铜基碳纳米管复合薄膜电沉积制备工艺

为获得碳纳米管分布均匀且导电性良好的铜基碳纳米管复合材料,用超声辅助搅拌复合电沉积方法制备了Cu/MWCNT复合薄膜.采用扫描电子显微镜(SEM)、四探针电阻率仪等研究了电沉积过程中复合电镀液中碳纳米管浓度、电镀液p H值、脉冲电流密度等各项电沉积工艺参数以及不同退火温度对复合薄膜的组织形貌和电阻率的影响规律.结果表明:改变镀液中碳纳米管含量和电镀液的p H值可以改变镀层中碳纳米管的含量及分布,MWCNTs质量浓度升高到2 g/L时,复合薄膜中MWCNTs的质量分数达2.17%;改变电流密度可以细化镀层组织并改善碳纳米管在镀层中的分布,从而提高镀膜的致密度并降低镀层的电阻率;合适的热处理温度可以改善薄膜结晶度和致密度,并提高导电性.镀液中MWCNTs质量浓度为2 g/L,电镀液p H为2,电流密度为20 A/dm2,电镀时温度在25℃且加入超声辅助搅拌时,所得到的复合镀膜经400℃退火后电阻率最低.     

Preparation and thermal properties of layered porous carbon nanotube/epoxy resin composite films

A floating-catalyst spray pyrolysis method was used to synthesize carbon nanotube (CNT) thin films. With the use of ammonium chloride as a pore-former and epoxy resin (EP) as an adhesive, CNT/EP composite films with a porous structure were prepared through the post-heat treatment. These films have excellent thermal insulation (0.029--0.048 W·m⁻¹·K⁻¹) at the thickness direction as well as a good thermal conductivity (40--60 W·m⁻¹·K⁻¹) in the film plane. This study provides a new film material for thermal control systems that demand a good thermal conductivity in the plane but outstanding thermal insulation at the thickness direction.     

电泳沉积碳纳米管场发射阴极研究进展

电泳法是一种工艺简洁、低能耗、低成本的薄膜制备工艺.基于电泳技术的碳纳米管薄膜具有对基底类型和形状要求低、常温操作等优势,尤其适宜于在复杂不规则基底和低熔点材料上的应用.在阐述了电泳法的工艺特点的基础上,本文总结了应用电泳技术制备碳纳米管薄膜的方法,讨论了丰富多样的碳纳米管电泳液制备工艺,介绍了碳纳米管薄膜作为场发射阴极在真空电子领域的应用开发新进展.     

High-performance single-wall carbon nanotube transparent conductive films

A single-wall carbon nanotube(SWCNT) has superior optical,electrical,and mechanical properties due to its unique structure and is therefore expected to be able to form flexible high-performance transparent conductive films(TCFs).However,the optoelectronic performance of these films needs to be improved to meet the requirements of many devices.The electrical resistivity of SWCNTTCFs is mainly determined by the intrinsic resistivity of individual SWCNTs and their junction resistance in networks.We analyze these key factors and focus on the optimization of SWCNTs and their networks,which include the diameter,length,crystallinity and electrical type of the SWCNTs,and the bundle size and interconnects in networks,as well as chemical doping and microgrid design.We conclude that isolated/small-bundle,heavily doped metallic or semiconducting SWCNTs with a large diameter,long length and high crystallinity are necessary to fabricate high-performance SWCNTTCFs.A simple,controllable way to construct macroscopic SWCNT networks with Y-type connections,welded junctions or microgrid design is important in achieving a low resistivity.Finally,some insights into the key challenges in the manufacture and use of SWCNT TCFs and their prospects are presented,hoping to shed light on promoting the practical application of SWCNT TCFs in future flexible and stretchable optoelectronics.     

钛金属薄膜上两种短链自组装分子膜的制备与摩擦特性

采用自组装技术在钛金属薄膜上制备了两种分子链长相同、官能团不同的自组装分子膜,并对其进行了不同时间的紫外照射,对钛金属薄膜和自组装分子膜进行了表征和摩擦特性测试,研究了紫外照射、官能团、滑动速度和载荷对自组装分子膜摩擦特性的影响,结果表明:通过紫外照射钛金属薄膜表面羟基化、自组装分子水解及自组装分子缩合可在钛金属薄膜上制备结构致密的自组装分子膜,制备的两种短链自组装分子膜可降低钛金属薄膜的摩擦特性,APS自组装分子膜的摩擦特性优于MPS自组装分子膜的摩擦特性,紫外照射5 min的自组装分子膜表面吸附的有机杂质被蒸发掉,对针尖的黏着力减小,从而导致针尖的变形减小,摩擦力最低,而紫外照射15 min的自组装分子膜致密的网状结构被破坏,减弱了自组装分子膜的润滑效应,两种自组装分子膜的摩擦力随着滑动速度的增加略呈上升趋势,随着载荷的增加略呈下降趋势,但是变化不大.     

