PEDOT∶PSS/石墨烯复合纤维的制备及其电化学性能研究

为了更好地实现石墨烯基纤维在柔性可穿戴储能器件领域的应用,采用改进的Hummers法制备氧化石墨烯水分散液与聚(3,4-亚乙二氧基噻吩)-聚(苯乙烯磺酸)(PEDOT∶PSS)分散液制备一定浓度的复合纺丝液;以氯化钙溶液为凝固浴,通过湿法纺丝技术制备不同比例的PEDOT∶PSS/氧化石墨烯复合纤维,经氢碘酸还原获得PEDOT∶PSS/石墨烯复合纤维。对PEDOT∶PSS/石墨烯复合纤维的结构形貌进行表征,PEDOT/PSS质量分数为20%时复合纤维的直径约为95μm,表面具有褶皱卷曲的形貌。以PEDOT∶PSS/石墨烯复合纤维组装柔性超级电容器,在不同凝胶电解质体系中进行电化学性能评价。结果表明,PEDOT∶PSS质量分数为20%的PEDOT∶PSS/石墨烯复合纤维在PVA/H_(2)SO_(4)凝胶电解质体系中的电化学性能最佳;当电流密度为0.14 mA/cm^(-2)时,面积比电容为420.7 mF/cm^(2),能量密度为9.35μW h/cm^(2),表现出良好的电化学性能,可为温湿度计供电,并显现出在智能可穿戴储能器件中的潜在应用前景。

PEDOT∶PSS导电聚合物纤维的制备及热电性能研究

以导电聚合物聚(3,4乙撑二氧噻吩)∶聚(苯乙烯磺酸)(PEDOT∶PSS)为原料,通过添加离子液体调控纤维性能,利用湿法纺丝制备出具有较高机械强度、高导电性和良好热电输出特性的多功能PEDOT∶PSS纤维,并考察了离子液体含量及喷丝头直径对纤维性能的影响。结果表明:离子液体含量为2%(质量分数)时,PEDOT∶PSS纤维断裂强度和电导率分别为196MPa、2054S/cm,功率因数达到80μW/(m·K^(2)),塞贝克系数超过20μV/K,最大功率为3.5nW;随着喷丝头直径的增加,纤维的断裂强度下降但断裂伸长率提高,喷丝头直径为0.25mm时纤维的断裂强度达到254MPa,电导率为2465S/cm;喷丝头直径为0.58mm时纤维断裂伸长率达到23%。

基于MSSA的PSS与UPFC-POD参数和UPFC位置协调优化

针对风火打捆(wind-thermal-bundled,WTB)系统在受到干扰时可能由于阻尼不足而出现的低频振荡现象以及较高的网损会导致运行成本的增加和阻碍“双碳”目标实现的问题,提出了一种电力系统稳定器(power system stabilizer,PSS)与统一潮流控制器(unified power flow controller,UPFC)附加功率振荡阻尼控制器(power oscillation damping,POD)参数和UPFC安装位置协调优化策略方法。首先,基于Matlab构建了风火打捆外送系统和控制器模型。然后,利用多目标樽海鞘优化算法(multi-objective salp swarm algorithm,MSSA),将协调优化问题转化为多目标优化问题。目标函数设计中考虑了UPFC装置的调节特性。最后,采用IEEE 4机2区系统和16机5区系统进行多种工况下的仿真。仿真结果显示,协调优化后的控制器可以提高系统阻尼,维持发电机转速的稳定,抑制低频振荡引起的系统有功、电压等的波动,同时降低了系统的有功网损,提高了系统稳定性和运行经济性。MSSA在工程问题上的应用得到了补充。

