Electrochemical property of α-PbO prepared from the spent negative powders of lead acid batteries

To make full and economic use of the spent lead acid batteries (LABs), we have invented a novel route to separate their negative electrode material from positive one, which are respectively used to fabricate α-PbO for new LABs. This paper reports preparation and electrochemical property of α-PbO from the spent negative material which is compose of PbSO₄ (the major phase) and Pb (the minor phase). To make things simpler, pure PbSO₄ is firstly used as the model compound and desulfated with (NH₄)₂CO₃ to obtain PbCO₃, which is then calcined in air at different temperatures to produce PbO. At 450 °C, the calcination produces pure α-PbO that discharges a capacity of 98.6 mAh g^?1 at the current density of 120 mA g^?1 after 50 charging and discharging cycles of 100 % DOD. By using the same procedures, the real spent negative powder is also treated to produce pure α-PbO, which discharges a similar capacity of 100 mAh g^?1 at 120 mA g^?1. This is 25 % higher than that of industrial leady oxide. These results show that the small amount of metallic lead has little effect on the treatment.     

Preparation and nonlinear optical properties of Au nanoparticles doped TiO2 thin films

Nano-sized noble metal nanoparticles doped dielectric composite films with large third-order nonlinear susceptibility due to the confinement and the enhancement of local field were considered to be applied for optical information processing devices, such as optical switch or all optical logical gates. In this paper, sol–gel titania thin films doped with gold nanoparticles (AuNPs, ~10 nm in average size) were prepared. AuNPs were firstly synthesized from HAuCl₄ in aqueous solution at ~60 °C, using trisodium citrate as the reducing agent, polyvinylpyrrolidone as the stable agent; then the particle size and optical absorption spectra of the AuNPs in aqueous solutions were characterized by transmitting electron microscopy and UV–Vis–NIR spectrometry. Sol–gel 2AuNPs–100TiO₂ (in %mol) thin films (5 layers, ~1 μm in thickness) were deposited on silica glass slides by multilayer dip-coating. After heat-treated at 300–1,000 °C in air, the AuNPs–TiO₂ thin films were investigated by X-ray diffraction, scanning electron microscopy and atomic force microscopy. The nonlinear optical properties of the AuNPs–TiO₂ thin films were measured with the Z-scan technique, using a femtosecond laser (200 fs) at the wavelength of 800 nm. The third-order nonlinear refractive index and nonlinear absorption coefficient of 2AuNPs–100TiO₂ films were at the order of 10^?12 cm²/W, and the order of 10^?6 cm/W, respectively, and the third-order optical nonlinear susceptibility χ⁽³⁾ was ~6.88 × 10^?10 esu.     

LC-MS–MS Simultaneous Determination of Niacin, Niacinamide and Nicotinuric Acid in Human Plasma LC-MS–MS and Its Application to a Human Pharmacokinetic Study

A highly selective and sensitive liquid chromatographic tandem mass spectrometric (LC-MS–MS) method was developed and validated for the quantitation and pharmacokinetic study of niacin (NA) and its two metabolites niacinamide (NAM) and nicotinuric acid (NUR) in human plasma. Protein precipitation with 14% perchloric acid solution was selected for sample preparation, and ganciclovir was used as an internal standard. Separation was on a Phenomenex Curosil-PFP (250 mm × 4.6 mm, 5 μm) column by a multiple steep steps linear gradient elution with mobile phase consisting of water and methanol, both containing 0.1% formic acid, pumped at a flow rate of 1 mL min^?1. The determination was optimized and carried out with positive electrospray ionization by selective multiple reaction monitoring. The method was linear in the concentration range of 15–2,000 ng mL^?1 for NA, 70–2,000 ng mL^?1 for NAM and 10–2,000 ng mL^?1 for NUR, by standard addition calibration. The application of LC-MS–MS was demonstrated for the specific and quantitative analysis of NA, NAM and NUR in human plasma from a pharmacokinetic study in 12 healthy Chinese volunteers treated with three incremental doses of niacin extended-release/lovastatin tablets and an additional steady-state regime.     

