异硫氰酸荧光素-人血清白蛋白标记物化学发光反应的研究

采用反相流动注射分析方法,研究了异硫氰酸荧光素（FITC）－人血清白蛋白（HSA）标记物的化学发光性能和反应的最佳条件,建立了化学发光测定人血清白蛋白的新方法。体系的化学发光强度与人血清白蛋白的含量在0．08－16μg/mL内呈线性关系,方法的检出限为0．04μg/mL。讨论了蛋白质标记物化学发光性增强的原因。     

二氧化硅负载磷钼钒酸铯选择性催化硝化苯酚为邻硝基苯酚

采用溶胶-凝胶法制备了二氧化硅负载磷钼钒酸铯催化剂,利用XRD、红外、SEM以及物理吸附等技术手段对催化剂进行了表征分析,并以稀硝酸（30%）为硝化剂,考察了该催化剂对苯酚硝化反应的催化性能,系统研究了反应时间、催化剂用量、硝酸与苯酚用量以及催化剂重复利用等对催化反应的影响。 结果表明,制备的负载磷钼钒酸铯催化剂具有典型的Keggin结构,在温和的苯酚硝化反应条件下,表现出优良的催化活性和高的邻硝基苯酚选择性,在实验优化条件下,邻硝基苯酚收率达到88%,催化剂回收方便可多次重复使用。 负载磷钼钒酸铯催化苯酚硝化反应结合水蒸汽蒸馏提供了一种简单可行的制备邻硝基苯酚的方法。     

液相色谱仪检定结果的不确定度评定

分析液相色谱仪每项检定项目栓定结果的不确定度来源,以UV检测器为例进行分析.对液相色谱仪的主要几项检定项目检定结果的不确定度进行评定,其中泵流量设定值误差、柱温箱温度设定值误差、最小检测浓度、波长示值误差、定量重复性检定结果的相对扩展不确定度分别为0.64%、0.54%、5.32%、0.86%、1.38%.     

光控CRISPR技术的研究进展

成簇规则间隔短回文重复序列和成簇规则间隔短回文重复序列相关(CRISPR-Cas)系统提供了用于可编程基因组编辑的多功能工具. CRISPR与光遗传学及光化学生物学技术的结合产生了很多新的成果. 光激活的CRISPR-Cas系统能够在空间和时间上更好地调控RNA引导的核酸酶的活性. 近年来, 科学家结合CRISPR和多种光学技术, 开发出了一系列光激活的CRISPR工具. 这些工具让研究人员能够在空间、 时间和基因组坐标上进行高分辨率的生命活动研究. 本文概述了CRISPR系统、 基因编辑技术、 光遗传学和光化学生物学的研究进展, 并对光诱导的CRISPR技术的发展进行了展望.     

Optical properties and chemical bonding characteristics of amorphous SiNX:H thin films grown by the plasma enhanced chemical vapor deposition method

Amorphous silicon nitride (SiN_X:H) thin films grown by the plasma enhanced chemical vapor deposition (PECVD) method are presently the most important antireflection coatings for crystalline silicon solar cells. In this work, we investigated the optical properties and chemical bonding characteristics of the amorphous SiN_X:H thin films deposited by PECVD. Silane (SiH₄) and ammonia (NH₃) were used as the reactive precursors. The dependence of the growth rate and refractive index of the SiN_X:H thin films on the SiH₄/NH₃ gas flow ratio was studied. The chemical bonding characteristics and the surface morphologies of the SiN_X:H thin films were studied using the Fourier transform infrared spectroscopy and atomic force microscopy, respectively. We also investigated the effect of rapid thermal processing on the optical properties and surface morphologies of the SiN_X:H thin films. It was found that the rapid thermal processing resulted in a decrease in the thickness, increase in the refractive index, and coarser surfaces for the SiN_X:H thin films.     

