Nafion膜

摘要： 合成了石墨相碳氮纳米片(g-C3N4),并将其与Nafion树脂共混制备了复合膜,发现在膜中加入适量的g-C3N4对提高膜的电导率有显著效果,当膜中g-C3N4含量为Nafion树脂质量的0.25％时,膜在30°C下的电导率从0.074 3S/cm上升到0.110 6 S/cm,这主要是由于纳米片上的碱性基团与树脂上的磺酸根形成了酸碱对,加快了质子传输.将商业化Nafion 211膜与复合膜分别组装成单电池进行性能测试,结果表明,使用复合膜组装成的单电池的最大功率较Nafion 211膜组装成的单电池提高了16.9％,且通过交流阻抗测试(EIS)发现复合膜的电阻明显小于Nafion 211膜,进一步证实了g-C3N4改性Nafion膜的有效性与可行性.

摘要： 电化学法合成氨是一种有希望替代传统Haber-Bosch法的新方法,而开发一种能够高效活化N2分子的催化剂成为电化学法合成氨的关键.采用一步煅烧二氰二胺的方法制备了石墨型氮化碳(g-C3N4),并将Pt纳米颗粒沉积在g-C3N4上制备了Pt/g-C3N4.采用XRD、SEM、TEM以及XPS表征和分析了所得催化剂的晶体结构,表面微观形貌和表面元素组成.分别采用H+型Nation膜和H+/NH;型Nation膜作电解质,研究了Pt/g-C3N4和g-C3N4的催化性能以及Nafion膜中NH4的作用.结果表明,Pt/g-C3 N4和g-C3N4分别作阴极催化剂时均成功合成出NH3,而Pt/g-C3 N4的性能优于g-C3N4.另外,膜中引入NH4+能够促进N2的电化学还原.%Electrochemical ammonia synthesis has been regarded as a promising alternative to the present Haber-Bosch process for ammonia production,and the development of efficient catalyst for N2 reduction is key to the electrochemical method.In this research,g-C3N4 catalyst is prepared by the thermal polycondensation process,and Pt/g-C3N4 catalyst is obtained by reducing Pt onto g-C3N4 nanosheets with ethylene glycol.The phase composition and morphology of the two kinds of catalysts are characterized by XRD,SEM,TEM and XPS.The catalytic performance of Pt/g-C3N4 and g-C3N4 in a polymer electrolyte membrane cell is studied using Nation membranes in H + or H +/NH4+ form,respectively.While both Pt/ g-C3N4 and g-C3N4 show certain activity towards ammonia synthesis from H2 and N2 gases under ambient temperature and pressure,Pt/g-C3 N4 leads to higher ammonia yield under the same conditions.The yield of ammonia appears to be higher with the H +/NH4+-form Nation membrane,suggesting the presence of NH4+ in the membrane,facilitates the electrochemical reduction of nitrogen.

摘要： 目的 从介观角度研究水在全钒液流电池隔膜中的传质特性.方法 采用耗散粒子动力学模拟方法,使用Materials Studio软件构建Nafion膜与水的粗粒化模型,分析了Nafion膜中水通道三维拓扑结构,研究温度、水含量对Nafion膜中水的扩散行为的影响.结果 随水含量的增加,全钒液流电池隔膜中的水团簇逐渐形成相互连接且贯穿的海绵状连续水通道、隔膜中磺酸基配位数增加、水在膜中的扩散系数增大;随着温度升高,水在隔膜中的扩散系数增大;在磺酸基周围配位的水分子大部分分布在0.5 nm范围内.结论 在一定范围内增加水含量和提高温度有利于Nafion膜中的质子传递,可以提高全钒液流电池的性能.%The mass transfer characteristics of water in the membranes of the Vanadium Redox Flow Battery were studied from mesoscopic perspective.The Nafion membrane and water coarsegrained model were constructed by using the dissipative particle dynamics simulation method in the Materials Studio software.The three-dimensional topological structure of water channels in Nafion membrane was analyzed to study the effect of temperature and water content on the diffusion behavior of water in Nafion membrane.The results showed that,with the increase of water content,the interconnection water channels formed in the proton exchange membrane,the number of sulfonic coordination number of acid groups in the membrane and the diffusion coefficient of water in the membrane increased.As the temperature rises,the diffusion coefficient of water in the membrane increases.Most of the water molecules coordinated around the sulfonic acid groups are distributed in the range of 0.5 nm.Conclusion is that increasing the water content and the temperature in a certain range are favorable for the proton transfer in the Nafion membrane,and the performance of the vanadium redox flow battery can be improved.