Demonstration of High Speeds with Low Pressure Drops Using 1.8 μm Particles in SFC

The literature contains few, if any, references to the use of sub-2 μm particles in supercritical fluid chromatography (SFC). In this study, the use of 1.8 μm particles in SFC is demonstrated, producing high efficiency chromatograms, less than 1 min long for each of a diverse range of solute families, including steroids, sulfonamides, profens, nucleic acids and xanthenes. Most of the solutes eluted from bare silica with surprisingly good peak shapes. The 3 × 100 mm column packed with 1.8 μm spherical silica particles, produced as many as 22,400 plates (80% of theoretical). Column head pressure did not exceed 410 bar and pressure drops did not exceed 240 bar, even at flows of 3 mL min^?1, or modifier concentration as high as 65%. Such performance produced the fastest solvation based chromatography (LC–SFC) reported to date. The chromatographic hardware requirements are met by older (400 bar max.) LC equipment. The speeds observed exceed even ultra high performance liquid chromatography (UHPLC), which requires dramatically higher pressure capability. Sub 2-μm particles appear suitable for routine use, employing common 400 bar LC equipment, only slightly modified to perform SFC, although faster detectors and smaller flow cells enhance performance.     

Ultrathin-Layer Chromatography (UTLC)

Ultrathin-layer chromatography (UTLC) differs from high-performance thin-layer chromatography (HPTLC) and from thin-layer chromatography (TLC) in two basis things: the layer thickness, and the migration distances of the analytes. UTLC has a monolithic or a nanostructured stationary silica gel phase bound directly to the glass plates. Layer thickness in UTLC is 10 μm, instead of 100–250 μm in HPTLC. Migration distances are in the range of 1–3 cm for UTLC, instead of 8–10 cm for HPTLC. Therefore, the major advantages of UTLC over HPTLC and TLC are the shorter development times and higher separation efficiency and sensitivity. Moreover, separations on UTLC plates require smaller reagent and sample volumes. However, the UTLC plates are very difficult to manage with the TLC and HPTLC equipment currently available. Therefore, the next challenge in this area is the development of an inexpensive solution with appropriate instrumentation (sensitive optical scanners and sample application systems). UTLC had been used for separations of many compounds, e.g., pharmaceutically active ingredients, pesticides, plasticisers, natural products, and other chemical substances.     

不锈钢基/β-PbO2-TiO2-Co3O4复合镀层制备及其性能表征

使用直流复合电沉积方法制备不锈钢基β-PbO2、TiO2掺杂β-PbO2、Co3O4掺杂β-PbO2、TiO2和Co3O4共掺杂β-PbO2复合镀层材料.采用SEM、EDS、XRD和电化学测试等对复合电极进行形貌、成分、组成和催化活性表征,并且将不锈钢基/β-PbO2-TiO2-Co3O4电极应用到锌电积实验中.结果表明,添加Co3O4能提高PbO2电极的催化活性;添加TiO2可以起到细化晶粒,增大比表面积的作用;不锈钢基β-PbO2-TiO2-Co3O4复合镀层阳极与Pb-Ag合金阳极相比,锌电积槽电压降低为2.97V,电流效率提高到91.2％,使用寿命延长.     

Sensing water in organic solvent using a polyurethane-silica hybrid membrane doped with a luminescent ruthenium complex

We have prepared an ~1.4 μm thin hybrid film from polyurethane (PU) hydrogel and tetraethylorthosilicate (TEOS) by a sol–gel method, and have incorporated the red-luminescent ruthenium-tris-bipyridyl complex. At an optimized ratio of PU/TEOS (1.5:1; w/w) and annealing temperature (60 °C), the membrane sensor exhibits good capability to extract water from organic solvents but also can well retain the ruthenium dye. If contacted with water-containing organic solvents such as acetone or THF, both the luminescence intensity and wavelength change significantly. The response of luminescence intensity to the water fraction in organics is sigmoidal, which can be well fitted with a modified Stern-Volmer equation. The sensor works in the ranges of 0–6 % and 0–12 % (v/v) of water in acetone and THF, respectively, with detection limits of 0.13 % and 0.486 % (v/v).

Electrochemical performance of LiMn2O4 microcubes prepared by a self-templating route

LiMn₂O₄ microcubes with a size of 10–15 μm have been synthesized by a facile self-templating route starting from cubic MnCO₃. The LiMn₂O₄ microcubes exhibit a hierarchical structure, where the cubes are stacked from parallel plates with a thickness of 200 nm, where each plate is composed of interconnected nanoparticles with a size of around 200 nm. The cubic LiMn₂O₄ shows excellent rate capability and high-rate cycling stability. At 10 C, it can yield a discharge capacity of 108 mAh g^?1. A discharge capacity of 88 mAh g^?1 can be retained after 100 cycles at 10 C. The excellent electrochemical performance makes it a promising cathode for high-power Li-ion batteries.     

