Influence of solution composition and iron powder characteristics on reduction of 2,4,6-trinitrophenol

Kinetics of the 2,4,6-trinitrophenol reaction with iron powder was investigated voltammetrically. The process was found to be mainly governed both by the iron powder characteristics and by the solution composition. Degradation kinetics was generally represented by a pseudo-first-order rate law. Consecutively, the 2,4,6-trinitrophenol reduction reaction rates for three fractions of iron powder as well as the effect of individual ions presented in the reaction system were evaluated. A correlation between the reaction rate and both the grain size of iron particles and the state of their surface was found. The effect of the reaction system composition was investigated for two types of buffered medium: Britton-Robinson buffer (boric acid, orthophosphoric acid, and glacial acetic acid) and acetate buffer solution (sodium acetate and acetic acid).     

一种可用于检测2,4,6-三硝基苯酚的杂环芳族卤化物小分子荧光探针

以2,6-二甲氧基苯甲酸为起始原料得到氨基噻二唑衍生物,通过Gattermann反应合成一种杂环芳族卤化物2-氯-5-(3-氯-2,6-二甲氧基苯基)-1,3,4-噻二唑(L),利用核磁共振波谱仪(NMR)和高分辨率质谱仪(HRMS)等测试手段确定了结构,并将其用作小分子荧光探针检测2,4,6-三硝基苯酚(TNP),系统地研究了其荧光特性,并且结合理论计算,探究了其可能的猝灭机制。 研究结果表明,探针L对TNP具有高选择性、高灵敏度、抗干扰能力强,在较宽的pH值范围内,仍然表现出良好的荧光性能。 具有较低的检测限(4.2×10^-7 mol/L),可用于实际水样中TNP的检测。     

类石墨相氮化碳量子点（g-CNQDs）用于水质中三硝基苯酚的检测

基于类石墨相氮化碳量子点( g-CNQDs)建立了一种高效、灵敏、简单的荧光化学传感器用于检测水相中的三硝基苯酚( TNP)。 g-CNQDs是一种新型纳米半导体材料,具有很好的水溶性、生物相容性、环境友好、良好荧光特性,无毒性,通过简单的固相反应法,制备了g-CNQDs材料,探讨了g-CNQDs与TNP之间的相互作用(如仔-仔共轭作用、氢键相互作用和静电作用)引起的g-CNQDs荧光猝灭过程。此荧光传感器响应速度快,对TNP具有良好的选择性。实验结果表明,本方法在0.1~100 nmol/L和0.1~100μmol/L的浓度范围内呈现良好的线性关系,检出限为0.05 nmol/L ( S/N=3)。 g-CNQDs材料在化学传感器方面有很好的应用前景,利用此荧光传感器对实际水样中的TNP进行了检测,为监测水环境中TNP提供了新方法。     

红色荧光碳点的制备及其对过硫酸根的检测

以对苯二胺为碳源,乙醇为溶剂,采用溶剂热法合成红色荧光碳点(R-CDs)。 通过透射电子显微镜、紫外可见吸收光谱(UV-Vis)、红外光谱(FT-IR)、X射线光电子能谱(XPS)对其进行表征。 合成的R-CDs粒径约为(3.63±0.20) nm。 R-CDs的最大激发和发射波长分别为480和620 nm,具有激发波长独立性,光稳定性好。 基于静态猝灭,R-CDs的荧光可以被过硫酸根(S₂O₈^2-)有效猝灭。 在2.5~120 μmol/L范围内,S₂O₈^2-的浓度与R-CDs的荧光猝灭程度呈线性关系,相关系数(R²)为0.9970,检出限为1.2 μmol/L,具有良好的选择性和高灵敏度。 同时,该荧光传感体系可应用于自来水和湖水样品中S₂O₈^2-的检测。     

Synthesis of Fluorescent Carbon Dots and Their Application in Ascorbic Acid Detection