摘要： Nafion膜具有稳定的性能和良好的质子传导率,但存在阻醇性能差、成本高、不能在高温条件下使用等问题,不仅影响了燃料电池的产电性能还影响了它的使用寿命及转化率等.介绍了Nafion膜的性能特点、应用特点和改良方向,主要介绍了使用简单的物理或化学方法对Nafion膜进行改性、使用增强材料加固、与无机物复合等方面的近期研究概况.总结了部分Nafion膜的改性方法以及实验结果,结果表明在使用支撑材料加固的增强膜中,复合第三种填料的改性方法成效较好.

摘要： 质子交换隔膜取代传统液态电解质应用到燃料电池和新型水电解装置中,膜在其中起着重要作用.长时间运行膜将受到各种损害,如穿孔、脱水、电导率降低以及内部结构的改变,这些都将严重降低设备的运行效率和缩短设备的使用寿命.尽管目前已有大量文献对此做了相关研究,但对膜退化的成因仍不明确.本文综述了国内外相关方面的研究,主要从膜的机械性能、化学及电化学退化方面介绍了引起膜退化的可能原因,最后介绍了杂质离子对膜的影响及其成因.

摘要： Electricity production from brewery wastewater using dual-chamber microbial fuel cells(MFCs) with a tin-coated copper mesh in the anode was investigated by changing the hydraulic retention time(HRT). The MFCs were fed with wastewater samples from the inlet(inflow, MFC-1) and outlet(outflow, MFC-2) of an anaerobic digester of a brewery wastewater treatment plant. Both chemical oxygen demand removal and current density were improved by decreasing HRT. The best MFC performance was with an HRT of 0.5 d. The maximum power densities of 8.001 and 1.843 μW/cm2 were obtained from reactors MFC-1 and MFC-2, respectively. Microbial diversity at different conditions was studied using PCR-DGGE profiling of 16 S rR NA fragments of the microorganisms from the biofilm on the anode electrode. The MFC reactor had mainly Geobacter, Shewanella, and Clostridium species, and some bacteria were easily washed out at lower HRTs. The fouling characteristics of the MFC Nafion membrane and the resulting degradation of MFC performance were examined. The ion exchange capacity, conductivity, and diffusivity of the membrane decreased significantly after fouling. The morphology of the Nafion membrane and MFC degradation were studied using scanning electron microscopy and attenuated total reflection-Fourier transform infrared spectroscopy.

