Thin-layered MoS2/polyaniline nanocomposite for highly sensitive electrochemical detection of chloramphenicol

In this study, we synthesized molybdenum disulfide/polyaniline (MoS₂/PANI) nanocomposite via in situ polymerization of aniline in the presence of thin-layered MoS₂. The as-prepared MoS₂/PANI nanocomposite obtained an improved electrochemical performance due to the physisorption interaction between aromatic aniline and the basal plane of MoS₂. Furthermore, we constructed a new kind of electrochemical sensor based on MoS₂/PANI nanocomposite for the detection of chloramphenicol, which showed an excellent performance. The sensor has a high sensitivity and wide detection range from 1×10^-7 mol/L to 1×10^-4 mol/L, with a low detection limit of 6.9×10^-8 mol/L.     

Ni2P和MoS2催化剂在喹啉加氢脱氮反应中的协同效应

设计实验证明了Ni₂P和MoS₂催化剂在喹啉加氢脱氮反应中存在协同效应,该协同效应能够用氢溢流遥控模型理论解释。Ni₂P//MoS₂的协同因子随反应温度升高而减小,并且略微大于相同反应条件下NiS_x//MoS₂的协同因子。Ni₂P产生的溢流氢能够提高MoS₂催化剂上加氢活性位的数量,促使Ni₂P//MoS₂催化体系增加1,2,3,4-四氢喹啉和5,6,7,8-四氢喹啉加氢生成十氢喹啉的速率,提高其脱氮活性;因此,Ni₂P对MoS₂催化剂是很好的助剂。     

MoS_2负载量对MoS_2/TiO_2光催化降解苯酚效率的影响及其作用机理研究

通过水解法制备TiO_2纳米颗粒,与经过超声处理后的MoS_2片层纳米材料复合制备MoS_2/TiO_2纳米催化剂,考察不同MoS_2负载量对其光催化降解苯酚效率及路径的影响。XRD、SEM、EDS、FT-IR和UV-vis DRS等表征结果表明,复合催化剂主要由锐钛矿型TiO_2和MoS_2组成;剥离后的MoS_2呈现薄片层状结构,均匀地分散在TiO_2纳米颗粒当中。光催化降解苯酚性能测试结果显示,对于MoS_2/TiO_2催化剂,MoS_2负载量的提高有利于光催化降解苯酚效率的提高;当MoS_2负载量为27%时,复合M o S2/TiO_2纳米颗粒的光催化性能最佳,反应80 min后可将苯酚完全降解。通过对苯酚降解过程中生成中间产物跟踪发现,MoS_2负载量的提高有利于促进中间产物苯醌、对苯二酚以及邻苯二酚的生成,进而提升了MoS_2/TiO_2复合材料的光催化性能。     

Synthesis of MnO2/N-doped ultramicroporous carbon nanospheres for high-performance supercapacitor electrodes

We demonstrate a simple and highly efficient strategy to synthesize MnO₂/nitrogen-doped ultramicroporous carbon nanospheres (MnO₂/N-UCNs) for supercapacitor application. MnO₂/N-UCNs were fabricated via a template-free polymerization of resorcinol/formaldehyde on the surface of phloroglucinol/terephthalaldehyde colloids in the presence of hexamethylenetetramine, followed by carbonization and then a redox reaction between carbons and KMnO₄. As-prepared MnO₂/N-UCNs exhibits regular ultramicropores, high surface area, nitrogen heteroatom, and high content of MnO₂. A typical MnO₂/N-UCNs with 57 wt.% MnO₂ doping content (denoted as MnO₂(57%)/N-UCNs) makes the most use of the synergistic effect between carbons and metal oxides. MnO₂(57%)/N-UCNs as a supercapacitor electrode exhibits excellent electrochemical performance such as a high specific capacitance (401 F/g at 1.0 A/g) and excellent charge/discharge stability (86.3% of the initial capacitance after 10,000 cycles at 2.0 A/g) in 1.0 mol/L Na₂SO₄ electrolyte. The well-designed and high-performance MnO₂/N-UCNs highlight the great potential for advanced supercapacitor applications.     