Water-soluble fluorescent carbon dots (CDs) were synthesized by a hydrothermal method using citric acid as the carbon source and ethylenediamine as the nitrogen source. The repeated and scale-up synthetic experiments were carried out to explore the feasibility of macroscopic preparation of CDs. The CDs/Fe³⁺ composite was prepared by the interaction of the CDs solution and Fe³⁺ solution. The optical properties, pH dependence and stability behavior of CDs or the CDs/Fe³⁺ composite were studied by ultraviolet spectroscopy and fluorescence spectroscopy. Following the principles of fluorescence quenching after the addition of Fe³⁺ and then the fluorescence recovery after the addition of asorbic acid, the fluorescence intensity of the carbon dots was measured at λex = 360 nm, λem = 460 nm. The content of ascorbic acid was calculated by quantitative analysis of the changing fluorescence intensity. The CDs/Fe³⁺ composite was applied to the determination of different active molecules, and it was found that the composite had specific recognition of ascorbic acid and showed an excellent linear relationship in 5.0–350.0 μmol·L⁻¹. Moreover, the detection limit was 3.11 μmol·L⁻¹. Satisfactory results were achieved when the method was applied to the ascorbic acid determination in jujube fruit. The fluorescent carbon dots composites prepared in this study may have broad application prospects in a rapid, sensitive and trace determination of ascorbic acid content during food processing.     

Synthesis of Ultrathin and Grid-Structural Carbon Nanosheets Coupled with Mo2C for Electrocatalytic Hydrogen Production

Molybdenum carbide possessing a Pt-like d-band electronic structure is considered as one of potential candidates of electrocatalysts and it shows intrinsic catalytic property. However, a high carbonizing temperature easily leads to the coalescence of nanoparticles (NPs). Here, we propose a simple sol-gel route to achieve high dispersity of carbide NPs by designing a Mo-involved xerogel. The results show that molybdenum carbide NPs are dispersed and anchored on the nitrogen-doped carbon nanosheets (Mo₂C@NC). Ultrathin carbon layers resemble graphene and the network structures act as a support of carbide NPs, which can hinder NPs’ coalescence effectively. Nanpoparticles cross-coupled on network-structure nanosheets display the grid shapes. Electrochemical studies indicate that Mo₂C@NC material exhibits outstanding hydrogen evolution performance in alkaline electrolyte.     

一例对二硫化碳具有荧光传感性能的Mg-金属有机框架化合物

通过溶剂热合成了一例Mg-MOF化合物[Mg₄(1,4-NDC)₄(DMA)₂(CH₃OH)₂(H₂O)₂]·DMA·CH₃OH(1,1,4-H₂NDC=1,4-萘二酸,DMA=N,N'-二甲基乙酰胺),并对其结构表征及荧光性能进行了研究。 单晶X射线研究结果表明,化合物结晶于P2₁/c空间群,其晶体学数据为a=2.06090(12) nm, b=2.21014(13) nm, c=1.50385(10) nm, β=111.399(3)°, V=6.3776(7) nm³, Z=4, D_c=1.403 g/cm³, F(000)=2824, R=0.0596, wR=0.1225(I>2σ(I))。 化合物1中,二核的镁作为次级构筑单元通过桥连配体1,4-NDC连接形成沿c轴方向拓展的一维链。 一维链间进一步通过配体连接形成3D框架的化合物。 荧光性能研究表明,化合物1对CS₂具有灵敏的荧光传感性能,在0.4%的体积分数条件下可引起CS₂荧光的完全淬灭。 此外,化合物1的热稳定性也通过热重分析进行了研究,发现其可稳定到140 ℃左右。     

Mini‐Sized Carbon Nitride Nanosheets with Double Excitation‐ and pH‐Dependent Fluorescence Behaviors for Two‐Photon Cell Imaging

Synthesis of mini‐sized carbon nitride nanosheets (CNNSs) by traditional methods remains a challenge. Herein, size‐tunable and uniform mini‐sized CNNSs are synthesized by hydrothermal carbonization of a single polyethyleneimine (PEI) precursor. The as‐obtained mini‐sized CNNSs possess uniform size, good hydrophilicity and abundant nitrogen active sites, which not only exhibit double excitation‐ and pH‐dependent fluorescence behaviors, but also two‐photon excitation fluorescence. áThe resulting CNNSs display low toxicity and can be efficiently delivered into live cells for two‐photon fluorescence imaging, offering great potential as fluorescence probes in biochemical applications.     