阀控蓄电池活性物质微观结构对性能影响的研究

通过SEM、XRD检测不同工艺条件下的生极板及活极板组分,并对不同组分的极板进行不同倍率的放电检测及循环检测. 结果表明,极板的制作工艺和化成过程工艺影响极板化成后α-PbO₂和β-PbO₂含量及结构,从而影响蓄电池的性能,是4BS（四碱式硫酸铅）技术应用过程中的关键控制点. 4BS技术的应用为蓄电池薄极板化、深循环、长寿命等提供了技术基础.     

Acetone sensor based on solvothermally prepared ZnO doped with Co3O4 nanorods

This paper describes a reliable and sensitive method for sensing dissolved acetone using doped nanomaterials. Large-scale synthesis of ZnO nanorods (NRs) doped with Co₃O₄ was accomplished by a solvothermal method at low temperature. The doped NRs were characterized in terms of their morphological, structural, and optical properties by using field-emission scanning electron microscopy coupled with energy-dispersive system, UV-Vis., Fourier transform IR, X-ray diffraction, and Xray photoelectron spectroscopy. The calcinated (at 400 °C) doped NRs are shown to be an attractive semiconductor nanomaterial for detecting acetone in aqueous solution using silver electrodes. The sensor exhibits excellent sensitivity, stability and reproducibility. The calibration plot is linear over a large concentration range (66.8 μM to 0.133 mM), displays high sensitivity (~3.58 μA cm^?2 mM^?1) and a low detection limit (~14.7?±?0.2 μM; at SNR of 3).

Effect of crystallization route on the properties of LiMn2O4 thin films prepared by spin coating

LiMn₂O₄ thin films were prepared by spin coating through intermediate amorphous layer route (IALR) and intermediate crystallized layer route (ICLR). The phase identification, surface morphology, and electrochemical properties of the films prepared by different crystallization routes were studied by X-ray diffraction, scanning electron microscopy, and galvanostatic charge–discharge experiments. The results show that both films prepared by different crystallization routes are homogeneous and crack free. Compared with the film prepared by IALR, the film prepared by ICLR shows smaller grain size and is smoother and denser. The LiMn₂O₄ film prepared by ICLR delivers the specific capacity of 39.8 μAh?cm^?2?μm^?1, which is higher than 35.6 μAh?cm^?2?μm^?1 for the one prepared by IALR. The capacity loss of the film prepared by ICLR after being cycled 100 times is 3.4 %, which is smaller than that of 5.5 % for the film prepared by IALR. The film prepared by ICLR shows higher specific capacity and better cycling behavior than the one prepared by IALR.     

Electrochemical characteristics and interfacial contact resistance of Ni-P/TiN/PTFE coatings on Ti bipolar plates

The Ni-P/TiN/PTFE (poly tetra fluoroethylene) composite coatings were prepared by electroless plating method on Ti plate, which was used as bipolar plates of proton exchange membrane fuel cells (PEMFCs). The morphology, crystallographic texture, electrochemical corrosion, contact resistance, and hydrophobic property of the Ti bipolar plates with coatings were investigated. The results revealed that Ni-P/TiN/PTFE coating had a dense surface morphology, uniform distribution of composite particles. Ti with coating showed 0.48 μA cm² of corrosion current in the simulated solution of PEMFCs and 6 mΩ cm² of interfacial contact resistance (ICR). The hydrophobicity test showed that the coating interface was flat and the wetting angle was 112.4°. In conclusion, The Ni-P/TiN/PTFE composite coatings exhibit superior improvement in corrosion resistance, interface hydrophobicity, and conductivity to Ni-P, Ni-P/TiN, and Ni-P/PTFE coatings. The Ni-P/TiN/PTFE coating was suited for bipolar plate surface modification of bipolar plates.     

Rapid Isocratic HPLC Method and Sample Extraction Procedures for Measuring Carotenoid,Retinoid, and Tocopherol Concentrations in Human Blood and Breast Milk for Intervention Studies

Vitamin A deficiency continues to be a major public health concern in the developing world effecting over 200 million people. Interventions including carotenoid-rich fruits and vegetables, containing α- and β-carotene, and β-cryptoxanthin, are being tested for their potential to alleviate vitamin A deficiency in several countries. Thus, there is a need for a faster isocratic reverse-phase high pressure liquid chromatography (HPLC) method than the methods currently available. Efficient extraction procedures for biological samples are also valuable to save time, materials, and cost. We developed an HPLC method and compared several extraction methods for carotenoids, retinoids, and vitamin E in plasma and human breast milk. The method uses an Agilent 1100 system equipped with a Waters Spherisorb ODS2 column (3 × 125 mm 3 μm) and similar guard column (ThermoScientific ODS2 3 × 20 mm 3 μm). Mobile phase of 7:2:1 acetonitrile:dichloromethane:methanol was run at 0.5 mL min⁻¹, and run times were complete in approximately 8 min. This rapid method uses little solvent and provides excellent results in the analysis of these fat-soluble nutrients. Analyte measurements were repeatable using standards and plasma and were accurate compared to NIST certified and reference serum values. The validated HPLC method was applied to the analysis of plasma samples from a vitamin A intervention study.