A new enzymatic method for determination of E. coli

Inthispaper,arapid,sensitiveandsimpleenzymaticmethodfordetectingtheE.coltcellshasbeenestablished.P-GalactosidaseisakindofendoenzymeexistingintheE.coltcells.Itcanbereleasedfromthecellsbythepore-formingactionofcolicinEI,andcanbedetectedrapidlybyenZymatic..thodl.Colici.,areplasmid-encodedproteins,bindspecificallytoparticularreceptorsontheoutermembraneofsensitivecellsan.dactmainlythroughtwopathways'.Beca.s.theycanformporesinthemembrane,colicinshavebeenwidelyusedastoolstostudythebiologicalandphy…     

Optimal Geometrical Configuration of Cobalt Cations in Spinel Oxides to Promote Oxygen Evolution Reaction

MgCo₂O₄, CoCr₂O₄, and Co₂TiO₄ were selected, where only Co³⁺ in the center of octahedron (Oh), Co²⁺ in the center of tetrahedron (Td), and Co²⁺ in the center of Oh, can be active sites for the oxygen evolution reaction (OER). Co³⁺(Oh) sites are the best geometrical configuration for OER. Co²⁺(Oh) sites exhibit better activity than Co²⁺(Td). Calculations demonstrate the conversion of O* into OOH* is the rate‐determining step for Co³⁺(Oh) and Co²⁺(Td). For Co²⁺(Oh), it is thermodynamically favorable for the formation of OOH* but difficult for the desorption of O₂. Co³⁺(Oh) needs to increase the lowest Gibbs free energy over Co²⁺(Oh) and Co²⁺(Td), which contributes to the best activity. The coexistence of Co³⁺(Oh) and Co²⁺(Td) in Co₃O₄ can promote the formation of OOH* and decrease the free‐energy barrier. This work screens out the optimal geometrical configuration of cobalt cations for OER and gives a valuable principle to design efficient electrocatalysts.     

石墨炔修饰的ZnO薄膜紫外探测器

制备了石墨炔修饰的金属-半导体-金属结构的ZnO紫外探测器,研究了不同旋涂次数的石墨炔修饰对探测器性能的影响。实验结果表明,石墨炔修饰的探测器比未修饰器件的光电流提高4倍,暗电流降低2个数量级,同时探测器的响应度和探测率也明显提高,其中旋涂2次的石墨炔修饰的器件特性为最优。在10 V偏压下,旋涂2次的石墨炔修饰的探测器响应度高达1759 A·W⁻¹,探测率高达4.23× 10¹⁵ Jones,这是迄今为止报导过的溶胶-凝胶法制备的ZnO紫外探测器的最高值。经过对探测器各项性能的测试分析可知,石墨炔修饰的ZnO探测器性能的提高归因于石墨炔良好的空穴传输特性。暗环境下ZnO与石墨炔界面处形成p-n结,使探测器的暗电流大幅降低;光照条件下光生空穴在石墨炔中聚集,减少了电子空穴对的复合,有效提高了器件的光电流。由于石墨炔修饰减少了ZnO表面的氧分子吸附和解吸附过程,器件的响应速度也明显加快。     

气相色谱仪检定装置的使用方法

依据JJG 700–1999《气相色谱仪检定规程》介绍气相色谱仪检定装置的使用方法。检定项目包括载气流速稳定性、柱箱温度稳定性和程序升温重复性、衰减器换挡误差以及检测器的灵敏度。给出了热导检测器(TCD)、火焰离子化检测器(FID)、火焰光度检测器(FPD)、电子俘获检测器(ECD)和氮磷检测器(NPD)检定时的色谱条件及使用注意事项。正确使用气相色谱仪检定装置能保证仪器测量数据的准确可靠。     

Preparation and XPS study of X-ray photochromic transparent BiOI/nylon11 composite film

Nylon11 film immersed in BiI₃–ethanol solution was used for in situ generation of transparent BiOI/nylon11 X-ray photochromic composite materials via integration of the hydrolyzate (BiOI) of BiI₃ into nylon11. The obtained BiOI/nylon11 composite film shows a reversible photochromic effect, changing the color from orange-red to brownish black under soft X-ray irradiation and back to orange-red after air exposure. X-ray photoelectron spectroscopy (XPS) results show that the oxidation state of Bi atoms in BiOI/nylon11 composite film does not change before and after changing the color. Angle-resolved XPS analysis reveals that BiOI in nylon11 film is well distributed within an infiltration depth of about 10 nm. The source of the X-ray photochromic effect for transparent BiOI/nylon11 composite film may be related to oxygen as well as the interaction between BiOI and the amide groups. The oxygen AT% in the composite film decreases with increasing X-ray irradiation time. The present method for preparing transparent BiOI/nylon11 X-ray photochromic composite materials is facile and low cost. The X-ray photochromic effect has potential applications in some technology fields. For example, it can be used to create temporary patterning in a colored composite material surface.