摘要： In order to monitor the CO gas in the environment effectively, a new CO sensor which could work at room temperature was designed and fabricated. The sensor is composed of active carbon filtrated cap, Pt sensing electrode, Nafion membrane, counter electrode, the isolation and reservoir. The design of the reservoir provides the humidity environment that Nafion membrane needed for the normal work. The sensing properties of the sensor are mainly determined by the Pt sensing electrode. The preparing conditions of chemical deposition were mainly investigated. When the concentration of H2 PtCl6 and NaBH4 are 5 mmol/L and 30 mmol/L, respectively, and the pH value of NaBH4 solution is 13, the sensor gave the best sensing performance. The response current is 107 nA, and the response and recovery time are 40 s and 50 s, respectively, when the concentration of CO is 400í10-6 . When the CO volume fraction ranges from 50 ~400í10-6 , the response current value of the sensor has a good linear relationship with the concentration of CO gas.%为有效地对大气环境中的CO气体进行监控,设计和制作了一种可在室温下工作的新型结构Nafion基CO气体传感器。该传感器由活性炭过滤帽、Pt敏感电极、Nafion膜、对电极、分隔层和储水罐等部分组成。储水罐的设计提供了Nafion膜正常工作时所需要的湿度环境。采用化学沉积法在Nafion膜上制备Pt敏感电极的工艺条件。研究结果表明,当反应物 H2 PtCl6溶液浓度为5 mmol/L、还原剂 NaBH4溶液浓度为30 mmol/L, NaBH4溶液的pH值为13时,制作的Pt电极具有最好的气敏特性。对体积分数为400×10-6的CO测试时,响应电流为107 nA,响应时间为40 s,恢复时间为50 s。当CO体积分数在50~400×10-6时,传感器的响应电流值与CO气体浓度具有很好的线性关系。

摘要： 研究了Nafion膜与SPEEK膜两种质子交换膜的含水率、膨胀率、阻钒性能以及在钒液流电池样机中的充放电性能,并结合两种隔膜的基本化学结构对产生这些差异的原因进行了分析.静态测试结果表明.SPEEK膜的含水率、膨胀率大于Nafion膜,其阻钒性能也比Nafion膜好.在钒液流电池样机中的充放电测试结果表明,Nafion膜的质子交换能力优于SPEEK膜.SPEEK膜与Nafion膜性能的差异可能与两者化学骨架结构以及磺化基团差异有关.

摘要： The value of pH is a key chemical parameter in the field of industrial and agricultural production, medicine, environmental protection and other fields. At present, commercial glass pH electrodes have been widely used in soil pH test in the laboratory due to its convenience and reliability. But with turbid and vibrate systems in the filed like on-the-go pH mapping, glass electrode cannot be used because of its brittleness of the glass membrane, sluggish response, which are difficult to miniaturize and planarize based on current manufacturing technologies. In this work, a simple, flexible, inexpensive and effective way to make bilayer membrane modified antimony pH electrode was presented and one pH tester was developed. The surface of the obtained antimony wire was oxidized in sodium dioxide melt to fabricate an antimony oxide film for pH sensing as first layer. The second layer was Nafion membrane with selective characteristics, which was coated after the first layer. The sensing response and open-circuit potential of the electrode had a good linear relationship (R2=0.997) with pH value in the test solution, which also exhibited small hysteresis, fast response than that of bare antimony pH electrode. The open-circuit potential of the electrode was almost drift-free, with an average variation as small as 0.1mV over an hour. Ion interference experiment showed that this electrode has good selectivity with common ions (Na+, K+, Ca2+, Cl-, Br-) in soil, redox ion([Fe(CN)6]3-, [Fe(CN)6]4-) and citrate ions ( C6H5O73-). The bilayer membrane modified antimony pH electrode and the Ag/AgCl reference electrode as sensor were employed to pH tester, which was designed based on 16 bit low power consumption microcontroller (Sunplus SPCE061A). Tester readings in soil turbid solution under controlled in the lab were compared with the data obtained by standard protocols of soil. The tests demonstrated a high degree of linearity between standard laboratory values and turbid soil solution sensor values, the absolute value of maximum error was less than 0.075, the absolute value of relative error was less than 1.342%. The double membrane modified antimony pH electrode testing instrument would be suitable for in situ and continuous pH measurement in many applications.%　　pH值是工农业生产、医学检验和环境保护等领域十分重要的化学参数.针对目前农业生产中玻璃电极及其测试仪存在影响因素多、测量误差大等不足,依据锑pH电极敏感机理和全氟磺酸树脂(Nafion)修饰膜选择性透过特性,应用16位低功耗微控制器(单片机)凌阳 SPCE061A 研制一种经双层膜修饰锑pH测试仪.通过对电极性能测定试验和pH测试仪土壤pH检测试验,结果表明：在pH值为1~12,电极输出电势E与pH值线性度好,相关系数R2为0.997,具有响应快、回差小、抗干扰能力强等优点；pH测试仪在测定土壤浑浊液pH值时,误差绝对值小于0.075,相对误差绝对值小于1.342%,在工农业生产中具有广阔应用前景.

