金属团簇MoS4Cu4(SCN)2(NC5H5)6的皮秒光学非线性特性和光限幅特性研究

由于激光技术的快速发展，新型超快可调谐波长的高功率激光器更多的在民用和军事上应用。快速的非线性光学器件的需求越来越多。近10年，人们投入大量研究寻找超快光学非线性材料，同时寻找快速响应、高线性透过率和低非线性透过率以及高损伤阈值的光限幅材料，研究发现金属酞菁化合物、金属卟啉化合物以及富勒烯衍生物具有良好的光限幅效果和强的光学非线性特性。     

Synthesis and biological evaluation of novel indoleamide derivatives as antioxidative and antitumor agents

Novel indole amide derivatives C1-C10 were successfully synthesized and characterized by ¹H NMR, ¹³C NMR, IR, MS, and elemental analysis, and their molecular formulas were C₁₄H₁₀N₆O, C₁₃H₁₀N₄O, C₁₆H₁₃N₃O₂, C₁₉H₁₄N₂O₂, C₁₆H₁₁N₃OS, C₁₅H₁₃N₃O, C₁₂H₉N₅O, C₁₆H₁₀ClN₃OS, C₁₅H₁₇N₃O₂, and C₁₃H₁₄N₂O₃, respectively. The primary biological activities of these compounds were evaluated in vitro by the DPPH assay, H₂O₂-induced oxidative stress injury assay, and cytotoxicity assay. The results indicated that compounds C1, C2, C4, C7, and C9 exhibited DPPH·scavenging ability, while C3, C4, C5, and C8 showed potent growth-inhibitory activities against various human tumor cells, including MDA-MB-231, Hela, A549, and HT29. Interestingly, compound C4 showed potent scavenging effects on the DPPH radical and possessed protective effect on H₂O₂-induced oxidative stress injury in human neuroblastoma SH-SY5Y cells at low concentrations; however, C4 exhibited significant toxicity against four human tumor cells at a higher concentration in all treatments, and the range of IC₅₀ value was 7.91 to 13.35 μM.     

霉变食品中新亚硝胺:N-3-甲基丁基-N-1-甲基丙酮基亚硝胺

以林县粮食中常见的霉菌如白地霉、土曲霉等接种于玉米面饼上,培养数日后,加一定量亚硝酸钠,即可产生亚硝胺,其中经高分辨GC-MS证实,有N-3-甲基丁基-N-1-甲基丙酮基亚硝胺,我们又通过化学合成MAMBNA加以验证,证明化学合成的MAMBNA与霉变玉米面饼中分离的MAMBNA结构完全一致,本文对产生这种新亚硝胺的物质基础和其在食管癌高发区中的意义进行了讨论。     

Synthesis and structure of ethyl (Z)-α-formylamino-β-arylacrylates

Ethyl (Z)-α-formylamino-β-arylacrylates were obtained in good yields by the condensation of ethyl N, N-diformylamino acetate and aromatic aldehydes in the presence of sodium ethoxide in ethanol. The structure of ethyl α-formylaminocinnamate was characterized by single crystal X-ray diffraction measurement.     

Amperometric hydrogen peroxide biosensor based on the immobilization of heme proteins on gold nanoparticles-bacteria cellulose nanofibers nanocomposite

A novel matrix, gold nanoparticles-bacterial cellulose nanofibers (Au-BC) nanocomposite was developed for enzyme immobilization and biosensor fabrication due to its unique properties such as satisfying biocompatibility, good conductivity and extensive surface area, which were inherited from both gold nanoparticles (AuNPs) and bacterial cellulose nanofibers (BC). Heme proteins such as horseradish peroxidase (HRP), hemoglobin (Hb) and myoglobin (Mb) were successfully immobilized on the surface of Au-BC nanocomposite modified glassy carbon electrode (GCE). The immobilized heme proteins showed electrocatalytic activities to the reduction of H₂O₂ in the presence of the mediator hydroquinone (HQ), which might be due to the fact that heme proteins retained the near-native secondary structures in the Au-BC nanocomposite which was proved by UV-vis and IR spectra. The response of the developed biosensor to H₂O₂ was related to the amount of AuNPs in Au-BC nanocomposite, indicating that the AuNPs in BC network played an important role in the biosensor performance. Under the optimum conditions, the biosensor based on HRP exhibited a fast amperometric response (within 1 s) to H₂O₂, a good linear response over a wide range of concentration from 0.3 μM to 1.00 mM, and a low detection limit of 0.1 μM based on S/N = 3. The high performance of the biosensor made Au-BC nanocomposite superior to other materials as immobilization matrix.     

Theoretical analysis of nanosecond crystallization kinetics of phase-change optical recording films

A theoretical investigation of nanosecond crystallization kinetics of the phase-change optical recording films is presented. An extended Kissinger equation for the square-root heating is derived, which properly describes the temperature evolution of the films by nanosecond laser heating. The extended Kissinger equation was used to explain our previous experimental results.     

Theory of Z-scan technique using Gaussian-Bessel beams with a phase object

This paper reports the theoretical study of combining Z-scan technique with Gauss-Bessel (GB) beams beside a phase object (PO) to measure the third-order nonlinear susceptibility components.By using this method,the sign of refractive index which depends on the shape of the close aperture Z-scan curve can be easily determined.Meanwhile,the magnitude of nonlinear coefficients can also be deduced by theoretical fit.The proposed method is advantageous for high sensitivity and imposes a lower stress in the cases of fragile materials,since small pulse energy is enough for the measurement of nonlinear coefficients.Predictions of the models are compared with Gaussian Z-scan measurement and GB Z-scan measurement.By using GB beams with a PO,the sensitivity of Z-scan measurements is found to be a factor of over 60 times greater than for Gaussian beams and 2 times greater than for Gaussian-Bessel beams.     

