基于SWCNTs薄膜的多谐振环太赫兹超表面传感特性

基于单壁碳纳米管(SWCNTs)薄膜,构建了一种具有多频窄带共振效应的新型太赫兹(THz)超表面。深入分析了周期性微结构单元参数对超表面的共振特性的影响;通过仿真及理论计算对器件的共振耦合机理进行研究,二者具有较好的一致性。通过在超表面覆盖不同折射率的介质层,分析这种THz超表面器件的折射率传感特性,灵敏度分析结果显示,该超表面器件可实现最高64 GHz/RIU的折射率传感。

Construction of a Bronsted-Lewis solid acid catalyst La-PW-SiO_(2)/SWCNTs based on electron withdrawing effect of La(Ⅲ)onπbond of SWCNTs for biodiesel synthesis from esterification of oleic acid and methanol

A novel solid Bronsted-Lewis acid catalyst La-PW-SiO_(2)/SWCNTs(single-wall carbon nanotubes)was synthesized from the synergistic modification of H_(3)PW_(12)O_(40)(HPW)by single-walled carbon nanotubes functionalized with sidewall hydroxyl groups(SWCNTs–OH)and La^(3+) via sol–gel method.The freshly prepared catalyst was characterized by several methods,and the catalytic activity and stability of it were studied from the esterification of oleic acid and methanol.Results showed that the highest conversion of oleic acid was 93.1%(mass)and maintained as high as 88.7%(mass)after six cycles of La-PW-SiO_(2)/SWCNTs.The high catalytic activity and stability of La-PW-SiO_(2)/SWCNTs can be attributed to the strong electron withdrawing effect of La^(3+) on π bond of SWCNTs,because it can facilitate the formation of a large number of strong Lewis acid sites.Therefore,the reduction of catalytic activity of a solid acid catalyst due to the fact that hydration reaction of its Bronsted acid sites can be effectively reduced.La-PW-SiO_(2)/SWCNTs can be an efficient and economical catalyst,because it shows good catalytic activity and stability.

Single Wall Carbon Nanotubes (SWCNTs) as (i) Type in the Photovoltaic Cell of Nano-Dimensions

In this paper, a new modified approach to design the photovoltaic cell has been presented by adding Single Wall Carbon Nanotubes (SWCNTs) as type (i). The main issue is to increase the efficiency of the photovoltaic cell, on the other hand, to exploit a larger range of electromagnetic wave frequencies, specifically a range within terahertz (THz) frequency domain, using 3D EM computer simulation technology (CST). It is clear in the normal PV cell start working at frequency of 500 THz, while the frequency at which the PV cell with SWCNTs operates is much less and it is close to zero, on the other hand, the PV cell with SWCNTs needs a larger cross-section area of 2800 nm2 to operate at frequency of 500 THz. This cell can be easily produced industrially, which means increases the efficiency of solar cell.

静电层层组装纳米粒子多层膜修饰电极及其应用

通过静电层层组装技术,得到了纳米粒子二硫化锡(SnS2)、单壁碳纳米管(SWCNTs)多层膜修饰电极。用电化学循环伏安法(CV)、电化学阻抗(EIS)法对该多层膜修饰电极进行表征,证明了其多层膜修饰电极具有很好的稳定性、重复性、有序性、均一性。并且该多层膜修饰电极对多巴胺(DA)具有良好的电催化效果,在pH=7.0磷酸盐缓冲溶液中,DA及抗坏血酸(AA)在多层膜修饰电极中的氧化峰能够很好地分开,在大量AA存在下测定DA结果满意。

基于单壁碳纳米管的PVA静电纺稳定段射流的拉伸研究

在聚乙烯醇(PVA)溶液中添加不同质量分数的单壁碳纳米管,溶液的性能及其静电纺稳定段射流的拉伸会发生变化.试验表明:单壁碳纳米管的加入可显著提高溶液的黏度和电导率;基于单壁碳纳米管的稳定段射流的半径r与距离泰勒锥顶点不同轴向距离z满足r^z-1/2,该试验结果与纯PVA溶液静电纺稳定段射流的拉伸结果相一致.