原位聚合MnO_2/PoPD@PPS复合滤料及其NH_3-SCR脱硝性能研究

在聚苯硫醚(PPS)滤料表面包覆一层二氧化锰/聚邻苯二胺(PoPD)复合物。利用π-π共轭效应,将邻苯二胺(OPD)单体均匀吸附在PPS纤维表面,然后通过高锰酸钾溶液使邻苯二胺氧化聚合,在纤维表面原位生成聚邻苯二胺包覆层,同时高锰酸钾被还原成MnO_2催化剂,插入到聚邻苯二胺基体中。通过原位聚合生成的MnO_2/PoPD复合物与PPS滤料间有很强的黏结性,使得催化剂和滤料能牢固地结合在一起。该复合滤料制备方法简单,实验条件温和,对滤料本身性能没有损伤,通过FESEM、XPS、XRD、FT-IR、脱硝活性测试等对其结构和性能进行了研究。脱硝测试结果表明,KMnO4/PPS质量比为1∶1时,复合滤料在80-180℃下脱硝率可达36%-94%,10 h的催化剂稳定性测试中,其脱硝率在160℃下仍保持在88%;Mn 2p的XPS谱图证实复合滤料上催化剂为MnO_2;复合滤料的XRD谱图表明MnO_2为非晶结构;从FESEM照片可以看出,MnO_2催化剂在PPS滤料上分散均匀。     

纳米片层二硫化钼负载PtCo双金属催化甲醇水相重整制氢

采用水热法合成了层数只有六层的纳米片层二硫化钼（MoS₂）,并进一步负载Pt和PtM双金属（M=Ru、Pd、Co和Ni）,用于催化甲醇水相重整制氢反应。结果表明,PtCo/MoS₂对于甲醇水相重整具有最优异的催化性能,在220℃下产氢转换频率（TOF）为37142 h^-1。氮气吸附-脱附等温线、透射电子显微镜（TEM）、程序升温还原（H₂-TPR）以及X射线光电子能谱（XPS）等表征结果表明,PtCo/MoS₂中金属还原程度高,且Pt与载体MoS₂形成了强电子相互作用,使缺电子的Pt有利于吸附活化甲醇,并进一步促进甲醇重整反应。     

2D Bi2WO6/MoS2 as a new photo-activated carrier for boosting electrocatalytic methanol oxidation with visible light illumination

A kind of new 2D heterojunction of Bi₂WO₆/MoS₂ was constructed and used as visible-light activated carrier for depositing Pt electrocatalyst. With assistance of visible light irradiation, Pt-Bi₂WO₆/MoS₂ composite shows enhanced electrocatalytic activity and stability towards methanol oxidation than traditional electrocatalytic process and commercial Pt/C.     

SO_2对Mn-Ce/TiO_2低温SCR催化剂的毒化作用研究

考察了SO_2对Mn-Ce/TiO_2低温脱硝催化剂活性的影响,利用XRD、BET、SEM和XPS对其毒化作用的原因进行分析。结果表明,SO_2对催化剂活性有明显的抑制作用,使NO_x去除率由84%降至42%左右。主要是SO_2的加入造成催化剂比表面积减小,孔径为5-10 nm的孔数量减少,且催化剂晶相由锐钛矿型转化成金红石型结构,活性组分MnO_x发生晶化现象,破坏了Mn-Ti间的强相互作用。催化剂理化性质的变化造成吸附态氧转化为晶格氧的路径受阻、MnO_2含量减少和CeO_x储氧功能减弱,并且产生氧阻效应而使NO吸附和解吸受阻,造成催化剂活性降低。同时生成的硫酸铵盐在催化剂表面沉积,覆盖了催化剂表面的Lewis酸性位,使其对NH_3吸附能力减弱。     

MoS2 nanosheet arrays supported on hierarchical porous carbon with enhanced lithium storage properties

