光催化氧化是一种应用前景良好的环境治理技术.与絮凝、物理吸附和化学氧化等常见的方法相比,光催化氧化具有环境友好、氧化完全、方便和廉价等优势.特别是可见光光催化氧化,可利用太阳能中占比最高的可见光,在应用中更具优势.因而,探索可见光响应性能优异的光催化剂一直是光催化氧化领域的一个重要研究内容.硒化铋(Bi2Se3)是一种带隙(带隙宽度在0.3~1.3 e V)非常窄的半导体,能吸收全部波长范围的可见光和近红外光.此外,Bi2Se3还具有独特的金属表面态,其表面具有良好的导电性.这些特性使其在可见光光催化氧化领域具有很大的应用潜力.然而,由于Bi2Se3价带位置高,氧化能力很弱,其价带上的空穴在光催化反应中难以被消耗,导致空穴大量累积,并迅速与光生电子复合,大幅降低了Bi2Se3的光催化性能.因此,一直以来,Bi2Se3很少被用于光催化反应.如何充分利用Bi2Se3的光响应优势,制备出性能优异的光催化剂,仍是具有挑战性和吸引力的研究方向.本文采用预先制备的Bi2O3/g-C3N4复合物作为前驱体,通过原位转化的方法,将前驱体置于热的Se蒸汽中,使前驱体上的Bi2O3与Se蒸汽反应,完全转化为Bi2Se3纳米颗粒,从而制得Bi2Se3/g-C3N4复合光催化剂(Bi2Se3含量约为4 wt%).透射电镜结果表明,所形成的Bi2Se3纳米颗粒较均匀地分布在g-C3N4表面.表面功函数分析发现,Bi2Se3与g-C3N4结合后,它们的费米能级分别由原来的-0.55和-0.18 e V变为平衡时的-0.22 e V,可形成指向g-C3N4的内建电场,有利于形成梯型(S型)异质结.在此基础上,能级位移、荧光分析、结构计算和反应自由基测试等结果表明,Bi2Se3和g-C3N4之间形成了S型异质结.在可见光光催化降解苯酚的实验中,所制备的Bi2Se3/g-C3N4复合物的光催化活性明显优于单一的Bi2Se3和g-C3N4.结合比表面、孔结构、光吸收和荧光等对比分析,认为Bi2Se3/g-C3N4的这种S型异质结构在其光催化活性增强中起到了关键作用.在光照条件下,其g-C3N4导带中光生电子向Bi2Se3的价带迁移,并与光生空穴复合,从而使Bi2Se3导带上可保留更多的高活性光生电子参与光催化反应,由此Bi2Se3/g-C3N4的光催化活性增强.循环性能测试和光还原实验结果表明,所制备的Bi2Se3/g-C3N4复合光催化剂具有良好的稳定性.本文工作为高可见光吸收的光催化剂制备和性能增强提供了新途径和新视野. 相似文献
Journal of Solid State Electrochemistry - An ultrasensitive “signal-off–on” electrochemiluminescence (ECL) biosensor is constructed based on f1-TiO2/g-C3N4/PDA for thrombin... 相似文献
In this paper,the global existence of the classical solution to the vacuum free boundary problem of full compressible magnetohydrodynamic equations with large initial data and axial symmetry is studied.The solutions to the system(1.6)–(1.8) are in the class of radius-dependent solutions,i.e.,independent of the axial variable and the angular variable.In particular,the expanding rate of the moving boundary is obtained.The main difficulty of this problem lies in the strong coupling of the magnetic field,velocity,temperature and the degenerate density near the free boundary.We overcome the obstacle by establishing the lower bound of the temperature by using different Lagrangian coordinates,and deriving the uniform-in-time upper and lower bounds of the Lagrangian deformation variable r;by weighted estimates,and also the uniform-in-time weighted estimates of the higher-order derivatives of solutions by delicate analysis. 相似文献
In this research, the n-butyl palmitate was synthesized using the esterification reaction of the PA with n-butanol. The 1H nuclear magnetic resonance and Fourier transform infrared illustrated that the hydroxyl group and carboxyl group disappeared, and the ester bond appeared after the reaction, explaining that n-butyl palmitate was successfully fabricated. The differential scanning calorimetry indicated that the phase-transition temperature and latent heat are 12.6 °C and 127.1 J g?1, which was suited to use in low-temperature fields such as food, pharmaceutical, and biomedical. The thermogravimetric analysis suggested that it had great thermal stability during the phase change process. In addition, the thermal conductivity of the n-butyl palmitate was slightly higher than other fatty acid ester, and the 500 thermal cycles test results indicated that it had excellent thermal reliability. Therefore, the n-butyl palmitate is deduced to share great thermal energy storage ability in terms of latent heat thermal energy system applications.