LiCl掺杂PEDOT∶PSS提高蓝光量子点发光二极管的性能

基于全溶液制备的量子点发光二极管(QLEDs)通常存在电子-空穴注入不平衡的问题,严重地限制了蓝光QLEDs器件性能的提升。本文研究了不同浓度的金属卤化物(Li Cl)掺杂对聚(乙烯二氧噻吩)∶聚苯乙烯磺酸盐(PEDOT∶PSS)薄膜的形貌、导电率、透光性以及所制备QLEDs器件性能的影响规律。实验结果表明,Li Cl的掺杂浓度(质量分数)为2%时蓝光QLED器件性能的提升效果最佳,这主要归因于Li Cl掺杂后的PEDOT∶PSS薄膜导电率和透光性的增强以及器件中空穴注入效率的提高。相较于未掺杂的PEDOT∶PSS基QLED器件,基于Li Cl掺杂的蓝光QLED器件的最大亮度、峰值电流效率、峰值功率效率和峰值外量子效率分别从5 083 cd·m^(-2)、0.91 cd·A^(-1)、0.59 lm·W^(-1)和2.31%提升到7 451 cd·m^(-2)、1.38 cd·A^(-1)、0.89 lm·W^(-1)和3.51%。结果表明,采用Li Cl掺杂PEDOT∶PSS空穴注入层是提高蓝光QLED性能的一种有效策略。

基于模糊MACBETH和生态位理论的PSS方案评价方法

针对多属性决策方法与生态位理论结合的PSS评价方法权重确定过程中一致性检验繁琐、权重计算过程复杂和未考虑评价语义的模糊性的问题,模糊MACBETH用于确定客户价值的权重和客户体验阶段提供客户价值的重要性系数;该方法无须复杂的计算过程,利用三角模糊数处理语义的模糊性且依托软件系统自动检验一致性,提高了评价效率和准确度。针对生态位优势仅适用于完全竞争状态的优势计算,将生态位重叠与生态位优势结合,提出的竞争优势公式可以体现方案间竞争程度和生态位优势表示方案间的竞争优势的优点,反映方案间真实的竞争状态。最后以某新能源汽车制造企业PSS方案评价问题为例验证了所提方法的有效性。

基于机械剥离制备的PEDOT:PSS/β-Ga_(2)O_(3)微米片异质结紫外光电探测器研究

β-Ga_(2)O_(3)具有超宽带隙(约4.9 eV)、高的击穿电场(约8 MV/cm)、良好的化学稳定性和热稳定性等优点,是一种很有前途的制备紫外光电探测器的候选材料.由于未掺杂的β-Ga_(2)O_(3)为n型导电,所以制备p型β-Ga_(2)O_(3)面临很多困难,从而制约了同质PN结的开发与应用.聚(3,4-乙烯二氧噻吩)-聚苯乙烯磺酸(PEDOT:PSS)是一种p型导电聚合物,在250—700 nm有着较高的透明度,采用p型有机材料PEDOT:PSS和n型β-Ga_(2)O_(3)构成的异质结可能为PN结型光电器件的研制提供一种途径.本文利用机械剥离法从β-Ga_(2)O_(3)单晶衬底上剥离出单根β-Ga_(2)O_(3)微米片,微米片的长度为4 mm,宽度为500μm,厚度为57μm.将有机材料PEDOT:PSS涂覆在剥离出来的微米片的一侧制备出PEDOT:PSS/β-Ga_(2)O_(3)无机-有机异质结的紫外光电探测器,器件表现出典型的整流特性,而且发现器件对254 nm紫外光敏感,具有良好的自供电性能.该异质结紫外探测器的响应度和外量子效率分别为7.13 A/W和3484%,上升时间和下降时间分别为0.25 s和0.20 s.此外,3个月后器件对254 nm紫外光的探测性能并未发现明显的衰减现象.本文的相关研究工作将对研发新型紫外探测器提供了新的思路和理论基础.

High‑Performance and Long‑Term Stability of MXene/PEDOT:PSS‑Decorated Cotton Yarn for Wearable Electronics Applications

High-performance wearable electronics are highly desirable for the development of body warming and human health monitoring devices.In the present study,high electrically conductive and photothermal cotton yarns(CYs)with long-term stability were prepared as wearable electronics.The process contains back-to-back decoration of the fiber surface by Ti_(3)C_(2)T_(x)(MXene)nanosheets,and the poly(3,4-ethylenedioxythiophene)polystyrene sulfonate(PEDOT:PSS)composite,to form a core–shell structure(MP@CY).The addition of a small amount of PEDOT:PSS plays a dual role of protecting the MXene from oxidation and increasing the electrical conductivity.The resulting yarn exhibits excellent electrical conductivity(21.8Ωcm^(−1)),rapid electrothermal response,and superb photothermal conversion capability,supporting its application as an optical/electrical dual-drive heater.A three-dimensional(3D)honeycomb-like textile wearable heater based on MP@CY as weft yarn demonstrates outstanding electrical thermal properties(0–2.5 V,30–196.8°C)and exceptional photothermal conversion(130 mW cm^(−2),64.2°C).Using an Internet of Things(IoT)microcontroller and Espressif(ESP)electronics chip,which are combined with wireless fidelity(Wi-Fi)and smartphone,real-time visualization and precise control of the temperature interface can be achieved.Furthermore,MP@CY-based knitted sensors,obtained by hand-knitting,are utilized for monitoring human movement and health,exhibiting high sensitivity and long-term cycling stability.

