氧化石墨烯/聚吡咯插层复合材料的制备和电化学电容性能

以FeCl₃-甲基橙(MO)为模板, 通过化学原位聚合法成功制备出氧化石墨烯/聚吡咯(GO/PPy)插层复合材料. 采用X射线衍射(XRD)、傅里叶变换红外(FTIR)光谱、扫描电镜(SEM)和透射电镜(TEM)等测试技术对复合材料进行物性表征. 此外, 利用循环伏安、恒电流充放电和交流阻抗测试方法对复合材料在两种不同水系电解液(1 mol·L^-1 Na₂SO₄和1 mol·L^-1 H₂SO₄)中的电化学性能进行了研究. 结果显示: 氧化石墨烯和聚吡咯表现出各自优势并发挥协同作用, 使得GO/PPy插层复合材料在中性和酸性电解液中都显示出可观的比电容. 电流密度为0.5 A·g^-1时, GO/PPy 插层复合材料在Na₂SO₄和H₂SO₄电解液中的比电容分别为449.1 和619.0 F·g^-1, 明显高于纯PPy的比电容. 经过800 次循环稳定性测试后, 两种不同电解液中, 复合材料初始容量的保持率分别为92%和62%. 其中酸性电解液体系中初始容量更大, 而中性溶液中具有更稳定的循环性能.     

聚合溶液pH值对染料敏化太阳电池中聚吡咯对电极结构和性能的影响

电化学合成聚吡咯（PPy）时,聚合电解液的pH 值对PPy 薄膜的形貌和性质有较大的影响,进而影响PPy薄膜对I^-/I₃^-的电催化活性以及基于PPy对电极（CE）的染料敏化太阳电池（DSSCs）的光电转换性能. 本文采用电化学恒电位方法,在掺杂氟的SnO₂（FTO）导电玻璃上合成出了对甲苯磺酸根离子掺杂的聚吡咯（PPy-TsO）电极,并将其作为DSSCs 的对电极. 通过改变吡咯聚合时聚合电解液的pH值,借助扫描电镜（SEM）、紫外-可见（UV-Vis）吸收光谱、X-射线光电子能谱（XPS）和循环伏安（CV）等表征技术,详细探讨了聚合溶液pH值对PPy CE形貌、结构及其对I^-/I₃^-的电催化性能的影响. 研究发现在pH 2.0下合成的聚吡咯对阴离子掺杂率最高且链共轭性最佳,具有对I^-/I₃^-氧化还原介质最强的催化能力,基于此PPy CE的电池光电转化效率也最高.pH 值太大或太小都不利于生成具有高掺杂率和高催化活性的PPy电极,组装成DSSCs后的光电转换效率也较低.     

采用连续电位阶跃方法研究聚吡咯在电解质水溶液中的氧化还原稳定性

连续电位阶跃方法是一种研究氧化还原稳定性的有效方法. 本文采用连续电位阶跃方法研究了以对甲苯磺酸钠为掺杂剂的聚吡咯(ppy)膜的电化学氧化还原稳定性, 通过计算聚吡咯在阶跃电位下的还原电量(Q_red), 还原和氧化电量的比值(Q_red/Q_ox)考察聚吡咯在H₂SO₄、Na₂SO₄和NaOH溶液中在不同电位下的氧化还原可逆性. 结果发现聚吡咯过氧化的发生强烈依赖支持电解质的pH值和阶跃电位. 在H₂SO₄溶液中, 过氧化的起始电位为0.8 V, 而在Na₂SO₄溶液中, 过氧化的起始电位为0.5 V. 在NaOH溶液中, 过氧化在任何电位均可发生, 表明溶液中OH^- 的存在是过氧化发生的直接原因.     