     

Thermal transformations of lead oxides

Differential scanning calorimetry, differential thermogravimetry, X-ray analysis and electronic microscopic studies of thermal transformations of PbO₂ were carried out. Formation of fine dispersed (less than 100 nm) particles of α-PbO was observed at PbO₂ thermal decomposition at heating to 580°C. Reverse reaction of Pb₃O₄ formation from PbO was found at cooling and annealing at 400°C in air. At heating of α-PbO to 650°C the particle growth to 1 μm with formation of β-PbO took place. Thermal decomposition with formation of β-PbO particles with size from 0.3 to 1 μm at PbO₂ heating to 650°C was observed. Transition from PbO to Pb₃O₄ at cooling of sample heated to 650°C was not detected. Interpretation of observed phenomena from the point of view of particle size influences on the shift of α-PbO↔β-PbO phase transition temperature and on the chemical activity of phases are presented.     

An automated headspace solid-phase microextraction followed by gas chromatography–mass spectrometry method to determine macrocyclic musk fragrances in wastewater samples

A fully automated method has been developed for determining eight macrocyclic musk fragrances in wastewater samples. The method is based on headspace solid-phase microextraction (HS-SPME) followed by gas chromatography–mass spectrometry (GC-MS). Five different fibres (PDMS 7 μm, PDMS 30 μm, PDMS 100 μm, PDMS/DVB 65 μm and PA 85 μm) were tested. The best conditions were achieved when a PDMS/DVB 65 μm fibre was exposed for 45 min in the headspace of 10 mL water samples at 100 °C. Method detection limits were found in the low ng L^?1 range between 0.75 and 5 ng L^?1 depending on the target analytes. Moreover, under optimized conditions, the method gave good levels of intra-day and inter-day repeatabilities in wastewater samples with relative standard deviations (n?=?5, 1,000 ng L^?1) less than 9 and 14 %, respectively. The applicability of the method was tested with influent and effluent urban wastewater samples from different wastewater treatment plants (WWTPs). The analysis of influent urban wastewater revealed the presence of most of the target macrocyclic musks with, most notably, the maximum concentration of ambrettolide being obtained in WWTP A (4.36 μg L^?1) and WWTP B (12.29 μg L^?1), respectively. The analysis of effluent urban wastewater showed a decrease in target analyte concentrations, with exaltone and ambrettolide being the most abundant compounds with concentrations varying between below method quantification limit (<MQL) and 2.46 μg L^?1.

Validation of an HPLC Method for the Determination of Valdecoxib and its Degradation Product: a Mixture of α- and β-n-Lactosyl Sulfonamide Anomers

An HPLC method has been developed for the separation of valdecoxib and a degradation product consisting of α and β-N-lactosyl sulfonamide, i.e. α and β anomers (SC-77852). Best results were achieved with a Chromolith Performance RP-18e column (100 mm × 4.6 mm), macropore size 2 μm, mesopore size 13 nm, with an eluent of methanol:water containing a 1% solution of TEA (36:64 v/v), pH 7.4 (adjusted with 85% orthophosphoric acid), at 22 °C. Detection was at 220 nm. The method was validated for its selectivity, linearity, precision (repeatability) and robustness. Quantitation and detection limits were determined for both valdecoxib and SC-77852. Method robustness was further evaluated by performing 2³ full factorial design experiments. The final step, optimisation of the variables, was performed using response surface design. The validated method was used for assay of valdecoxib and SC-77852 in Bextra^® film-coated tablets.     