PEDOT∶PSS/MXene复合电极基界面电容式应力传感器

针对复杂的制备方法,以及传统电容式压力传感器容量和灵敏度较低导致难以抵御温度、湿度、弯曲等因素带来的干扰,采用层状MXene和聚(3,4-乙二氧基噻吩)∶聚苯乙烯磺酸盐(PEDOT∶PSS)制备具有褶皱结构的复合电极。通过与1-乙基-3-甲基咪唑双三氟甲磺酰亚胺盐(EMIM-TFSA)离子液体介电层的结合,构建了电容式应力传感器。导电材料PEDOT∶PSS与MXene质量比为1∶1时,分别在0~50 kPa和50~200 kPa压力效应区间内实现了高达603和91.66 kPa^(-1)的线性灵敏度,具有快速的响应时间(仅需33 ms)以及优异的循环稳定性(至少4000次)。此外,该传感器在人体脉搏监测方面展现出实时、准确的特点,为可穿戴设备领域提供了新的发展思路。

一种基于ISRSAC⁃PSS的顺序聚合签名算法

聚合签名算法允许多个签名被压缩成一个单一的签名,从而提高签名的效率和隐私性。基于PSS(Probabilistic Signature Scheme)算法的顺序聚合签名算法是一种高效的签名方案,具有减少签名数据量、提升验证效率以及支持顺序化处理的特点,然而这种方案在安全性保证和算法实现上可能面临挑战。因此,本文基于ISRSAC⁃PSS(Identity⁃based Sequential RSA with PSS)签名算法,采用身份基础和伪随机序列生成技术,提出一种顺序聚合签名算法,算法具有高效的数据压缩、顺序处理能力和增强安全性的特点,可以被证明是安全的,在自适应选择明文攻击下,算法安全性保持良好。通过分析得出,该算法与基于PSS算法的可证明安全顺序聚合签名算法的效率接近且安全性更高。

PEDOT:PSS复合涤/棉导电非织造布的制备及其性能

为制备具有良好导电性能和使用性能的非织造布,利用原位聚合的方法在涤/棉非织造布上原位生长致密的聚(3,4-乙撑二氧噻吩):聚苯乙烯磺酸钠(PEDOT:PSS)导电聚合物,探究掺杂剂体积占比、氧化剂体积占比等工艺参数对导电非织造布性能的影响。实验结果表明:PSS∶过硫酸铵(APS)∶EDOT的比例为2∶1.5∶1、聚合时间为10 h为最佳工艺,制备的导电非织造布的电导率最高为29.044 mS/cm;最佳制备工艺下导电非织造布的断裂强力为20.18 N,伸长率为85.23%;导电织物耐洗涤性良好,透气率可达329.19 mm/s,为导电非织造布在柔性电子中的应用提供参考。

基于PSS+PXF的ISF高精度振荡器噪声分析模型

提出了一种基于PSS+PXF的ISF的相位噪声模型,用于预测振荡器的相位噪声。该模型相对传统的拉扎维模型考虑了振荡器的非线性时变特性,因此更加精确。通过仿真验证了该模型的有效性,基于PSS+PXF的ISF的相位噪声模型精度相比传统拉扎维模型提升200%以上。