自掺杂氮多孔交联碳纳米片在超级电容器中的应用

自掺杂氮的多孔交联碳纳米片（N-ICNs）是将蒲公英种子通过一步活化碳化法制备的.蒲公英种子本身富含氮,不需要进行额外的掺杂处理,可以作为理想的碳前驱体.通过X射线衍射（XRD）、扫描电子显微镜（SEM）、透射电子显微镜（TEM）对所制备的碳材料的微观形貌和组成成分进行了表征.基于高含氮量（2.88%）,N-ICNs在1 A·g^-1下具有337 F·g^-1的比电容和优异的倍率性能.此外,由N-ICNs组合成的对称型超级电容器在操作电压范围为0~2 V时具有很高的能量密度（25.3 Wh·kg^-1）和功率密度（900 W·kg^-1）,并且在循环10000次后仍具有98%的电容保持率.因此,N-ICNs将是一种非常理想的电极材料.     

碳点-二氧化锰纳米复合材料的制备及硫普罗宁的荧光传感

以聚烯丙胺盐酸盐为反应底物,通过一步水热法制备了荧光碳点(CDs)并在其中引入高锰酸钾,通过原位的氧化还原反应制备了CDs-MnO2纳米复合材料.通过透射电子显微镜、X射线光电子能谱、纳米粒度分析、紫外-可见吸收光谱、荧光光谱、荧光寿命对其进行了形貌、结构、成分、发光性能的表征.结果 表明,MnO2通过静态猝灭效应(S...     

Synthesis of Novel CuO Nanosheets with Porous Structure and Their Non‐Enzymatic Glucose Sensing Applications

Novel CuO thin films composed of porous nanosheets were in situ formed on indium tin oxide (ITO) by a simple, low temperature solution method, and used as working electrodes to construct nonenzymatic glucose sensor after calcinations. Cyclic voltammetry revealed that the CuO/ITO electrode calcinated at 200 °C exhibited better electrocatalytic activity for glucose. For the amperometric glucose detection, such prepared electrode showed low operating potential of 0.35 V and high sensitivity of 2272.64 μA mM^?1 cm^?2. Moreover, the CuO/ITO electrode also showed good stability, reproducibility and high anti‐interference ability. Thus, it is a promising material for the development of non‐enzymatic glucose sensors.     

一个强荧光三维超分子有机框架的构建及其对苦味酸的选择性传感

在四苯基甲烷外侧通过C=C双键引入四个N-甲基-4-苯基吡啶盐片段,合成了一个新的全共轭单体T-1.其在水中与2 equiv.的葫芦脲[8]结合,形成了新的高强荧光的超分子有机框架SOF-r-SPP.动态光散射实验表明,在T-1浓度为1.0和0.031 mmol/L时,SOF-r-SPP的流体力学直径分别为68和41 nm.粉末X-射线衍射实验揭示,SOF-r-SPP形成孔径为2.3 nm的三维金刚石型周期性结构.硝基苯衍生物能有效淬灭SOF-r-SPP的荧光.在17个研究的硝基苯类分子中,苦味酸的淬灭效率最高. SOF-r-SPP作为荧光传感器,对苦味酸的检测极限可以达到0.024 mmol/L.     

荧光碳点的合成、性质和应用

与传统半导体发光材料相比,荧光碳点作为一种新型的碳纳米发光材料,因其优异的生物相容性、良好的发光性能、简单的合成工艺、低廉的成本等优点而备受关注。荧光碳点在生物荧光标定、医学传感器、光诊疗剂以及发光器件等方面具有广阔的应用潜力。本文重点阐述了荧光碳点的合成方法、显微结构分析、荧光机理及应用的最新成果,希望为荧光碳点合成与应用研究的发展提供参考。     

超薄石墨相氮化碳纳米片的构建及其光催化作用

通过简单调整g-C_3N_4的热聚合方式,一步构筑了超薄氮化碳纳米片,厚度在0.2~0.4 nm左右,分布均匀,比表面积可以达到99 m~2·g~(-1)。光催化性能测试结果表明,随着纳米片比表面积的增大,材料除了表现出优异的光解水性能以外,还在微生物领域表现出一定的抗菌性能,且活性随着聚合温度的升高、纳米片层的变薄而逐渐提高。     