单壁碳纳米管的提纯

采用温控电弧炉，在氦气氛下，使用Fe—Ni—Mg合金催化剂，通过控制温度等工艺条件，在容器内壁生成了大量单壁碳纳米管(SWCNTs)，尤其在阴极与阳极之问有大量的宏观网状薄膜．通过氧化一酸浸对所获得的单壁碳纳米管进行提纯，去除了管中的无定形碳、纳米碳颗粒等非晶碳颗粒及纳米金属粒子，提高了单壁碳管的纯度。实验结果表明：通过两步纯化方法，在500℃空气中烘烧2h；再用37％盐酸浸泡72h，用去离子水过虑至中性烘干；经TGA、TEM、HRTEM、Raman观察分析，纯化后其纯度高(>95％)、管径均匀(1．24nm～1．38nm)。

静电纺聚氨酯(PU)/单壁碳纳米管复合纤维的性能

采用聚氨酯(PU)和单壁碳纳米管(SWCNTs)为原料制备静电纺纤维,应用扫描电子显微镜(SEM)和透射电子显微镜(TEM)分析纤维的直径和表面结构的变化,测试了纤维膜的断裂强度、浸润性与导电性随单壁碳纳米管质量分数的变化关系.研究结果表明:随着碳纳米管质量分数的增加,纤维直径降低,不匀率增大,有串珠出现;在碳纳米管质量分数为0.5%时,纤维膜断裂强度达到最大值12.18MPa;纤维膜的接触角变化不明显,增量只有10°;在所测碳纳米管质量分数范围内,纤维膜的电导率明显增加,较原聚氨酯电导率提高近200倍,导电性明显改善.

修饰银电极上单壁碳纳米管的表面增强拉曼散射

本文采用修饰了银纳米颗粒的银电极作为基底，获得了高质量的单壁碳纳米管（SWCNTs）的表面增强拉曼散射（SERS）光谱。在1100-1500cm^-1范围内观测到了一组表征SWCNTs结构的新峰。修饰在银电极上的银纳米颗粒不仅可以保证SWCNTs在这一体系中吸附的紧密性，而且通过变面等离子体共振起到了电磁放大的作用。通过对银纳米颗粒修饰银电极表面SWCNTs的SERS光谱及其随电位变化的SERS光谱的研究，我们可以研究这一过程中的SERS机制。理论和实验结果表明，银纳米颗粒修饰银电极上单壁碳纳米管的SERS很有潜力成为一种检测单壁碳纳米管合成质量的新方法。

考虑非线性本构和小初始变形的单壁碳纳米管的Bernoulli-Euler梁模型

在有限变形条件下石墨烯的应力应变关系是非线性的,而且石墨烯卷曲形成的碳纳米管(carbon nanotubes,CNTs)在应用时通常会产生小的初始变形。但是,在已有的碳纳米管力学性质的研究中还没有同时考虑这两种因数影响。基于石墨烯的非线性本构关系,建立了新的包含小初始变形的Bernoulli-Euler梁模型,然后应用该模型研究了单壁碳纳米管(single-walled carbon nanotubes,SWCNTs)的静态弯曲和一阶受迫振动。结果表明:在静力弯曲时,当初始变形与外荷载的方向一致时,初始变形增大了系统的刚度。当初始变形与外荷载的方向相反时,初始变形使碳纳米管的静力变形变得复杂。在受迫振动时,初始变形和本构中的非线性项都能改变振幅的分岔点的位置。初始变形可以使碳纳米管的力学性质由硬非线性变为软非线性。因此,非线性本构和初始变形均对碳纳米管力学行为有显著影响。

单壁碳纳米管气体传感器在GIS局部放电检测中的应用(英文)