摘要： 电化学检测一般需加入电解质以降低溶液电阻,为解决天然药在层析纯化检测中无支持电解质的问题,研制了一种以液体石蜡石墨为工作电极的电化学在线检测器,利用了Nafion N-324膜固体酸的性质,在不额外添加电解质的情况下,直接获得了杨梅素80％乙醇溶液(V/V)的循环伏安图.在恒电位0.53 V下,实现了对层析液中有效物质的电化学在线检测.在2×10-5～1×10-2 mol/L范围内,峰面积(A)与杨梅素浓度(C)存在线性关系.线性方程为A=2.7227C+0.4341.r=0.9976.在恒电位0.62 V无支持电解质的80％乙醇溶液中,对30％竹叶黄酮粗提品纯化过程的在线检测,获得了时间-电流信号的流出曲线,可用于实际样品分析.%Electrolyte is always added to decrease the resistance of solution during the electrochemical detection. An online electrochemical detector based on paraffin-graphite powder electrode was developed, because the chromatographic detection of active ingredients of natural medicine usually has no electrolyte. The cyclic voltammograms of myricetin (80%, V/V) ethanol-water as mobile phase) is obtained directly without any additional electrolyte by utilizing the solid acid characteristic of nafion N-324 membrane in this micro-gap flow cell. Peristaltic pump stimulates the chromatographic process, and then it realizes the online detection of eletroactive substances in the cluent at 0. 53 V. Peak area is linear with the Myricetin concentration between 0. 2×10-4 and 10×10-4 mol/L, and the linear equation is A = 2. 7227C+0. 4341, r=0. 9976. Furthermore, this detector achieves the online detection of 30% AOB (antioxidant of bamboo leaves) purified by macro porous resin without any supporting electrolyte in 80% (V/V) ethanol-water at 0. 62V, and the amperometric it curve during the purification process is presented. As a result, this detector can be developed for application.

摘要： 在线氚甄别测量中,甄别装置的甄别性能直接决定着测量数据的准确性和可靠性.本文基于Nafion膜进行了氚甄别测量的试验研究,分别在HTO、HT以及HTO+HT气氛下进行了试验,详细分析了气体瞬时流量、温度等条件对甄别性能的影响.结果表明,HTO在Nafion膜中的渗透率很容易达到90％以上,HT在Nafion膜中的渗透率小于0.19％.在适当的温湿度及气体流量条件下,一级Nafion干燥器在氚甄别测量中对HTO有99％以上的分离效果,HTO对HT的甄别比达106以上.

摘要： 在线氚甄别测量中,甄别装置的甄别性能直接决定着测量数据的准确性和可靠性.本文基于Nafion膜进行了氚甄别测量的试验研究,分别在HTO、HT以及HTO+HT气氛下进行了试验,详细分析了气体瞬时流量、温度等条件对甄别性能的影响.结果表明,HTO在Nafion膜中的渗透率很容易达到90％以上,HT在Nafion膜中的渗透率小于0.19％.在适当的温湿度及气体流量条件下,一级Nafion干燥器在氚甄别测量中对HTO有99％以上的分离效果,HTO对HT的甄别比达106以上.