聚吡咯/二氧化锡杂化材料的制备及气敏性研究

化学氧化法制备了聚吡咯(PPy)，并进行了元素分析、TG-DTA分析、FTIR测试。讨论了氧化剂用量对PPy气敏性的影响。用机械共混法制备了含不同聚吡咯的聚吡咯/二氧化锡杂化材料，研究其低温下对有毒气体NH₃、H₂S、NO的敏感性。结果表明，相同条件下聚吡咯/二氧化锡杂化材料的气敏性和稳定性均优于聚吡咯、二氧化锡。60 ℃时，当聚吡咯/二氧化锡杂化材料中聚吡咯的质量分数为5%时，其对体积分数为0.05%的H₂S的灵敏度(V_g/ V_a)达到了104.52，且响应恢复时间短。文章讨论了气体与敏感元件的相互作用机制。这一研究有助于开发低能耗、灵敏度高的气敏元件。     

含吡咯环的缩氨基硫脲席夫碱镍、铜配合物的晶体结构及与DNA的相互作用

合成并通过单晶衍射、元素分析及红外光谱表征了配合物[Ni（L¹）₂]·2DMF （1）,[Cu（L¹）₂]·THF·0.25MeOH·2.25H₂O（2）, [Ni（L²）₂]·2MeOH（3）和[Cu（L²）₂]·2EtOH （4）的结构（HL¹：5-甲酰基-3,4-二甲基-吡咯-2-甲酸乙酯缩硫代氨基脲,HL²：5-甲酰基-2,4-二甲基-吡咯-3-甲酸乙酯缩4-异丙基氨基硫脲）。单晶衍射结果表明,除溶剂分子不同外,配合物1~4的结构相似。每个配合物的中心金属离子分别与来自2个阴离子L^-配体的N₂S₂电子供体配位,采取扭曲的平面正方形配位构型。荧光光谱结果表明,配合物与DNA的相互作用强于其配体。     

含吡咯环的缩氨基硫脲席夫碱镍、铜配合物的晶体结构及与DNA的相互作用

合成并通过单晶衍射、元素分析及红外光谱表征了配合物[Ni（L¹）₂]·2DMF（1）,[Cu（L¹）₂]·THF·0.25MeOH·2.25H₂O（2）,[Ni（L²）₂]·2MeOH（3）和[Cu（L²）₂]·2EtOH（4）的结构（HL¹：5-甲酰基-3,4-二甲基-吡咯-2-甲酸乙酯缩硫代氨基脲,HL²：5-甲酰基-2,4-二甲基-吡咯-3-甲酸乙酯缩4-异丙基氨基硫脲）。单晶衍射结果表明,除溶剂分子不同外,配合物1~4的结构相似。每个配合物的中心金属离子分别与来自2个阴离子L-配体的N₂S₂电子供体配位,采取扭曲的平面正方形配位构型。荧光光谱结果表明,配合物与DNA的相互作用强于其配体。     

纳米石墨薄片/聚吡咯复合材料的制备及导电性能

膨胀石墨经过超声处理制备了纳米石墨薄片。以其为导电填料，对甲苯磺酸为掺杂剂，FeCl₃·6H₂O为氧化剂，引发吡咯单体发生原位聚合，制备出纳米石墨薄片/聚吡咯(NanoGs/PPy)复合材料。利用红外光谱(FTIR)、扫描电镜(SEM)和透射电镜(TEM)表征了材料的组成和结构。结果表明，石墨薄片被聚吡咯完全包覆；并且以纳米级尺寸分散在聚吡咯基体中。热失重(TG)分析和电导率测试结果表明，复合材料的耐热性能和导电性能较纯聚吡咯有所提高。     

聚吡咯改性电沉积Sn负极材料的电化学性能

本工作采用直接在铜箔表面恒电流电沉积的方法制备Sn负极,以NiCl₂为沉积电解液的添加剂得到了Sn空心管,提高了单纯Sn负极的可逆比容量,60次循环后仍剩余184.3 mAh·g^-1。进一步引入聚吡咯进行表面修饰改性,有效地提高了沉积电极的电化学循环性能,60次循环后仍剩余440.6 mAh·g^-1可逆比容量,同时具备良好的循环稳定性。沉积电极可直接用作锂离子电池负极,无需任何粘结剂,电极装配操作简单。     