MoS₂ nanosheet arrays supported on hierarchical nitrogen-doped porous carbon(MoS₂@C)have been synthesized by a facile hydrothermal approach combined with high-temperature calcination.The hierarchical nitrogen-doped porous carbon can serve as three-dimensional conductive frameworks to improve the electronic transport of semiconducting MoS₂.When evaluated as anode material for lithium-ion batteries,the MoS₂@C exhibit enhanced electrochemical performances compared with pure MoS₂ nanosheets,including high capacity(1305.5 mA h g^-1 at 100 mA g^-1),excellent rate capability (438.4 mA h g^-1 at 1000 mA g^-1).The reasons for the improved electrochemical performances are explored in terms of the high electronic conductivity and the facilitation of lithium ion transport arising from the hierarchical structures of MoS₂@C.     

pH and H2O2 dual-responsive carbon dots for biocatalytic transformation monitoring

Carbon dots with strong orange light emission, pH and H₂O₂ dual-responsive characteristics, were prepared and applied for probing enzyme-mediated biocatalytic transformations via the fluorescence quenching.     

Facile synthesis of enzyme functional metal-organic framework for colorimetric detecting H2O2 and ascorbic acid

In this work,a metal-organic frameworks material MIL-88 was prepared easily using solvent-thermal method,and was first found to have catalytic activities similar to those of biological enzymes such as catalase and peroxidase.The material was characterized by XRD,SEM,TEM,EDX,FT-IR techniques and an N_2 adsorption method.It exhibited peroxidase-like activity through catalytic oxidation of the peroxidase substrate 3,3',5,5'-tetramethylbenzidine(TMB) in the presence of H_2O_2,producing a blue-colored solution.Under optimal conditions,the absorbance at 652 nm is linearly correlated with the concentration of H_2O_2 from 2.0×10~(-6) mol/L to 2.03×10~(-5) mol/L(R~2=0.981) with a detection limit of 5.62×10~(-7) mol/L(S/N=3).More importantly,a sensitive and selective method for ascorbic acid detection was developed using this material as a catalyst.The analytical method for ascorbic acid detection was observed to have a linear range from 2.57×10~(-6) mol/L to 1.01×10~(-5) mol/L(R~2=0.989) with a detection limit of 1.03×10~(-6) mol/L(S/N=3).This work suggests MOFs have advantages of preparing biomimetic catalysts and extends applications of the functional MOFs in the field of biosensor.     

Graphene oxide–MnO_2 nanocomposite-modified glassy carbon electrode as an efficient sensor for H_2O_2

In this study, a new facile preparation method of nanocomposites consisting of graphene oxide and manganese dioxide nanowires(GO/MnO_2 NW_s) was developed. The morphology, structure and composition of the resulted products were characterized by transmission electron microscopy, X-ray diffraction and N_2 adsorption and desorption. The GO/MnO_2 nanocomposite was used as an electrode material for non-enzymatic determination of hydrogen peroxide. The proposed sensor exhibits excellent electrocatalytic performance for the determination of hydrogen peroxide in phosphate buffer solution(PBS, pH7) at an applied potential of 0.75 V. The non-enzymatic biosensor for determination of hydrogen peroxide displayed a wide linear range of 4.90 mmol L~(-1)–4.50 mmol L~(-1)with a correlation coefficient of 0.9992, a low detection limit of 0.48 mmol L~(-1) and a high sensitivity of 191.22μA(mmol L~(-1))~(-1)cm~(-2)(signal/noise, S/N = 3). Moreover, the non-enzymatic biosensor shows an excellent selectivity.     