摘要： 在线氚甄别测量中,甄别装置的甄别性能直接决定着测量数据的准确性和可靠性.本文基于Nafion膜进行了氚甄别测量的试验研究,分别在HTO、HT以及HTO+HT气氛下进行了试验,详细分析了气体瞬时流量、温度等条件对甄别性能的影响.结果表明,HTO在Nafion膜中的渗透率很容易达到90％以上,HT在Nafion膜中的渗透率小于0.19％.在适当的温湿度及气体流量条件下,一级Nafion干燥器在氚甄别测量中对HTO有99％以上的分离效果,HTO对HT的甄别比达106以上.

摘要： 在线氚甄别测量中,甄别装置的甄别性能直接决定着测量数据的准确性和可靠性.本文基于Nafion膜进行了氚甄别测量的试验研究,分别在HTO、HT以及HTO+HT气氛下进行了试验,详细分析了气体瞬时流量、温度等条件对甄别性能的影响.结果表明,HTO在Nafion膜中的渗透率很容易达到90％以上,HT在Nafion膜中的渗透率小于0.19％.在适当的温湿度及气体流量条件下,一级Nafion干燥器在氚甄别测量中对HTO有99％以上的分离效果,HTO对HT的甄别比达106以上.

摘要： 为了研究Nafion膜的微细观结构及其输运特性,本文针对目前广为采用的Nafion 117 膜并基于Materials Studio (MS)软件平台构建了一种分子动力学计算模型,在温度分别为300K和353K时,对其实施了计算,得到了不同含水量下Nafion 117 膜的元胞结构,膜元胞密度的模拟值与相关实验值吻合较好，且模拟结果表明:温度高时,膜体积膨胀,密度降低;同时研究了温度对水分子和水合氢离子在膜内的扩散系数的影响,同一水含量下温度越高水分子和水合氢离子的扩散系数越大.

摘要： 为了研究Nafion膜的微细观结构及其输运特性,本文针对目前广为采用的Nafion 117 膜并基于Materials Studio (MS)软件平台构建了一种分子动力学计算模型,在温度分别为300K和353K时,对其实施了计算,得到了不同含水量下Nafion 117 膜的元胞结构,膜元胞密度的模拟值与相关实验值吻合较好，且模拟结果表明:温度高时,膜体积膨胀,密度降低;同时研究了温度对水分子和水合氢离子在膜内的扩散系数的影响,同一水含量下温度越高水分子和水合氢离子的扩散系数越大.

摘要： 为了研究Nafion膜的微细观结构及其输运特性,本文针对目前广为采用的Nafion 117 膜并基于Materials Studio (MS)软件平台构建了一种分子动力学计算模型,在温度分别为300K和353K时,对其实施了计算,得到了不同含水量下Nafion 117 膜的元胞结构,膜元胞密度的模拟值与相关实验值吻合较好，且模拟结果表明:温度高时,膜体积膨胀,密度降低;同时研究了温度对水分子和水合氢离子在膜内的扩散系数的影响,同一水含量下温度越高水分子和水合氢离子的扩散系数越大.

摘要： 为了研究Nafion膜的微细观结构及其输运特性,本文针对目前广为采用的Nafion 117 膜并基于Materials Studio (MS)软件平台构建了一种分子动力学计算模型,在温度分别为300K和353K时,对其实施了计算,得到了不同含水量下Nafion 117 膜的元胞结构,膜元胞密度的模拟值与相关实验值吻合较好，且模拟结果表明:温度高时,膜体积膨胀,密度降低;同时研究了温度对水分子和水合氢离子在膜内的扩散系数的影响,同一水含量下温度越高水分子和水合氢离子的扩散系数越大.

摘要： 为了研究Nafion膜的微细观结构及其输运特性,本文针对目前广为采用的Nafion 117 膜并基于Materials Studio (MS)软件平台构建了一种分子动力学计算模型,在温度分别为300K和353K时,对其实施了计算,得到了不同含水量下Nafion 117 膜的元胞结构,膜元胞密度的模拟值与相关实验值吻合较好，且模拟结果表明:温度高时,膜体积膨胀,密度降低;同时研究了温度对水分子和水合氢离子在膜内的扩散系数的影响,同一水含量下温度越高水分子和水合氢离子的扩散系数越大.