This paper describes a realizable fabrication method to manufacture chemical gas sensors by using singlewalled carbon nanotubes(SWCNTs).The sensors were tested for the monitoring of SF_6 decomposition gas produced by partial discharge(PD) in GIS tank.The results showed a superior sensitivity,favorable reliability and good reproducibility. For further clarifying the relativity between sensor response and partial discharge activity,the discharge in GIS tank was monitored simultaneously through conventional pulse current method and a SWCNTs gas sensor,and the measurement results were put together for comparative analysis in this paper.The sensor response showed a great dependence on partial discharge characteristics.The sensor response increased nearly linearly with limits when the energy of discharge was persistently accumulated.Partial discharge power had a great influence on the response rate and the time delay.With the increase of partial discharge power,the response rate augmented almost in proportion while the time delay gradually becomes shorter with limits.The results were quite favorable to assess the partial discharge intensity and duration to some extent.Compared with pulse current method,the sensor was predominant to detect partial discharge exposed to constantly high levels of noise.It was capable of detecting partial discharge which was too weak to be detected with pulse current method.However,the sensor response didn't show much dependency on the apparent discharge of partial discharge.

Optimization Conditions for Single-Walled Carbon Nanotubes Dispersion

The sonication-driven dispersion of single-walled carbon nanotubes (SWCNTs) in aqueous surfactant solution has been monitored by UV-vis-NIR spectroscopy and scanning electron microscopy. Dispersion of SWCNTs experiments reveal that the maximum concentration of dispersed SWCNTs corresponds to the maximum UV-vis-NIR absorbance of the solution. With higher surfactant concentration the dispersion rate of SWCNTs increases and low temperature sonication is required to achieve maximum dispersion. Dispersion of higher SWCNT concentrations requires longer sonication time. For effective dispersion the optimal concentration of surfactant is 1.5 wt%, the concentration of SWCNTs that can be homogeneously dispersed in aqueous solution is about 0.4 mg/ml.

<i>β</i>-cyclodextrin Covalently Functionalized Single-Walled Carbon Nanotubes: Synthesis, Characterization and a Sensitive Biosensor Platform

In this study, we presented the preparation of β-cyclodextrin (β-CD) covalently functionalized single-walled carbon nanotubes (SWCNTs) and its application in modifying the solid glass carbon electrode (GCE). Cyclic voltammetry (CV) method was employed to evaluate the performance of the modified GCE. Solubility experiment indicated the conjugation of SWCNTs and β-CD, SWCNTs-β-CD with 8 wt% β-CD content could be well dispersed in water. High-resolution transmission electron microscopy (HRTEM) demonstrated that the aggregated SWCNTs bundle were effectively exfoliated to small bundle, even individual tube. The β-CD component was grafted on the side walls as well as tips of SWCNTs, and the grafted β-CD component was not uniformly coated on the surface of SWCNTs. The CV measurements indicated the performance of the GCE modified by SWCNTs-β-CD was better than that of the GCE modified by the hybrid of SWCNTs/β-CD, where ascorbic acid (AA) and uric acid (UA) were selected as a prelimiltary substrate to evaluate it. The enhanced performance of the modified GCE should be ascribed to the integration of the excellent electrocatalytic property of SWCNTs with the inclusion ability of β-CD to analyte molecule.

Microwave heating as a universal method to transform confined molecules into armchair graphene nanoribbons

Armchair graphene nanoribbons(AGNRs)with sub-nanometer width are potential materials for the fabrication of novel nanodevices thanks to their moderate direct band gaps.AGNRs are usually synthesized by polymerizing precursor molecules on substrate surface.However,it is time-consuming and not suitable for large-scale production.AGNRs can also be grown by transforming precursor molecules inside single-walled carbon nanotubes(SWCNTs)via furnace annealing,but the obtained AGNRs are normally twisted.In this work,microwave heating is applied for transforming precursor molecules into AGNRs.The fast heating process allows synthesizing the AGNRs in seconds.Several different molecules were successfully transformed into AGNRs,suggesting that it is a universal method.More importantly,as demonstrated by Raman spectroscopy,aberrationcorrected high-resolution transmission electron microscopy and theoretical calculations,less twisted AGNRs are synthesized by the microwave heating than the furnace annealing.Our results reveal a route for rapid production of AGNRs in large scale,which would benefit future applications in novel AGNRs-based semiconductor devices.