Particle size effects of carbon sources on electrochemical properties of LiFePO<Subscript>4</Subscript>/C composites

Carbon-coated LiFePO₄ cathode materials were prepared by a solid-state method incorporating different sizes of polystyrene (PS) spheres as carbon sources. In scanning electron microscope images, small PS spheres appear more effective at preventing aggregation of LiFePO₄ particles. From transmission electron microscopy images, it was found that the LiFePO₄ particles were completely uniformly coated with 5-nm carbon layer when the carbon source was 0.22 μm PS spheres. When the size of PS sphere was increased to 2.75 μm, a network of carbon was formed and wrapped around the LiFePO₄ to create a conductive web. Raman spectroscopy and four-point probe conductivity measurement showed that using larger sizes of PS spheres as carbon sources leads to greater conductivity of LiFePO₄/C. The LiFePO₄ precursor sintered with 0.22 μm PS spheres delivered an initial discharge capacity of 145 mAh g^?1 at a 0.2 C rate, but it only sustained 289 cycles at 80% capacity. When the diameter of PS spheres was increased to 2.75 μm, the discharge capacity of LiFePO₄/C decreased, but the cycle life reached 755 cycles, the highest number in this work probably due to the network formation of carbon wrapping around LiFePO₄ particles.     

Synthesis and characterization of Na2O–CaO–SiO2 glass–ceramic

The Na₂O–CaO–SiO₂ ternary glass–ceramic with the composition of 49 mass% Na₂O, 20 mass% CaO, and 31 mass% SiO₂ was prepared by the conventional method. The ternary glass–ceramic was characterized using X-ray diffraction (XRD), differential thermal analysis (DTA), thermogravimetric analysis, Fourier transform infrared spectroscopy, and scanning electron microscopy techniques. The Na₂CaSiO₄ phase, having the cubic crystal system, with the crystallite size of 25.14 nm and lattice parameter of 0.7506 nm was determined from the XRD pattern. The activation energy of the glass–ceramic calculated from the DTA curves was found to be 162.02 kJ mol^?1. The Avrami exponent was found to be ~2 indicating a one-dimensional growth process. The mass loss percent from ambient temperature to 1,173 K is less than 1 %. The density was calculated to be 2,723 kg m^?3. The fine-grained microstructure with the particle sizes less than 1 μm was confirmed by the scanning electron microscope micrograph.     

Multi-functional coating of cellulose nanocrystals for flexible packaging applications

In this paper, we systematically address the performance of cellulose nanocrystals (CNs) coated flexible food packaging films. Firstly, the morphology of CNs from cotton linters and homogeneity of its coating on different substrates were characterized by transmission electronic microscopy and atomic force microscopy. Then, the 1.5 μm thick CNs coating on polyethylene terephthalate (PET), oriented polypropylene, oriented polyamide (OPA), and cellophane films were characterized for their mechanical, optical, anti-fog, and barrier properties. CNs coating reduces the coefficient of friction while maintaining high transparency (~90 %) and low haze (3–4 %) values, and shows excellent anti-fog properties and remarkable oxygen barrier (oxygen permeability coefficient of CNs coating, P’O₂, 0.003 cm³ μm m^?2 24 h^?1 kPa^?1). In addition, the Gelbo flex test combined with oxygen permeance (PO₂) measurements and optical microscopy are firstly reported for evaluating the durability of coatings, revealing that the CNs coated PET and OPA provide the best performance among the investigated coated films. CNs are therefore considered to be a promising multi-functional coating for flexible food packaging.     

Determination of Five Polyphenols by HPLC/DAD and Discrimination of Apple Varieties

The objective of this study was to set up a method to detect five compounds in fresh smashed apples by HPLC/DAD simultaneously. Different methods have been tested to control browning and ascorbic acid with ultrasonication was adopted. Methanol–water–acetic acid (30:69:1, v/v) containing 2.0 g of ascorbic acid L^?1 was chosen as the extract solvent. The method effectively simplified the sample treatment compared with the traditional ways. And primarily, the results were used to identify between different varieties. The chromatographic separation was performed on an Atlantis C18 (250 mm × 4.5 mm, particle size 5 μm) with a gradient elution program using a mixture of acetonitrile and 2% aqueous acetic acid (v/v) as mobile phase within 20 min at 270 nm wavelength. The variation of the content of five compounds was gallic acid (ND ~1.81 μg g^?1), protocatechuic acid (ND ~1.79 μg g^?1), chlorogenic acid (13.81–189.4 μg g^?1), caffeic acid (6.82–45.02 μg g^?1) and rutin (0.96–18.55 μg g^?1). The results could successfully be used to discriminate between different apple varieties (Gala, Fuji, Delicious, 8th Apple US, Golden Apple, Green Apple and Red Rose); chlorogenic acid and rutin being the polyphenols that contribute most to the differentiation.