对甲苯磺酸掺杂聚吡咯的合成、表征及其对金属镁的防腐蚀性能研究

以对甲苯磺酸为掺杂剂, 三氯化铁为氧化剂, 化学氧化吡咯制备了对甲苯磺酸掺杂聚吡咯. 考察了掺杂剂与氧化剂的用量对掺杂聚吡咯电导率的影响, 得到了高电导率聚吡咯的优化条件, 用UV, IR和SEM对其结构和形貌进行了表征. 结果表明, n(对甲苯磺酸)∶n(吡咯)∶n(三氯化铁)＝0.75∶1∶0.5时, 合成的聚吡咯的形貌规则, 电导率达42.7 S•cm^－1. 以聚吡咯为功能成分, 环氧树脂为成膜物质, 得到一种功能膜, 旋涂于金属镁表面, 采用极化曲线和开路电位考察了含有聚吡咯的膜层对金属镁的防腐蚀性能. 结果表明, 含有聚吡咯的膜层对金属镁有很好的防腐蚀性能, 腐蚀电流为0.0981 A, 腐蚀电位为－0.88 V, 在膜层与金属镁之间形成了一层钝化膜.     

密度泛函理论研究间硝基苯基吡咯酰胺识别卤素阴离子

采用混合密度泛函B3LYP方法, 在LANL2DZ水平上优化间硝基苯基吡咯酰胺(NPC)及其卤素阴离子复合物的几何构型, 从几何结构参数、电荷布居、前线轨道、结合能以及热力学参数等角度探讨复合物形成过程中主体分子的构象变化以及主客体间的超分子作用. 研究结果表明, 吡咯酰胺主体分子识别卤素阴离子是一个自发过程. 识别过程包括阴离子诱导下主体分子构象转变和“活性”构象与阴离子形成氢键两个步骤. 计算表明主体分子复合阴离子过程中, 两者的前线轨道发生作用, 电子容易从卤素阴离子的HOMO向主体分子的LUMO转移. 在所形成的四种复合物NPC-X^－ (X^－＝F^－, Cl^－, Br^－, I^－)中, 以NPC-F^－最稳定, 与文献报道吡咯酰胺主体分子识别卤素阴离子能力的实验结果相一致.     

Assay of reducing sugars in beverages, wines, honey and marmalades using potentiometric stripping analysis (PSA)

Summary A simple, rapid and non-destructive method for the detection and determination of phosphines and phosphine oxides in solution by ¹H and ³¹P NMR spectroscopy is proposed. Diphenylphosphine (DPP) and diphenylphosphine oxide (DPPO) mixtures in C₆D₆ chosen as model system were studied in wide ranges of concentration (10^–2 to 4 mol/l). The detection of DPP and DPPO in solution by ¹H NMR was based on the presence of two doublets (hydrogen directly bonded to phosphorus, H_P) originating from P-H and P(O)H groups with one bond coupling constant ¹J_PH of 216.08 and 476.12 Hz. ³¹P NMR signals at –40.07 and +18.26 ppm additionally proved the presence of DPP and DPPO in solution. A linear dependence of the measured H_P and ortho-proton integral intensity on the concentration of DPP and DPPO was found. The content of DPP and DPPO evaluated by ³¹P without adding Cr(acac)₃ and by ¹H NMR agreed with the quoted amounts within 1 to 3%.Under Indo-Polish cultural exchange programme, temporarily at Silesian University     

Electrochemistry of coordination compounds: XIII. Ruthenium(I) and ruthenium(0) complexes generated by electrochemical reduction of chlorodi-(1,3-bisdiphenylphosphinopropane)ruthenium(II)-hexafluorophosphate

The electrochemical reduction of chlorodi-(1,3-bisdiphenylphosphinopropane)ruthenium(II)hexafluorophosphate, [RuCl(DPP)₂](PF₆), has been studied on the mercury electrode in 1,2-dimethoxyethane +0.1 M TBAP. The polarogram shows two reversible one-electron waves corresponding to the formation of [RuCl(DPP)₂] and [RuCl(DPP)₂]. Both products are unstable and decay through a disproportionation pathway and a fast internal metalation via Cl^? elimination with formation of HRu(C₆H₄PPh·CH₂CH₂ CH₂·PPh₂)(DPP), respectively. The hypothesis is put forward that the geometry of a metal-complex can be one of the factors which allow us to obtain d⁷ monomeric complexes by electrochemical methods.     