单壁碳纳米管材料对水稻幼苗的毒性效应

随着碳纳米管材料(CNTs)被广泛地应用于工业和商业等多个领域,其将不可避免地进入到大气、水和土壤环境中,从而对生态系统结构和功能产生一些负面影响.为明确进入水环境中的碳纳米管材料对农业生产的潜在危险,本实验采用水培法,研究了不同浓度(10、20、40mg·L^(-1))的单壁碳纳米管材料(SWCNTs)对萌发期内水稻的发芽率、根长耐性指数和幼苗生长期内水稻的鲜重、叶绿素和可溶性蛋白的影响,以及单壁碳纳米管材料在水稻根部的累积.结果表明,在萌发期,胁迫处理4 d后,与对照相比,10、20、40 mg·L-1SWCNTs处理组对水稻发芽率没有任何抑制作用,但会延迟种子的发芽时间;水稻根长耐性指数随着单壁碳纳米管材料浓度的增加而下降.在幼苗生长期,胁迫处理30 d后,与对照相比,水稻鲜重随着单壁碳纳米管材料浓度的增加而分别下降14.2%、21.0%和38.8%;与此相类似,水稻叶绿素和可溶性蛋白质含量随着单壁碳纳米管材料浓度的增加而下降;另外,通过透射电镜观察(TEM)发现,SWCNTs颗粒分布在水稻幼苗根尖表皮细胞的细胞壁中.SWCNTs对水稻生长起抑制作用,且随着浓度的增加抑制作用逐渐增强.

单壁BN纳米管和碳纳米管物理吸附储氢性能的理论对比研究

采用巨正则蒙特卡罗方法(GCMC)研究了单壁氮化硼纳米管(SWBNNTs)和单壁碳纳米管(SWCNTs)的物理吸附储氢性能,主要对比研究了纳米管的管径、温度和手性对二者物理吸附储氢量的影响.研究结果表明:在低温下,SWBNNTs的物理吸附储氢性能优于相应的SWCNTs;但是随着温度的升高,二者的物理吸附储氢性能差别越来越小,在常温下,SWBNNTs不具备有比SWCNTs更强的物理吸附储氢性能,而是和相同条件下的SWCNTs相差不大,只是在高压下的物理吸附储氢量稍稍大于SWCNTs,并给出了合理的理论解释;另外,管径、温度和手性对SWBNNTs物理吸附储氢性能的影响和SWCNTs的情形一样.

基于单壁碳纳米管可饱和吸收体的被动锁模光纤激光器研究

基于单壁碳纳米管(SWCNTs)作为光学可饱和吸收体(SA)的恢复时间快(<1ps)、饱和光强低、锁模自启动、工作光谱范围宽且制备方法简单、成本低、化学稳定性好、易与光纤兼容等优点,利用SWCNTs-SA实现了稳定脉冲序列输出的实验结果。利用聚甲基丙烯酸甲酯(PMMA)易成膜且机械性能良好的特点,将SWCNTs与PMMA一起分散在二氯化苯(DCB)溶液中,运用光学诱导作用将SWCNTs吸附在单模光纤(SMF)端面,并加热固化成膜。在光纤激光器环形腔结构中引入SWCNT/PMMA薄膜作为SA,获得了具有稳定的重复频率为8.366MHz的基频锁模脉冲序列,其中心波长在1 562nm,脉冲宽度为1.2ps。

