【摘 要】
:
In the present research,nutrient broth(NB)medium was identified to be able to neutralize the antibac-terial activity of chitosan and its derivatives.Therefore,a
【机 构】
:
College of Marine Life Science,Ocean University of China,Qingdao 266003,China;Qingdao National Labor
论文部分内容阅读
In the present research,nutrient broth(NB)medium was identified to be able to neutralize the antibac-terial activity of chitosan and its derivatives.Therefore,an improved test method independent of NB medium was proposed to precisely quantify the antibacterial effectiveness and efficiency of chitosan.The minimum bactericidal concentration(MBC)of chitosan was 60 μg mL-1 against S.aureus and E.coli,and 0.01%(w/v)chitosan could kill 100%of bacteria within 3 min.From another point of view,the neutralizing efficiency of NB could be tripled by adding 25 g L-1 of sodium chloride.Then the neutraliz-ing mechanism of NB medium was ascribed to flocculation between chitosan and protein.Adding extra sodium chloride could significantly reduce the size of floccules,and smaller floccules would lose the ability of binding with bacteria directly,showing higher neutralizing rate on the macro scale.
其他文献
石墨纳米片由于其优异的导热性能受到广泛关注,但现有的制备过程耗时长。本研究以膨胀石墨为原料,利用硝酸剥离法实现了石墨纳米片的快速制备,并采用多种手段对材料进行了表征。研究结果表明,经过0.5h的硝酸处理,石墨纳米片平均尺寸降至20μm左右,且其层状石墨烯堆叠结构未发生改变。同时,将制得的石墨纳米片加入到环氧树脂中,当掺杂量为20wt.%时,复合材料热导率较纯环氧树脂提升了506%。
用Al-10Sr变质剂和Al-5Ti-B细化剂处理A356铝合金熔体,并结合挤压铸造和T6热处理工艺,研究变质细化与热处理对A356铝合金挤压铸造件的组织和性能的影响规律.结果表明,随着Al-
以β-环糊精为碳源,L-天冬氨酸为氮源,采用一步水热合成法制备了氮掺杂碳量子点(N-doped CDs),然后对N-doped CDs的组成、形貌、光学性质进行表征,并研究了不同氮掺杂含量和氧气对N-doped CDs光学性能的影响。研究结果表明,制备的N-doped CDs表面富含氧和氮元素,氮的掺杂能有效提高碳量子点的荧光强度,但是过多的氮掺杂会使其荧光量子产率下降。制备的N-doped CDs最大荧光量子产率为19.1%。此外,无氧环境中N-doped CDs的荧光强度大于有氧环境下的荧光强度,表明
The hot deformation behaviors of the bimodal carbon nanotube reinforced 2009Al(CNT/2009Al)com-posite were studied by establishing processing map and characteriz
本研究采用静电纺丝技术制备掺杂氯化锂(LiCl)的超细聚氨酯(PU)纳米纤维以用作空气过滤,并通过不同的测试方法对其进行表征。研究结果表明,当PU浓度为15wt%时(盐的固含量为0.3wt%),纳米纤维的结构形貌较整齐有序,纤维分布均匀,纳米纤维平均直径达到84nm。此时,纤维的断裂伸长率为186.01%,断裂强度为6.29MPa;当LiCl溶液浓度升高时,纤维形貌开始变差,力学性能开始下降。当LiCl含量达到0.5wt%时,其断裂伸长率为131.07%,断裂强度为2.43 MPa。利用此纺丝工艺,本研究
The presence of excessive reactive oxygen species(ROS)after injuries to the enthesis could lead to cellular oxidative damage,high inflammatory response,chronic
Adding alloying elements to improve the performances or the manufacturing processes of Al-Mg-Si alloys has long been a serious issue in developing advanced auto
为使废轮胎橡胶粉(CRM)和SBS复合改性沥青之间达到高粘效果,有必要探究CRM对沥青的改性作用。将CRM以0%、6%、8%、10%、12%、14%的比例掺入到基质沥青中,同时维持4.5%SBS的掺量不变来制备复合改性沥青。运用傅里叶红外光谱分析(FTIR)、原子力显微镜分析(AFM)等多尺度测试技术对其性能进行追踪测定。研究结果表明,CRM对复合改性沥青起单纯的物理改性作用,当CRM掺量为8%时达到高粘效果。此外,随着CRM掺量的增大,复合改性沥青的性能呈现“缓慢增长—快速增长—趋于平缓”三个阶段,在C
本研究采用金属掺杂的方式调控氧空位导电细丝的电子结构以获得更好的器件性能。计算了HfO
2体系中四组氧空位的形成能,得到V
O4-V
O23-V
O34-V
O46最易形成的氧空位簇;分波电荷态密度进一步表明在[010]晶向上电荷聚集形成导电通道。另外,研究了Ag、Mg、Ni、Cu、Al、Ta、Ti掺杂对该缺陷体系电子结构的影响,显示Ni与其它金属相比,在共缺陷体系中最易形成,体系最稳定;V
O
细胞外基质(ECM)具有调节干细胞响应的功能,微/纳表面结构也对细胞行为有着重要影响。本研究首先在基板上水热生长TiO2纳米棒,之后通过细胞培养将ECM沉积到TiO2纳米棒薄膜中,最终形成ECM/TiO2复合涂层。研究结果表明,ECM有效地沉积在TiO2纳米棒之间,且其含量会显著影响骨髓间充质干细胞的初始粘附、扩散和早期分化。这显示利用宿主自身的ECM形成复合涂层可以有效地改进钛基金属植入体表面的细胞响应,在生物医用金属植入物表面修饰方面具