Soft modelling for the resolution of highly overlapped voltammetric peaks: application to some Pb-phytochelatin systems

A differential pulse polarographic (DPP) study of the Pb²⁺/Cys-Gly, Pb²⁺/γ-Glu-Cys, Pb²⁺/PC₂ and Pb²⁺/PC₃ systems is performed, being PC₂ and PC₃ the phytochelatins of general structure (γ-Glu-Cys)_n-Gly, with n = 2 and 3, respectively. Analysis of DPP data is assisted by multivariate curve resolution with alternating least squares (MCR-ALS) method in order to establish the complexes formation sequence and their final stoichiometries. DPP signals of these systems present, besides overlapping of peaks due to free metal ion and metal complexes, interference of mercury anodic signals. Despite these complications, MCR-ALS allows us to propose a model of complexation for each system, and some tentative structures for the complexes.     

Tuning phenoxyl-substituted diketopyrrolopyrroles from quinoidal to biradical ground states through (hetero-)aromatic linkers

Strongly fluorescent halochromic 2,6-di-tert-butyl-phenol-functionalised phenyl-, thienyl- and furyl-substituted diketopyrrolopyrrole (DPP) dyes were deprotonated and oxidised to give either phenylene-linked DPP1˙˙ biradical (y₀ = 0.75) with a singlet open shell ground state and a thermally populated triplet state (ΔE_ST = 19 meV; 1.8 kJ mol⁻¹; 0.43 kcal mol⁻¹) or thienylene/furylene-linked DPP2q and DPP3q compounds with closed shell quinoidal ground states. Accordingly, we identified the aromaticity of the conjugated (hetero-)aromatic bridge to be key for modulating the electronic character of these biradicaloid compounds and achieved a spin crossover from closed shell quinones DPP2q and DPP3q to open shell biradical DPP1˙˙ as confirmed by optical and magnetic spectroscopic studies (UV/vis/NIR, NMR, EPR) as well as computational investigations (spin-flip TD-DFT calculations in combination with CASSCF(4,4) and harmonic oscillator model of aromaticity (HOMA) analysis). Spectroelectrochemical studies and comproportionation experiments further prove the reversible formation of mixed-valent radical anions for the DPP2q and DPP3q quinoidal compounds with absorption bands edging into the NIR spectral region.

By variation of spacer aromaticity, a spin crossover from thienylene/furylene-linked quinones DPP2q/DPP3q to phenylene-bridged biradical DPP1˙˙ (y₀ = 0.75) with a singlet open shell ground state (ΔE_ST = 19 meV) was achieved.     

Determination of acipimox in capsules by differential pulse polarography

A differential pulse polarographic (DPP) method has been developed for the determination of acipimox in its pharmaceutical formulations. Using Sörensen buffer pH 6.0 as supporting electrolyte a single, irreversible peak occurred at –0.79 V vs an Ag/AgCl reference electrode. The peak height vs concentration plot was found to be linear over the range of 10^–6 to 6 × 10^–4 mol/l. The detection limit is 60ng/ml. The analysis of a series of 10 Olbetam® 250 mg capsules showed an overall standard deviation of ± 4.18 mg and a S_rel of ± 1.66%, respectively.     

Resolution and Trace Determination of Selected Oxyanions in Binary and Ternary Mixtures by Differential Pulse Polarography

Abstract

Resolution and trace determination of selected oxyanions in binary and ternary mixtures were studied by differential pulse polarography (DPP) at the dropping mercury electrode. The applicability of DPP for the simultaneous determination of the investigated oxyanions (TeO^{2- 4}, VO^? ₃, IO^? ₃, IO^? ₄, and BrO^? ₃) in the binary and ternary mixtures was also examined with regard to the dependence of the DP current on various parameters such as pH, pulse amplitude, scan rate and drop time. Statistical analysis is included on t h e observed concentrations for each of the oxyanions in the mixture and compared with that obtained by the calibration curves. Limits of detection and quantitat - ion have been calculated for the DPP determination of binary and ternary mixtures of these lected oxyanions.     