尖晶石型过渡金属硫化物CuCo2S4与MoS2复合材料的制备及电催化析氢性能

通过简单的三步水热法实现尖晶石型过渡金属硫化物CuCo₂S₄与MoS₂的复合, 以三维多孔泡沫镍(NF)为基底, 制得自支撑催化电极MoS₂@CuCo₂S₄-Ni₃S₂/NF. 高分辨透射电子显微镜(HRTEM)、 X射线衍射(XRD)、 X射线光电子能谱(XPS)、 扫描电子显微镜(SEM)及透射电子显微镜(TEM)表征结果表明, MoS₂纳米片层密集均匀地生长在CuCo₂S₄-Ni₃S₂纳米棒表面, 并形成多级核壳结构. 其碱性条件下(1 mol/L KOH)的电催化析氢性能研究结果表明, MoS₂与CuCo₂S₄的复合和特殊形貌的构筑有效提高了电化学活性面积和电子传导效率, 达到10, 100和300 mA/cm²电流密度分别仅需116, 231和282 mV的过电位, 经2000次循环伏安扫描后, 100 mA/cm²电流密度所对应的过电位仅增大6%, 展现出优异的电催化析氢催化活性及较好的稳定性.     

Hydrothermal-assisted grinding route for WS2 quantum dots (QDs) from nanosheets with preferable tribological performance

The 2 D nanomaterials have achieved the superlubrication property whatever in solid or liquid lubrication in recent years.However,whether or not the nanosheets can stably disperse in oils and smoothly enter into the asperity of friction pairs is crucial for exerting the function of antifriction.The structure of 2 D QDs is desirable for addressing these issues due to its smaller 3 D size.In this study,we developed a facile preparation process for WS₂ QDs with uniform 2 nm size from nanosheets via hydrothermal-assisted grinding approach.The structure of the as-obtained WS₂ QDs was determined by a series of characterizations.The results showed that the as-obtained WS₂ QDs exhibited the typical spectrum features of nanosized quantum dot.The results of the tribological performance in grease verified that the average friction coefficient(ACOFs) and wear volume(AWVs) were decreased by 7.89% and 63.90%relative to grease,respectively,exhibiting a preferable friction reducing and wear resistance.     

基于层状二硫化钼纳米片比色检测亚锡离子

在醋酸/醋酸钠缓冲溶液(pH=4.5)中, 亚锡离子对层状二硫化钼(MoS₂)纳米片催化过氧化氢(H₂O₂)氧化邻苯二胺(OPD)的显色反应有很强的抑制作用, 据此构建了一种检测亚锡离子的比色传感器. 实验结果表明, 与不加MoS₂纳米片的OPD/H₂O₂比色传感体系相比, MoS₂/OPD/H₂O₂体系检测亚锡离子的灵敏度显著提高, 线性范围变宽. 在优化的条件下, MoS₂/OPD/H₂O₂传感体系检测亚锡离子的线性范围为0.02~3.0 μmol/L, 检出限为8 nmol/L (S/N=3). 该传感体系对检测亚锡离子具有高的选择性, 可用于湖水中亚锡离子的检测.     

Facile and efficient fabrication of g-C3N4 quantum dots for fluorescent analysis of trace copper(II) in environmental samples

A facile and efficient fabrication of g-C₃N₄ quantum dots with highly fluorescent based on recrystallization and ultrasonic exfoliation was presented. The obtained g-C₃N₄ QDs was successfully applied to the determination of trace Cu(II) in different environmental water samples.     

MoS_2@Co_9S_8蛋黄壳复合材料的制备及其电化学性能

近年来,过渡金属硫化物已成为锂离子电池理想的负极材料之一。其中,MoS_2具有的独特二维层状结构使得其能够让Li+在电化学反应中可逆地嵌入和脱出,且拥有较高的理论储锂容量(670 m A·h/g)而受到广泛关注。但MoS_2作为典型的半导体材料,电导率低下且在锂离子嵌入-脱出的过程中会发生较大程度的体积收缩膨胀,所以具有较差的倍率性能和循环性能,限制了其商业化的使用。很多研究通过优化MoS_2结构或与其它导电材料复合来克服上述缺陷。Co_9S_8具有较高的电导率,但由于其迟缓的离子传输动力学表现出低的首次库仑效率及较差的循环稳定性,基于此,将MoS_2与Co_9S_8结合利用二者协同效应来提高复合材料的电化学性能。本文采用溶剂热与气相沉积法制备得MoS_2@Co_9S_8蛋黄结构复合材料电极。MoS_2与Co_9S_8均匀分布于整个蛋黄壳结构,这有利于电子和锂离子的快速传输,从而有效地提升了电极的循环性能和倍率性能。其次,蛋黄壳的空穴有效缓解了在充放电过程中的体积膨胀,及其活性位点有效缩短了离子和电子的传输距离,提高了电极反应动力学并获得高比容量。MoS_2@Co_9S_8蛋黄壳复合物的循环性能与倍率性能在同等条件下均高于Co_9S_8和MoS_2,在电流密度为0.2 A/g下循环500圈后,放电容量仍能维持在631.5 m A·h/g。     