碳纳米管薄膜电极的制备及电容吸附性能

采用低压CVD法制备得到的金属镍基碳纳米管薄膜直接作为电容去离子器（CDD）的电极材料，并对碳纳米管薄膜进行了扫描电镜观察和比表面与孔径分析，探讨了该电极材料的电容吸附性能。NaF溶液的吸附实验结果表明：该电极材料的去离子效果明显、且可再生和重复使用。     

Preparation of carbon nanotube/epoxy composite films with high tensile strength and electrical conductivity by impregnation under pressure

Based on the production of a carbon nanotube (CNT) assembly, a new technique is developed for preparing CNT/epoxy (EP) composite films with high tensile strength and electrical conductivity. CNTs are synthesized by floating catalyst spray pyrolysis. After self-assembling into a hollow cylindrical assembly, CNTs are drawn and wound on a rotating drum to form a uniform CNT film. EP resin solutions of different concentrations are used to fill into the pores within the film under different pressures and form composite films after hot-press curing. The permeability of the EP resin and thus the interfacial bonding between the CNT and the EP resin are studied by varying the concentration of the EP resin solution and the pressure used for impregnation. Under optimal preparation conditions, the composite film contains CNTs of a high content of 59 wt.%, and shows a high tensile strength of 1.4 GPa and a high electrical conductivity of 1.4x10^5 S·m^-1, 159% and 309% higher than those of the neat CNT film, respectively.     

碳纳米管／环氧树脂复合材料的研究

研究了碳纳米管（CNTs）／环氧树脂复合材料的分散性能及电性能。探讨了碳纳米管的含量、管径和稀释剂的用量对环氧树脂电学性能的影响，并用透射电子显微镜（TEM）和扫描电子显微镜（SEM）对其进行表征。结果表明，碳纳米管的分散和含量对环氧树脂的电性能影响很大，而加入碳纳米管能够使环氧树脂由绝缘体变为导体（电阻率〈^10mΩ·cm）。     

Lyocell/多壁碳纳米管复合纤维的制备及性能

将多壁碳纳米管(MWCNTs)水悬浮液、N-甲基吗啉-N-氧化物(NMMO)溶液及纤维素共混得到纺丝液,通过干湿法制备了Lyocell/MWCNT复合纤维。采用X-衍射仪(WAXD)、扫描电镜(SEM)、透射电镜(TEM)、强度仪等分析了所得纤维的结构和性能。WAXD图谱显示复合纤维仍然具有纤维素II晶型的结构,同时还保留了MWCNTs的特征衍射峰;二维X衍射结果表明:MWCNTs质量分数为5%的复合纤维中,MWCNTs与纤维轴的取向角为±15.2°,说明复合纤维中MWCNTs基本沿着纤维轴取向。SEM结果显示复合纤维中MWCNTs在Lyocell基体中分布均匀。对纤维的力学性能分析进一步表明:添加适量的MWCNTs可使复合纤维的力学性能提高,MWCNTs质量分数为1%的复合纤维的初始模量和强度分别比Lyocell纤维增加49.4%和15.7%。     

碳管长径比对MWNTs/PI复合薄膜介电性能的影响

采用混酸氧化法处理多壁碳纳米管(MWNTs),在不同处理时间下得到不同长径比的碳纳米管,并通过扫描电镜(SEM)对碳纳米管的形貌进行观察。以不同长径比的碳纳米管掺杂改性MWNTs/PI复合薄膜。运用体积排斥理论和渗滤理论预测分析了碳纳米管长径比对MWNTs/PI复合薄膜渗流阈值和介电常数的影响,并实测了MWNTs/PI复合薄膜的渗流阈值和介电常数,分析了理论预测与实测结果差异的原因。     

细菌纤维素@聚吡咯-单壁碳纳米管导电膜的制备与表征

为了获得柔性高电导率导电材料,以细菌纤维素（BC）、吡咯（Py）和单壁碳纳米管（SWCNTs）为原料,在不添加任何黏合剂的情况下,通过简单的原位氧化聚合和真空过滤法制备了BC@聚Py-SWCNTs（BC@PPy-SWCNTs）新型导电膜。通过SEM、FTIR对BC@PPy-SWCNTs复合膜的表面形貌、化学成分进行表征。研究了BC@PPy-SWCNTs膜的电化学性能。结果表明,在SWCNTs添加量为4.7%（质量比）时,BC@PPy-SWCNTs复合膜的电导率可达到6.42 S·cm-1,相比BC@PPy有了很大提高,在充电电流为5 mA·cm-2时,其面积电容可达到0.53 F·cm-2,其能量密度达0.036 mWh·cm-2,功率密度达到1.75 mW·cm-2。BC@PPy-SWCNTs膜拓宽了电极材料的种类,有望应用于超级电容器、电池及传感器等领域。      

纳米结构TiN薄膜的制备及其摩擦学性能

在室温条件下,用磁过滤等离子体装置在单晶硅基底上制备了纳米结构TiN薄膜分析了薄膜的表面形貌、晶体结构,测量了TiN薄膜的硬度,研究了基底偏压对薄膜结构性能的影响.结果表明,用此方法制备的TiN薄膜表面平整光滑,颗粒尺寸为50～80 nm;随着基底偏压的增大薄膜发生(111)面的择优取向随着偏压的提高,薄膜的颗粒度稍有增大,摩擦系数增大,偏压提高,晶面在较密排的(111)面有强烈的择优取向,硬度也有所增大.在其它条件相同的情况下载荷越大,摩擦系数越大.不起用磁过滤等离子体法制备的纳米结构TiN薄膜具有较低的摩擦系数(0.14～0.25).     