单壁碳纳米管对小鼠肝和肾氧化损伤的诱导

为了评价单壁碳纳米管(SWCNTs)对生物体的毒性效应,以昆明小鼠为受试动物,采用腹腔注射的染毒方法,研究了SWCNTs和标准碳黑(CB)对其肝和肾组织氧化损伤的诱导.实验结果表明:与对照组相比,SWCNTs和CB暴露显著的降低了小鼠肝和肾中还原性谷胱甘肽(GSH)的含量、抑制了超氧化物歧化酶(SOD)的活力、诱导了脂质过氧化终产物丙二醛(MDA)的产生、提高了DNA-蛋白质交联率(DNA-protein crosslinks,DPC),但在最高浓度(0.08mg.d-1)暴露下,SWCNTs暴露组的影响程度要高于标准碳黑组.说明了SWCNTs暴露可以抑制小鼠肝和肾组织抗氧化系统,从而导致了器官的氧化损伤.并且这种氧化损伤的诱导部分是由于SWCNTs的特殊结构和金属元素的参与.

采用流化床反应器的ACCVD法制备单壁碳纳米管

采用流化床反应器,利用MGO作为催化剂载体,通过乙醇为碳源的化学气相沉积(ACCVD)法合成了单壁碳纳米管(SWCNTS)。该方法是让AR气流直接携带乙醇蒸汽进入反应器,用流化床反应器代替石英舟,使乙醇蒸汽与催化剂混合更加均匀,有利于SWCNTS的生成。采用MGO催化剂载体,易于用浓HCL对产物进行提纯。拉曼光谱和透射电镜(TEM)分析结果表明,通过该方法合成的SWCNTS具有无定型碳含量少、管径均匀等特点。

单壁碳纳米管-CoFe_2O_4双层复合材料的微波吸收特性

通过直流电弧放电法制备了高结晶性单壁碳纳米管(SWCNTs),采用溶胶凝胶自燃法制备CoFe_2O_4,并将两种材料复合制成SWCNTs-CoFe_2O_4双层吸波材料。使用Raman光谱、XRD、SEM、TEM和矢量网络分析仪对SWCNTs和CoFe_2O_4的形貌、结构和电磁性能进行了表征,并利用传输线理论分析了SWCNTs-CoFe_2O_4双层吸波材料在2~18GHz频带内的微波吸收性能。结果表明,相对于单一材料,SWCNTs-CoFe_2O_4双层复合材料的吸波性能得到了极大提高。当CoFe_2O_4作为匹配层、SWCNTs作为吸收层时,通过调节匹配层和吸收层的厚度,SWCNTs-CoFe_2O_4双层复合材料的最强反射损耗可以达到-61.13dB,低于-10dB的吸收带宽达到7GHz(8~15GHz)。因此,SWCNTs-CoFe_2O_4双层复合材料是一种新型的有应用前景的高吸收宽频带吸波材料。

Synthesis of Single-Walled Carbon Nanotubes by Induction Thermal Plasma

The production of high quality single-walled carbon nanotubes(SWCNTs)on a bulk scale has been an issue of considerable interest.Recently,it has been demonstrated that high quality SWCNTs can be continuously synthesized on large scale by using induction thermal plasma technology.In this process,the high energy density of the thermal plasma is employed to generate dense vapor-phase precursors for the synthesis of SWCNTs.With the current reactor system,a carbon soot product which contains approximately 40 wt%of SWCNTs can be continuously synthesized at the high production rate of~100 g/h.In this article,our recent research efforts to achieve major advances in this technology are presented.Firstly,the processing parameters involved are examined systematically in order to evaluate their individual inuences on the SWCNT synthesis.Based on these results,the appropriate operating conditions of the induction thermal plasma process for an effective synthesis of SWCNTs are discussed.A characterization study has also been performed on the SWCNTs produced under the optimum processing conditions.Finally,a mathematical model of the process currently under development is described.The model will help us to better understand the synthesis of SWCNTs in the induction plasma process.