基于GA⁃BP的多目标PEDOT∶PSS导电非织造布性能优化

针对聚(3,4-乙撑二氧噻吩)∶聚(苯乙烯磺酸)(PEDOT∶PSS)导电非织造布存在导电性能不稳定和机械性能较差等问题,采用神经网络模型对PEDOT∶PSS导电非织造布进行性能优化。通过收集PEDOT∶PSS导电非织造布的试验数据,作为GA-BP神经网络的输入和输出,并建立针对PEDOT∶PSS导电聚合物配比的优化模型。结果表明:制备PEDOT∶PSS导电非织造布的最佳工艺参数为EDOT与PSS摩尔比例0.3345、过硫酸铵浓度0.0297 mol/L、硫酸铁浓度0.0487 mol/L、盐酸质量分数6.9630%,此时导电非织造布电导率为6.713 S/m,非织造布拉伸断裂强度为4.581 MPa。制备的PEDOT∶PSS导电非织造布经过20 min摩擦后,电导率由6.329 S/m下降到5.348 S/m;经过60 min水洗后电导率由6.536 S/m下降到5.435 S/m,且下降趋势缓慢。认为:所制备的导电非织造布具有良好的稳定性及耐用性。

PEDOT:PSS在压阻式柔性压力传感器中的应用研究进展

随着智能化技术及物联网的不断发展,柔性压力传感器作为可穿戴电子设备和电子皮肤的核心器件,拥有了越来越广阔的市场。为了获得高性能的柔性压力传感器,研究者们在传感器的材料、结构及器件设计等方面进行一系列的创新型研究工作。聚(3,4-乙撑二氧噻吩):聚苯乙烯磺酸盐(PEDOT:PSS)是一种应用广泛的导电聚合物。由于其高导电性,易于加工和生物相容性而受到了极大的关注。作为一种灵活的多用途材料,PEDOT:PSS可以发展成各种形式,并对新兴的传感应用产生了重大影响。本文综述了近年来PEDOT:PSS在柔性压阻传感器中的应用研究的最新进展,并介绍了PEDOT:PSS在压阻传感器中的应用及这些传感器性能提高的方法和机理。

PEDOT:PSS在超级电容器上的应用研究进展

近年来,能源危机不断加剧,可持续再生能源得到了巨大发展。电化学储能技术是收集、存储这类能源的重要技术之一。电化学储能器件中最有代表性的两类是超级电容器和锂离子电池。相比锂离子电池,超级电容器具有更高的功率密度、出色的电荷储存能力、高安全性、长循环寿命和出色的环境适应性。因此,超级电容器作为一种环保可持续的新型储能装置备受关注。电极材料是决定超级电容器性能的关键因素。导电聚合物聚(3,4-乙烯二氧噻吩):聚苯乙烯磺酸(PEDOT:PSS)具有高导电性、可溶液加工、较高的热稳定性、环境友好和安全等特点,因此作为超级电容器电极材料备受关注。

High Thermoelectric Performance and Flexibility in Rationally Treated PEDOT:PSS Fiber Bundles

Organic thermoelectric fibers have great potential as wearable thermoelectric textiles because of their one-dimensional structure and high flexibility.However,the insufficient thermoelectric performance,high fabrication cost,and mechanical fragility of most organic thermoelectric fibers significantly limit their practical applications.Here,we employ a rapid and cost-effective wet-spinning method to prepare dimethyl sulfoxide-doped poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate)(PEDOT:PSS)fiber bundles,followed by rational post-treatment with concentrated sulfuric acid(98%H_(2)SO_(4))to enhance their thermoelectric performance.The wearable fiber bundles composed of multiple individual PEDOT:PSS fibers have effectively reduced resistance and overall high tensile strength and stability.Rational treatment with H_(2)SO_(4)partially removes excessive PSS,thereby increasing the electrical conductivity to 4464 S cm‒1,while the parallel bundle is also a major factor in improving the power factor of up to 80.8μW m^(‒1)K^(‒2),which is super-competitive compared with those of currently published studies.Besides,the thermoelectric device based on these fiber bundles exhibits high flexibility and promising output power of 2.25 nW at a temperature difference of 25 K.Our work provides insights into the fabrication of all-organic flexible high-conductivity textiles with high thermoelectric properties.