Dual-modal Colorimetric and Fluorometric Method for Glucose Detection Using MnO2 Sheets and Carbon Quantum Dots

A novel dual-modal fluorometric and colorimetric method was developed for glucose detection using MnO2 sheets and carbon quantum dots(CQDs). The glucose could be oxidized by glucose oxidase, in accompanied witli the fbnnation of H2O2 intennediate, which resulted in the decomposition of MnO2 sheets, as well as tlie MnO2 sheets(brown) changed to Mn^2+ ions(colorless), which induced the absorption of MnO2 sheet decreased and the fluorescence of CQDs increased, consequently. The linear detection ranges of glucose are 5-1000 μmol/L by fluorescent method and 5-60 μmol/L by colorimetric method. The limits of detection of these two measurements are 2.11 and 2.18 μmol/L, respectively. This method is easy to conduct, has reasonable sensitive and selectivity, and could be applied for the glucose detection in real human senim.     

Metal-organic framework as a multi-component sensor for detection of Fe3+, ascorbic acid and acid phosphatase

In this research,a hydroxyl group functionalized metal-organic framework(MOF),UiO-66-(OH)₂,was synthesized as a "on-off-on" fluore scent switching nanoprobe for highly sensitive and selective detection of Fe³⁺,ascorbic acid(AA) and acid phosphatase(ACP).UiO-66-(OH)₂ emits yellow-green light under ultraviolet light,when Fe³⁺ was added,Fe³⁺ was chelated with hydroxyl group,the electrons in the excited state S_1 of the MOF transferred to the half-filled 3 d orbits of Fe³⁺,resulting in fluorescence quenching because of the nonradiative electron/hole recombination annihilation.AA could reduce Fe³⁺ to Fe²⁺,which can destroy the electron transfer between UiO-66-(OH)₂ and Fe³⁺ after AA adding,resulted in nonoccurrence of the nonradiative electron transfer,leading to the recovery of UiO-66-(OH)₂ fluorescence intensity.The probe can also be used to detect ACP based on the enzymolysis of 2-phospho-L-ascorbic acid(AAP) to produce AA.Benefitting from the hydroxyl group and the characteristics of UiO-66,including the high porosity and large surface area,the developed UiO-66-(OH)₂ showed extensive advantages as a fluorescent probe for detection of multi-component,such as high sensitivity and selectivity,colorimetric detection,fast response kinetics and easy to operate,economical and secure.This is the first time to use active group functionalized MOFs as a multicomponent sensor for these three substances detection.     

助剂Ni与载体的相互作用及其对NiMo/γ-Al_2O_3催化剂加氢脱硫性能的影响

以γ-Al_2O_3为载体,制备了一系列不同NiO负载量的NiMo/γ-Al_2O_3催化剂,利用XRD、~(27)Al-MAS NMR、Py-FTIR和HRTEM等技术对其进行了表征;在高压微反装置对该系列催化剂的加氢脱硫性能进行了评价,研究了助剂Ni与载体γ-Al_2O_3中不饱和铝间的相互作用及其对催化剂活性相结构形貌和催化活性的影响。结果表明,助剂Ni优先作用于γ-Al_2O_3表面的四配位不饱和铝原子位置;随着NiO负载量的增加,硫化态NiMo/γ-Al_2O_3催化剂中MoS_2活性相的长度变短、堆垛层数增加。Ni的引入能明显提高NiMo/γ-Al_2O_3催化剂的加氢脱硫活性,但其加氢选择性则有所降低。