Third-Order Optical Nonlinearity in Novel Porphyrin Dimers

We investigate the third-order optical nonlinearities in four novel porphyrin dimers （dimers A to D） and a monomeric porphyrin H2 CPTPP measured by using the single-beam z-scan technique with a pulsed Q-switched Nd：YAG nanosecond laser at 532nm. All the samples show strong excited state absorption （ESA） and high value of Х^（3） in the ns domain at this wavelength. We perform a comparison between dimer A and its monomer H2 CPTPP in their third-order optical nonlinearity, and discuss the relationships between the values of Х^（3） and the different bridging groups for all the dimers.     

Assembly of [(eta5-C5Me5)MoS3Cu3]-supported one-dimensional chains with single, double, triple, and quadruple strands

The construction of a new set of [(eta5-C5Me5)MoS3Cu3]-based supramolecular compounds with different one-dimensional (1D) arrays from two preformed clusters [PPh4][(eta5-C5Me5)MoS3(CuX)3] (X = Br (1a), NCS (1b)) with 1,2-bis(4-pyridyl)ethane (bpe) and 1,3-bis(4-pyridyl)propane (bpp) is presented. Reactions of 1a with bpe in different molar ratios afforded ([((eta5-C5Me5)MoS3Cu3) 2(mu-bpe)3.5Br4].MeCN) n (2), ([((eta5-C5Me5)MoS3Cu3)2(mu-bpe)3Br4].Sol)n (3a: Sol = DMSO.3MeCN; 3b: Sol = 2aniline.3MeCN), ([((eta5-C 5Me5)MoS3Cu3)2(mu-bpe)3(bpe)Br4].0.35DMF)n (4), and ([((eta5-C5Me5)MoS3Cu3)2(mu-bpe)2(mu-Br)(mu3-Br)Br2].DMF.MeCN)n (5). On the other hand, treatment of 1a or 1b with bpp produced [(eta5-C5Me5)MoS3Cu3(mu-bpp)(mu-Br)Br]n (6) and ([((eta5-C5Me5)MoS3Cu3)2(mu-bpp)3(mu-NCS)2(NCS)](NCS))n (7). Compounds 2-7 have been characterized by elemental analysis, UV-vis spectroscopy, IR spectroscopy, 1H NMR, and X-ray analysis. In 2, each [(eta5-C5Me5)MoS3Cu3] core serves as an angular two-connecting node to link other equivalent cores by single and double bpe bridges to form a 1D "Great Wall"-like chain. In 3a and 3b, the [(eta5-C5Me5)MoS3Cu3] cores are linked alternatively by single and double bpe bridges to give a 1D zigzag chain. In 4, six cluster cores (two as a two-connecting node and four as a three-connecting node) are connected by four single bpe and two double bpe bridges to form a cyclohexane-shaped repeating unit, which is further fused with other units to generate a 1D double-stranded chain. Compound 5 has a simple 1D zigzag chain consisting of the cluster cores linked by single bpe bridges. In 6, the cluster cores are linked by single bpp bridges to give a 1D helical chain, which further holds two symmetry-related chains through C-H...Br hydrogen-bonding interactions, thereby forming a 1D H-bonded triple-stranded chain. Compound 7 has a rare 1D quadruple chain, in which the [(eta5-C5Me5)MoS3Cu3] cores work as planar four- and five-connecting nodes to interconnect other equivalent cores through single bpp bridges and single and double thiocyanate bridges. In addition, the third-order nonlinear optical properties of 1a, 2, 3a, and 4-7 in aniline were also investigated by using the Z-scan technique with a 4.5 ns pulse laser at 532 nm.     

Controlled release properties of Chitosan encapsulated volatile Citronella Oil microcapsules by thermal treatments

This research uses modified orifice method to prepare the O/W type Chitosan encapsulated volatile Citronella Oil microcapsules. In this article, we investigated the forming condition of microcapsules and the influence to sustained release effect of volatile Citronella Oil by applying thermal pretreatment to microcapsules. The results suggest that the forming of microcapsules should be processed under the fundamental conditions of: (1) the concentration of Chitosan is at least 0.2 wt%, (2) NaOH is greater than 0.1 wt%, and (3) with the additive of coconut oil as natural surfactant, so that we could obtain final product of microcapsules with better formation and dispersion. The changes in concentration of Chitosan will affect the encapsulation efficiency of the volatile Citronella Oil. When the concentrations of Chitosan are 0.5%, 1.0% and 1.5%, the encapsulation efficiencies are 98.2%, 95.8% and 94.7%, respectively. The particle size of Chitosan microcapsules would decrease as the emulsification stirring speed increases. When the stirring speeds are 400 rpm, 800 rpm, and 1500 rpm, the average particle sizes of microcapsules produced are 225 ± 24 μm, 131 ± 20 μm, and 11 ± 3 μm, respectively. If the microcapsules were thermal pretreated at 80 °C, the structure of Chitosan wall membrane would shrink and thus achieve the effect of sustained release. The sustaining effect would increase along with treatment time increases.