In order to further explore the detailed reaction mechanism of carbon dioxide activated by [Re(CO)2]+ complex, CCSD(T) methods was performed to determine related potential energy surface (PES). Crossing point is determined by using a partially optimized method. The result shows that larger spin-orbital coupling (155.37 cm−1) and intersystem crossing probabilities in spin-forbidden region causes the electron to spin flip at the minimum energy crossing point and access to the lower singlet PES. Nonadiabatic rate constant k is estimated to be quite rapid, so transition state (1TS1) is rate-controlled steps. In addition, the electronic structure of oxygen-atom transfer process is further analyzed by localized molecular orbital and Mayer bond order. The analysis finds that the form of main bonding orbital is the electron contribution from the p(O) in CO2 to the empty d(Re) orbital. 相似文献
A number of adamantane‐containing ruthenium(II) and rhenium(I) complexes have been synthesized, characterized, and noncovalently functionalized with β‐cyclodextrin‐capped gold nanoparticles (β‐CD–GNPs) through the host–guest interaction between cyclodextrin and adamantane. The resultant nanoconjugates have been characterized by transmission electron microscopy (TEM), energy‐dispersive X‐ray analysis (EDX), and 2D ROESY 1H NMR experiments. The Förster resonance energy transfer (FRET) properties of the nanoconjugates can be modulated by both esterase‐accelerated hydrolysis and competitive displacement of steroid, by monitoring the emission intensity and luminescence lifetime. The FRET efficiencies are found to vary with the nature of the chromophores and the length of the spacer between the transition metal complexes and the GNPs. This work constitutes a “proof‐of‐principle” assay method for the dual‐functional detection of important classes of biomolecules, such as enzymes and steroids. 相似文献
A homochiral helical three‐dimensional coordination polymer, poly[[(μ2‐acetato‐κ3O,O′:O)(hydroxido‐κO)(μ4‐5‐nicotinamido‐1H‐1,2,3,4‐tetrazol‐1‐ido‐κ5N1,O:N2:N4:N5)(μ3‐5‐nicotinamido‐1H‐1,2,3,4‐tetrazol‐1‐ido‐κ4N1,O:N2:N4:N5)dicadmium(II)] 0.75‐hydrate], {[Cd2(C7H5N6O)2(CH3COO)(OH)]·0.75H2O}n, was synthesized by the reaction of cadmium acetate, N‐(1H‐tetrazol‐5‐yl)isonicotinamide (H‐NTIA), ethanol and H2O under hydrothermal conditions. The asymmetric unit contains two crystallographically independent CdII cations, two deprotonated 5‐nicotinamido‐1H‐1,2,3,4‐tetrazol‐1‐ide (NTIA−) ligands, one acetate anion, one hydroxide anion and three independent partially occupied water sites. The two CdII cations, with six‐coordinated octahedral and seven‐coordinated pentagonal bipyramidal geometries are located on general sites. The tetrazole group of one symmetry‐independent NTIA− ligand links one of the independent CdII cations into 61 helical chains, while the other NTIA− ligand links the other independent CdII cations into similar but unequal 61 helical chains. These chains, with a pitch of 24.937 (5) Å, intertwine into a double‐stranded helix. Each of the double‐stranded 61 helices is further connected to six adjacent helical chains through an acetate μ2‐O atom and the tetrazole group of the NTIA− ligand into a three‐dimensional framework. The helical channel is occupied by the isonicotinamide groups of NTIA− ligands and two helices are connected to each other through the pyridine N and carbonyl O atoms of isonicotinamide groups. In addition, N—H...O and O—H...N hydrogen bonds exist in the complex. 相似文献
Morphologically and dimensionally controlled growth of Ag nanocrystals has long been plagued by surfactants or capping agents that complicate downstream applications, unstable Ag salts that impaired the reproducibility, and multistep seed injection that is troublesome and time-consuming. Here, we report a one-pot electro-chemical method to fast (∼2 min) produce Ag nanoparticles from commercial bulk Ag materials in a nitric acid solution, eliminating any need for surfactants or capping agents. Their size can be easily manipulated in an unprecedentedly wide range from 35 to 660 nm. Furthermore, the Ag nanoparticles are directly grown on the Ag substrate, highly desirable for promising applications such as catalysis and plasmonics. The mechanistic studies reveal that the concentration of Ag+ in the diffusion layer nearby the surface, controlled by the magnitude and duration of voltage, is critical in governing the nanoparticle formation (<1.3 mM) and its dimensional adjustability. 相似文献