纳米纤维

Y2O3：Er~（3+）上转换纳米纤维的制备与性质研究

Study on Fabrication and Properties of Y_2O_3 : Er ~ ( 3 + ) Upconversion Nanofibers

由透射电镜图（TEM）可以看出实验过程中经酸冲洗浸泡和煅烧后，纳米纤维的结构没有被破坏。

During the process of acid washing and calcination , the structure of nanofibers was not damaged .

涂层浸渍法在Al2O3片上大面积合成碳纳米纤维

Large-area synthesis of carbon nanofibers and nanotubes on disk of Al_2O_3 by dip-coating

Pd负载电纺碳纳米纤维的制备及其催化活性中空纳米粒子负载光催化纤维的制备及其性能

Preparation and characterization of electrospun carbonized nanofibers containing Pd nanoparticles

一维La2O3：Eu纳米纤维的制备及荧光性质

Preparation and luminescence properties of one-dimensional La_2O_3 : Eu nanofibers

预牵伸能促进纳米纤维细旦化，改善电纺PAN纳米初生纤维的聚集态结构。

Post-stretching could promote diameter thinning and improve aggregation structure of as-electrospun nanofiber bundles .

利用PA6纳米纤维的表面吸附性能将TiO2溶胶颗粒吸附固定在PA6纳米纤维表面。

By surface absorbing , TiO2 sol is fixed on the surface of PA6 nanofibers .

PEI微孔纤维及PMMA/PEI复合纳米纤维的制备与表征

Preparation and Characterization of Porous PEI and PMMA / PEI Composite Fiber

利用红外光谱、X射线衍射、热重-差式扫描量热法和扫描电镜对纤蛇纹石纳米纤维进行表征。

The chrysotile nanofibers were characterized by Fourier transform infrared spectroscopy , X-ray diffraction , thermogravimetry and differential scanning calorimetry , and scanning electron microscopy .

沉淀转化法制备CuO纳米纤维

Precipitation and conversion process for preparing CuO nano fiber

Nd~（3+）：YAG发光纳米纤维的制备与表征

Fabrication and Characterization of Nd ~ ( 3 + ): YAG Nanofibers Preparation of Silica Nanoparticles from Waste Light Silicon Ash

复合膜具有亲水的PANI纳米纤维多孔层。

PANI / PS membrane had a hydrophilic and porous layer of PANI nanofibers .

PLLA纳米纤维编织缝合线的制备及生物相容性研究

Preparation biocompatibility evaluation on plla braided nanofibers suture

热爆形变合成SnO2纳米纤维的形貌与结构

Morphology and structure of SnO_2 nanofibers prepared by thermal explosive deforming synthesis method

BC纳米纤维由接种在含糖培养基上的木醋杆菌在最佳培养环境中代谢而获得。

In which , BC nanofibers were metabolized by Acetobacter xylinum in granular sugar culture media at the optimum cultivation condition .

Raman、IR谱图表明：C60纳米纤维是由纯C60组成的。对C60纳米纤维的热稳定性进行了测试。

The Raman and IR spectra proved that C60 nanofibers were composed of pure C60.The thermal stability of C60 nanofibers was studied .

MoO3纳米纤维的制备及其氢还原特性研究

Preparation and Hydrogen Reduction Property of MoO_3 Nanofibers

获得的样品用透射电镜、红外光谱和X射线衍射进行了表征，不同尺寸的CuS纳米纤维可以通过改变矿化条件获得。

It has been found that CuS nanofibers with different diameters can be , in a controllable way , fabricated by varying the mineralization conditions .

煅烧的温度升高，ZnO纳米纤维的直径减小，XRD分析表明纤维结晶性越好，光致发光结果表明制备出的ZnO纳米纤维发光性质良好。

Calcination temperature , ZnO nanofiber diameter decreases , XRD analysis showed that the better the fiber crystallinity , photoluminescence results show that the prepared luminescence properties of ZnO nanofiber good .

用高效液相色谱仪测得合成的多肽纯度为96.23%，在AFM和扫描电镜下可见自聚肽自组装形成纳米纤维结构。

HPLC detection showed that the purity of synthetic peptide was 96.23 % . AFM and SEM demonstrated that the self-assemble peptide can self-assembled into nanofiber structure .

碳纳米纤维负载Pd-Pt催化剂用于萘加氢反应

Study on Carbon Nanofibers Supported Pd-Pt Catalyst for Naphthalene Hydrogenation

利用激发光谱、发射光谱、荧光寿命、荧光显微镜图像等多种现代测试手段表明了复合纳米纤维中存在从TPP到DCM的有效的F？rster能量转移。

Efficient energy transfer from TPP to DCM in the composite nanofibers have been confirmed by exciting spectra , emission spectra , fluorescence lifetime and fluorescence microscope images .

借助混合过程的机械剪切力，PAT解离成直径约为30nm、长度约为500~800nm的纳米纤维分散在CR中；

By mechanical shear force during mixing , PAT was separated into nanofibers with 500 ~ 800 nm in length and 30 nm in diameter in CR.

在过滤BSA溶液过程中，所有的PANI/PS共混膜与PS膜相比都具有较高的渗透通量，而且共混膜的渗透通量随着PANI纳米纤维含量的增加而升高。

During the filtration of BSA solution , all the blend membranes showed higher permeate fluxes than PS membrane and their fluxes increased with the rise of PANI nanofibers content .

基于电纺的PANI纳米纤维，制作了悬臂梁结构的静电执行器，并测试了PANI悬臂梁在静电力作用下的位移。

The electrostatic actuator with cantilever structure was fabricated based on electrospun PANI nanofiber , and the displacement of PANI cantilever beam under electrostatic force was measured .

BC的纳米纤维与骨的胶原纤维在形态学方面是一致的，这种微纤维能以类似于骨组织增长的方式诱导晶体形成，使得BC具有作为骨组织工程支架的潜能。

BC nanofibers are similar to natural morphology collagen in bone . BC nanofibers can induce the formation of crystals , so BC is a potential engineering scaffold for bone tissue .

通过POM、SEM、TEM等测试手段对C60纳米纤维进行了形貌表征，结果表明：C60纳米纤维直径比较均匀，大约在300-600nm之间，表面光滑。

The C60 nanofibers morphology was characterized by POM , SEM , TEM and other tests , the results showed that : C60 nanofibers diameter was uniform and their surface was smooth .

碳纳米纤维负载Pd-Pt催化剂的萘加氢耐硫性能

Study on Sulfur Tolerance of Pd-Pt Catalyst Supported on Carbon Nanofibers for Hydrogenation of Naphthalene to Tetralin

PANI纳米纤维与PS质量比为1%和15%的共混膜的稳态渗透通量分别是PS膜的2倍和2.5倍。

Stable permeate fluxes of the blend membranes with PANI – PS mass ratio of 1 wt. % and 15 wt. % were 2.0 and 2.5 times that of pure PS membrane , respectively .

最后，本文研究了In2O3与TiO2纳米纤维以摩尔比1：1复合时，气敏元件在加热和紫外光激发下两种工作条件下的气敏特性，并分析两种条件下的气敏机理。

Finally , the gas-sensing properties and sensitive mechanism of the composite In2O3 / TiO2sensors were analyzed at two working conditions : heating and UV-LED irradiation , respectively . 1 .