二维石墨相氮化碳纳米片的制备及其在光催化领域的研究进展

二维(2D)层状石墨型氮化碳纳米片(CNNS)由于具有各向异性的2D几何形态和芳香族p-π共轭骨架,高度开放的平面结构、超高的比表面积、增强的电子迁移速率和与层厚度相关可调的半导体带隙等特征,是目前2D层状材料的研究热点之一。 本文综述了近年来氮化碳纳米片的各种制备方法、功能化改性和应用,涉及环保、能源转换及生物传感等领域。 最后指出进一步探索制备高质量氮化碳纳米片的新方法以及拓展其在光催化领域的应用是未来研究的重点。     

Catalysis of Carbon Dioxide Photoreduction on Nanosheets: Fundamentals and Challenges

The transformation of CO₂ into fuels and chemicals by photocatalysis is a promising strategy to provide a long‐term solution to mitigating global warming and energy‐supply problems. Achievements in photocatalysis during the last decade have sparked increased interest in using sunlight to reduce CO₂. Traditional semiconductors used in photocatalysis (e.g. TiO₂) are not suitable for use in natural sunlight and their performance is not sufficient even under UV irradiation. Some two‐dimensional (2D) materials have recently been designed for the catalytic reduction of CO₂. These materials still require significant modification, which is a challenge when designing a photocatalytic process. An overarching aim of this Review is to summarize the literature on the photocatalytic conversion of CO₂ by various 2D materials in the liquid phase, with special attention given to the development of novel 2D photocatalyst materials to provide a basis for improved materials.     

超薄石墨相氮化碳纳米片的构建及其光催化作用

通过简单调整g-C₃N₄的热聚合方式,一步构筑了超薄氮化碳纳米片,厚度在0.2~0.4 nm左右,分布均匀,比表面积可以达到99 m²·g^-1。光催化性能测试结果表明,随着纳米片比表面积的增大,材料除了表现出优异的光解水性能以外,还在微生物领域表现出一定的抗菌性能,且活性随着聚合温度的升高、纳米片层的变薄而逐渐提高。     

荧光碳点的制备及应用

荧光碳点是继富勒烯、碳纳米管及石墨烯之后最热门的碳纳米材料之一。这种纳米材料克服了传统量子点的某些缺点,不仅具有优良的光学性能与小尺寸特性,而且具有良好的生物相容性,易于实现表面功能化,在生化传感、成像分析、环境检测、光催化技术及药物载体等领域具有很好的应用潜力。本文就近年来人们对荧光碳点的研究进行了综述,简述了碳点的特性,重点介绍了荧光碳点应用的最新进展,对碳点发展过程中尚待解决的问题进行总结并对未来发展方向进行了展望。     

Molecular Complex Formation between Some Azacrown Ethers and 2,4,6-Trinitrophenol

The formation of molecular complexes with 1 : 1 stoichiometry between 2,4,6-trinitrophenol and aza-12-crown-4, aza-15-crown-5 and aza-18-crown-6 in chloroform solution was investigated spectrophotometrically. The resulting complexes were isolated and characterized by microchemical analysis, IR and NMR spectroscopy. The equilibrium constants of the 1 : 1 adducts were evaluated from the non-linear least-squares fitting of the absorbance-mole ratio data. The overall stability of the 2,4,6-trinitrophenol complexes was found to vary in the order aza-15-crown-5 > aza-18-crown-6 aza-12-crown-4. The kinetics of complex formation between 2,4,6-trinitrophenol and the aza-substituted crown ethers used were investigated and in all cases the results showed the occurrence of an oscillating chemical reaction in solution.     

Click-modified hexahomotrioxacalix[3]arenes as fluorometric and colorimetric dual-modal chemosensors for 2,4,6-trinitrophenol

A new type of chemosensor-based approach to the detection of 2,4,6-trinitrophenol (TNP) is described in this paper. Two hexahomotrioxacalix[3]arene-based chemosensors 1 and 2 were synthesized through click chemistry, which exhibited high binding affinity and selectivity toward TNP as evidenced by UV–vis and fluorescence spectroscopy studies. ¹H NMR titration analysis verified that CH?O hydrogen bonding is demonstrated as the mode of interaction, which possibly facilitates effective charge-transfer.