溶胀动力学及性能影响因素
Mechanical Properties and Interactive Strength of Polyvinyl Alcohol Composite Hydrogels
聚乙烯醇复合凝胶的强度与界面强度研究
Preparation and characterization of nanocomposite hydrogels
纳米复合水凝胶的制备与表征
Responsive Properties and Applications of the Intelligent Polymers and Hydrogels
智能高分子及水凝胶的响应性及其应用
Volume-Phase Transition Behavior of Environmentally Responsive Hydrogels
环境响应性凝胶的体积相变行为
Recent Research Progress of Environmentally Responsive Hydrogels
环境敏感水凝胶的研究进展