摘要： 为了研究Nafion膜的微细观结构及其输运特性,本文针对目前广为采用的Nafion 117 膜并基于Materials Studio (MS)软件平台构建了一种分子动力学计算模型,在温度分别为300K和353K时,对其实施了计算,得到了不同含水量下Nafion 117 膜的元胞结构,膜元胞密度的模拟值与相关实验值吻合较好，且模拟结果表明:温度高时,膜体积膨胀,密度降低;同时研究了温度对水分子和水合氢离子在膜内的扩散系数的影响,同一水含量下温度越高水分子和水合氢离子的扩散系数越大.

摘要： 本发明人提出了一种基于Nafion膜的表面改性方法和Cs-HPW表面改性的Nafion膜。通过利用磷钨酸与碳酸铯(Cs

摘要： 本发明属于化工和电催化技术领域，一种用盐桥取代Nafion膜的电催化氮还原合成氨的装置及其方法，其中装置，包括盛有电解液的阳极池和阴极池，阳极池内部悬挂有阳极板并浸没于电解液中，阳极板通过导线与电源正极相连，阴极池内部悬挂有阴极板和参比电极并浸没于电解液中，阴极池内部设置有氮气通入管路并浸于电解液中，阴极池顶部还设置有气体出口，阴极板通过导线与电源负极相连，所述盛有电解液的阳极池和阴极池通过盐桥连接。本发明具有以下优点，一是可消除氨在Nafion膜上的扩散、吸附对氨浓度测定的影响，实现催化剂的客观精准评价。二是可实现NRR过程的长期稳定性操作。三是与Nafion膜相比，成本降低。

摘要： 本发明公开了一种含交联型磺化POSS的Nafion基复合质子交换膜、制备方法及其应用。本发明以Nafion为基体，以双功能化笼型倍半硅氧烷（Vi‑POSS‑SO3Na）为性能增强成分；通过溶液共混，刮涂烘干成膜，再加热交联。复合膜中的Vi‑POSS‑SO3Na之间发生热交联，原位热交联形成POSS‑SO3Na纳米块。再经酸化处理后，形成X‑Nafion@POSS复合膜。本发明制备方法简单，原料易得，但对复合质子交换膜的性能有巨大提升，甲醇渗透率最高可以下降约50%。较Nafion重铸膜相比，阻醇性能高，热稳定性和抗氧化能力强，力学性能及尺寸稳定性好，在甲醇燃料电池中具有广阔的应用前景。

摘要： 本发明提供一种Nafion/g‑C3N4复合膜及其制备方法与应用，具体表现为将一种质子化氮化碳与Nafion树脂复合制备复合膜，属于质子交换膜燃料电池技术领域。本发明先将Nafion树脂溶解在高沸点溶剂中，然后再向Nafion溶液中加入分散好的g‑C3N4悬浮液，搅拌、超声均匀，倒入模具中，在一定温度下烘干成膜，得到复合膜。掺杂了g‑C3N4的复合膜电导率有明显提高，且单电池极化性能优于商业化Nafion 211膜。

摘要： 本发明人提出了一种基于Nafion膜的表面改性方法和Cs-HPW表面改性的Nafion膜。通过利用磷钨酸与碳酸铯(Cs

摘要： 本发明属于燃料电池质子交换膜领域，公开了一种用于高温低湿质子交换膜燃料电池的Nafion复合膜及其制备和应用。该复合膜的制备包括以下步骤：首先采用重氮盐加成反应和原子转移自由基聚合技术在石墨烯表面接枝含有唑类基团和亲水性基团的共聚物，制备共聚物接枝石墨烯，然后将共聚物接枝石墨烯Nafion复合，得到复合膜。共聚物表面的唑类基团可与Nafion基体中的磺酸基团在Nafion‑石墨烯界面处形成的高效连续子传递通道，亲水基团可增加Nafion膜的保水性能，具有二维层状结构的石墨烯可阻挡甲醇分子的扩散，因此可解决Nafion质子交换膜的高温低湿条件下质子传导率下降和甲醇燃料渗透高的共性关键科学问题。