Ultrafast Laser-Induced Excellent Thermoelectric Performance of PEDOT:PSS Films

Because poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonate)(PEDOT:PSS)is water processable,thermally stable,and highly conductive,PEDOT:PSS and its composites have been considered to be one of the most promising flexible thermoelectric materials.However,the PEDOT:PSS film prepared from its commercial aqueous dispersion usually has very low conductivity,thus cannot be directly utilized for TE applications.Here,a simple environmental friendly strategy via femtosecond laser irradiation without any chemical dopants and treatments was demonstrated.Under optimal conditions,the electrical conductivity of the treated film is increased to 803.1 S cm^(-1)from 1.2 S cm^(-1)around three order of magnitude higher,and the power factor is improved to 19.0μW m^(-1)K^(-2),which is enhanced more than 200 times.The mechanism for such remarkable enhancement was attributed to the transition of the PEDOT chains from a coil to a linear or expanded coil conformation,reduction of the interplanar stacking distance,and the removal of insulating PSS with increasing the oxidation level of PEDOT,facilitating the charge transportation.This work presents an effective route for fabricating high-performance flexible conductive polymer films and wearable thermoelectric devices.

GB/T 20986-2023在PSS民航旅客服务系统业务场景下的应用实践

围绕PSS(Passengers Services System)民航旅客服务系统在需求、设计、编码、测试、部署、应急预案及应急演练等软件开发生命周期的需求,遵循GB/T 20986—2023《信息安全技术网络安全事件分类分级指南》国家标准,通过将标准核心内容应用于业务场景进行实践,有效支撑了网络安全相关法律法规政策标准的落地实施,促进了企业内部各相关方达成共识,统一了对网络安全事件的认知,提升了软件开发生命周期各环节的安全合规能力,提高了软件安全能力和应急处理效率。

某垃圾发电电厂两机无刷励磁系统PSS试验仿真分析

以某35 MW垃圾发电机组励磁系统为研究对象,建立了完整的两机无刷励磁系统数学模型,同时使用某仿真平台建模,搭建了两机无刷励磁系统仿真模型,并对建立的模型进行了PSS投退工况下的仿真研究,对比分析了现场试验得到的实际波形与仿真结果,两者比较接近,验证了所建模型的有效性以及建模工作的必要性。

Self-powered PEDOT:PSS/Sn:α-Ga_(2)O_(3) heterojunction UV photodetector via organic/inorganic hybrid ink engineering

In this work,a PEDOT:PSS/Sn:α-Ga_(2)O_(3) hybrid heterojunction diode(HJD)photodetector was fabricated by spin-coat-ing highly conductive PEDOT:PSS aqueous solution on the mist chemical vapor deposition(Mist-CVD)grown Sn:α-Ga_(2)O_(3) film.This approach provides a facile and low-cost p-PEDOT:PSS/n-Sn:α-Ga_(2)O_(3) spin-coating method that facilitates self-powering per-formance through p-n junction formation.A typical type-Ⅰheterojunction is formed at the interface of Sn:α-Ga_(2)O_(3) film and PEDOT:PSS,and contributes to a significant photovoltaic effect with an open-circuit voltage(Voc)of 0.4 V under the 254 nm ultra-violet(UV)light.When operating in self-powered mode,the HJD exhibits excellent photo-response performance including an outstanding photo-current of 10.9 nA,a rapid rise/decay time of 0.38/0.28 s,and a large on/off ratio of 91.2.Additionally,the HJD also possesses excellent photo-detection performance with a high responsivity of 5.61 mA/W and a good detectivity of 1.15×1011 Jones at 0 V bias under 254 nm UV light illumination.Overall,this work may explore the potential range of self-pow-ered and high-performance UV photodetectors.

PEDOT:PSS/Fe_(3)O_(4)复合薄膜的制备及其超电容性能研究

以价格低廉的Fe_(3)O_(4)纳米颗粒为填料,聚(3,4-乙烯二氧噻吩):聚(苯乙烯磺酸)(PEDOT:PSS)为基材制备复合材料,并采用高氯酸(HClO4)对其进行后处理,获得PEDOT:PSS/Fe_(3)O_(4)柔性自支撑薄膜。利用扫描电子显微镜(SEM)、X-射线衍射仪(XRD)、X射线电子能谱(XPS)、拉曼光谱(Raman)对复合薄膜进行形貌和结构表征,并采用循环伏安(CV)和恒电流充放电(GCD)对其进行电化学性能分析。结果表明:经酸处理的PEDOT:PSS/Fe_(3)O_(4)复合薄膜表面粗糙,电化学性能得到较大提升,且倍率性能较好。在1 A/g时,放电比电容可达106 F/g,远远超出PEDOT:PSS原始膜和未处理的PEDOT:PSS/Fe_(3)O_(4)复合薄膜;在10 A/g时,放电比电容能够保持在81 F/g。