Diketopyrrolopyrrole J‐Aggregates Formed by Self‐Organization with DNA

Bis(2‐thienyl)diketopyrrolopyrrole with two Zn^II‐cyclens (ZnCyc‐DPP) was designed and synthesized to evaluate the selective binding of Zn^II‐cyclen with thymine base in single‐strand DNA as a tool for the construction of a highly ordered multichromophore system on DNAs. Through UV/Vis titrations, gel filtration chromatography, and circular dichroism spectroscopy, ZnCyc‐DPP formed J‐type DPP aggregates with oligo‐dT_n DNAs. The DPP aggregates absorbed on a gold electrode exhibited good photocurrent responses. The present results show that binding Zn^II‐cyclen–chromophore conjugates and thymine bases together is a powerful tool for preparing DNA‐templated multichromophoric systems with specific functions.     

Solution processable diketopyrrolopyrrole semiconductor: towards bio-electronic applications

In this paper, the possibility to use diketopyrrolopyrrole (DPP) for the construction of electrical devices designed to interact with animal cells was studied. For this purpose, the biocompatibility and electrical properties of the selected DPP derivative (3,6-bis(5-(benzofuran-2-yl)thiophen-2-yl)-2,5-bis(2-ethyl-hexyl)pyrrolo[3,4-c]pyrrole-1,4-dione) [referred as DPP(TBFu)₂] were researched. The electrical properties were studied using model organic field-effect transistors. Mainly investigated was under what conditions maximum charge carrier mobility can be achieved. Using the cumulative effect of self-assembled monolayers on dielectrics and electrodes and detailed thermal analysis of the DPP, a higher charge carrier mobility was achieved than has been previously reported (5.5?×?10^?3 cm² V^?1 s^?1). The biocompatibility was studied based on a culture of 3T3 fibroblasts. This research revealed that DPP(TBFu)₂ can be used in applications involving direct contact with living animal cells. The conclusions found with these model devices can be applied to components suitable for biosensing applications, e.g., water- or electrolyte-gated organic field-effect transistors.     

Polarographic Detection of Arenediazonium Ions. Optimization of the Method and Application for Investigating Dediazoniation Mechanisms

The use of differential pulse polarography (DPP) at the dropping mercury electrode (DME) to detect and to investigate the mechanisms for decomposition of arenediazonium ions, ArN₂⁺, under different experimental conditions is discussed. The effect of a number of experimental and instrumental parameters on the polarographic peaks of a model arenediazonium ion was explored and representative applications to investigate their reaction mechanisms are given. The composite data shows that DPP provides an alternative, relatively cheap, technique to monitor ArN₂⁺ decomposition in, for example, opaque systems where, for obvious reasons, spectroscopic detection does not work; meanwhile in homogeneous systems, DPP complements the results obtained by employing spectroscopic or chromatographic techniques. In addition, a variety of valuable mechanistic information such as detection of transient intermediates or estimation of the binding constants of aryl radicals with macromolecular systems, that otherwise cannot be easily obtained, is readily available by using DPP.     

Direct comparison of 2,5-di-tert-butyl-1,4-dimethoybenzene and 4-tert-butyl-1,2-dimethoxybenzene as redox shuttles in LiFePO4-based Li-ion cells

2,5-di-tert-butyl-1,4-dimethoxybenzene (DDB) and 4-tert-butyl-1,2-dimethoxybenzene (TDB) have recently been proposed by different research groups as effective redox shuttles for overcharge protection of LiFePO₄-based Li-ion cells. Different test methods used in the published accounts make direct comparison of the merits of DDB and TDB difficult. Here DDB and TDB are tested under the same conditions in Li/LiFePO₄, graphite/LiFePO₄ and Li_4/3Ti_5/3O₄/LiFePO₄ coin-type cells under conditions that approximate those found in practical cells. The results confirm that DDB can support over 200 shuttle-protected overcharge cycles each of 100% cell capacity for all three cell types while TDB can only support between 3 and 15 overcharge cycles. This highlights the importance of testing redox shuttles under conditions that mimic those found in commercial cells.