低温聚苯胺/碳纳米管复合材料的制备

采用原位聚合法合成出了具有较高导电性的聚苯胺及聚苯胺 /碳纳米管复合材料 ,考察了不同碳纳米管添加量对聚苯胺 /碳纳米管复合材料表面形态、材料结构及导电性的影响并进行了表征。结果证实 ,制备出的复合聚苯胺的电导率比所见报道值提高了 1～ 2个数量级 ,为高电导率聚苯胺的合成开辟了更广阔的前景。     

高致密度FeNi纳米颗粒薄膜制备与性能研究

传统磁控溅射装置制备的纳米颗粒薄膜粒径不均一并且实现粒径大小调控比较困难.本研究采用电场辅助沉积技术,在沉积平台施加5～30 kV的电场,以Si(100)为衬底制备了一系列纳米颗粒粒径均一的高致密度FeNi纳米颗粒薄膜材料.通过XRD、SEM以及VSM测量,研究了不同沉积电场下FeNi纳米颗粒薄膜的结构、形貌和磁性能....     

Thermoelectric properties of carbon nanotube/silicone rubber composites

ABSTRACT

In this paper, we have studied the relevant physical quantities to the figure of merit of carbon nanotube (CNT)/polydimethylsiloxane composites at different loadings, and found that with increasing the CNT loadings, the electrical conductivity jumps several orders in magnitude at ‘threshold’, followed by a saturated plateau, and the Seebeck coefficient decreases by a small margin, and the thermal conductivity increases somewhat. According to the formula of the figure of merit, it is found that higher loading composites display a larger figure of merit. We hope the present study provides a new path to high-performance flexible thermoelectric materials.     

Excellent solid lubrication of electrodeposited nickel-multiwalled carbon nanotube composite films

Nickel-multiwalled carbon nanotube (MWCNT) composite films were fabricated by an electrodeposition technique, and their frictional properties were investigated by ball-on-plate type friction testing using an Al₂O₃ ball as a counter surface without lubricant. Ni-MWCNT composite films showed superior frictional properties compared to nickel films. The friction coefficient of Ni-MWCNT composite films decreased with increasing MWCNT content. The Ni-0.5 mass% MWCNT composite film showed the minimum friction coefficient value of 0.13.     

Macroscopic carbon nanotube assemblies: preparation, properties, and potential applications

As classical 1D nanoscale structures, carbon nanotubes (CNTs) possess remarkable mechanical, electrical, thermal, and optical properties. In the past several years, considerable attention has been paid to the use of CNTs as building blocks for novel high-performance materials. In this way, the production of macroscopic architectures based on assembled CNTs with controlled orientation and configurations is an important step towards their application. So far, various forms of macroscale CNT assemblies have been produced, such as 1D CNT fibers, 2D CNT films/sheets, and 3D aligned CNT arrays or foams. These macroarchitectures, depending on the manner in which they are assembled, display a variety of fascinating features that cannot be achieved using conventional materials. This review provides an overview of various macroscopic CNT assemblies, with a focus on their preparation and mechanical properties as well as their potential applications in practical fields.     

Preparation and tribological studies of self-assembled triple-layer films

A self-assembled triple-layer film was grafted onto a silicon surface with a simple three-step method. Firstly, 3-glycidoxypropyltrimethoxysilane molecules were self-assembled on silicon surfaces, then coupled to 3-aminopropyltriethoxysilane through a surface ring-opening reaction, and finally octadecyltrichlorosilane (OTS) molecules were attached to the resultant alkoxysilane-terminated surface via Si-O-Si bonds. The structure and morphology of this triple-layer film were characterized with various techniques, such as contact angle measurement, ellipsometry, X-ray photoelectron spectroscopy, and atomic force microscopy (AFM). The influence of different surface chemical groups on surface adhesion properties was identified using the AFM force-volume technique. The micro- and macro-tribological properties of the triple-layer film were evaluated by friction force microscopy and a ball-on-plate tribometer. The triple-layer film shows good adhesive resistance and can greatly reduce the micro- and macro-friction force. Moreover, compared to self-assembled monolayer of OTS, this triple-layer film exhibited much better wear-resistance. This improvement was mainly ascribed to the network structure of a lateral cross-linked polysiloxane layer formed within the film which can enhance the stability of the film.     

复合薄膜研究的进展

复合薄膜材料由于具有传统复合材料和薄膜材料两者的优点，正成为复合材料的重要分支而越来越引起广泛的重视和深入的研究。它可以把各层薄膜材料的优异性能结合起来，从而克服各自的弱点，达到特定的应用目的。本文简要综述了近十年来复合薄膜领域的研究进展，介绍了多层复合薄膜的制备方法和常用表征手段并总结了目前复合薄膜材料领域中存在的主要问题。