摘要： 本发明公开了一种仿Nafion主侧链化学结构阴离子交换膜的制备方法，首先合成全氟聚二联苯亚烷高分子聚合物以及带有多烷基醚键长链的羟基哌啶季铵盐白色固体；然后将NaH和四丁基溴化铵(TBAB)溶于DMSO中，N2气氛下，滴加所述羟基哌啶季铵盐的二甲基亚砜溶液，50‑60°C条件下反应2‑3h，随后滴加所述全氟聚二联苯亚烷高分子聚合物的二甲基亚砜溶液，50‑60°C反应6‑10h，用乙醇沉淀并洗涤数次，干燥后得到目标树脂，采用极性溶剂溶解后倒入聚四氟乙烯模盘中，干燥成膜得到全氟聚二联苯亚烷键接多烷基醚键侧链哌啶季铵盐阴离子交换膜。

摘要： 本发明公开了一种基于Pt/C/Nafion膜电极的燃料电池型传感器的制备方法，将Nafion膜预处理；将氯化锡二水合物和柠檬酸钠二水合物加入到去离子水中搅拌，滴加氢氧化钠溶液后加入氯铂酸溶液，将混合液转移至反应釜内密封置于微波炉内反应，反应后过滤并将沉淀干燥后煅烧，制得活性粉末，将活性粉末和无水碳酸钠、乙二醇、炭粉、维生素E、金粉混合，制得催化剂；将纯水、冰乙酸、异丙醇、Nafion溶液和催化剂混合，搅拌处理、超声处理，制得浆料；将Nafion膜固定，采用膜电极喷涂仪进行喷涂，制得膜电极；将储水罐装满水，在储水罐上放置集电层、膜电极和扩散帽，采用密封胶密封，制得传感器。本发明提供的传感器在室温下正常工作，功耗低，精度高，环保无污染，稳定性佳。

摘要： 本发明公开了一种导电聚苯胺/氧化石墨烯修饰的Nafion复合质子交换膜及其应用。首先将氧化石墨烯分散至盐酸中，在冰水浴下加入聚乙烯吡咯烷酮进行搅拌，使其所得溶液温度为0°C；然后加入过硫酸铵继续搅拌，接着加入导电聚苯胺搅拌反应；反应后经处理得到导电聚苯胺/氧化石墨烯复合材料；所得复合材料分散至异丙醇水溶液中，然后加入Nafion树脂继续分散，分散后加入溴化亚铜、过氧化氢和硫酸，然后进行水热反应；所得产物依次进行洗涤、浇铸成膜和真空干燥，得到导电聚苯胺/氧化石墨烯修饰的Nafion复合质子交换膜。本发明所得产品能够有效解决现有技术中Nafion膜选择性相对较差的问题，同时强化了质子传导能力。

摘要： 本发明公开了一种基于Nafion膜的柔性超级电容器及其制备方法。柔性超级电容器包括正极、负极和Nafion隔膜，正极和负极均为Nafion掺杂的导电聚合物。其制备方法包括：a)Nafion掺杂导电聚合物材料的制备；b)电极片的制备；c)基于Nafion膜的柔性超级电容器的制备。与现有技术相比，本发明具有如下优点：基于Nafion膜的柔性超级电容器中Nafion膜具有隔膜和电解质的作用，减少基于Nafion膜的柔性超级电容器的部件，组装更方便；基于Nafion膜的柔性超级电容器中电极材料为Nafion掺杂的导电聚合物，Nafion的掺杂能够扩展电化学界面，提高导电聚合物利用率。