高灵敏比色检测Cu~(2+)的反蛋白石结构光子晶体水凝胶膜

以丙烯酰胺(AM)和N-乙烯基咪唑(NVI)为双功能单体,借助"三明治"结构有效控制前驱液的填充,制备了可特异性识别Cu~(2+)的反蛋白石结构光子晶体水凝胶膜(PCHs).该PCHs具有相互贯通的三维有序大孔结构,可在Cu~(2+)缓冲溶液中快速响应,产生特征的布拉格(Bragg)衍射峰.随着Cu~(2+)浓度的增大(0~10-4mol/L),PCHs的Bragg衍射峰位移66 nm,并伴随着明显的颜色变化(由棕红色逐渐变为黄绿色).此外,PCHs在混合金属盐溶液中仍能实现对Cu~(2+)的特异性识别.PCHs对Cu~(2+)的特异识别性、快速响应及自表达的特点为Cu~(2+)现场快速检测提供了可能.     

基于对荧光铜纳米簇合成的抑制检测三聚氰胺

三聚氰胺能与铜离子(Cu2+)形成配合物,对荧光铜纳米簇的合成有明显抑制作用,且其抑制程度与三聚氰胺浓度在一定范围内呈线性关系.基于此构建了一种简单、快速检测三聚氰胺的方法.以聚T单链DNA为模板合成的铜纳米簇作为荧光探针,当三聚氰胺存在时,Cu2+与三聚氰胺生成配合物,阻碍铜纳米簇的合成,导致荧光强度降低.在优化的实验条件下,三聚氰胺浓度在5~120 μmol/L范围内呈良好的线性关系,检出限为1.5 μmol/L,牛奶样品中三聚氰胺加标回收率为96.3%~104.4%.与传统纳米金/银、量子点等方法相比,本方法具有简单、快速、灵敏等优点.     

基于免疫磁性纳米球快速高效准确检测淋巴结转移癌细胞

发展了一种基于免疫磁性纳米球(IMNs)快速、高效、准确检测淋巴结转移癌细胞(LNMCCs)的策略.首先利用本课题组发展的方法制备了具有磁性和生物靶向双功能的IMNs,然后利用IMNs通过免疫磁分选对淋巴结转移癌病人淋巴结穿刺物中的LNMCCs进行分离和富集,最后采用瑞氏染色法和免疫细胞化学(ICC)对富集的LNMCCs进行鉴定,实现对LNMCCs的快速高效准确检测.免疫磁分选实现了LNMCCs的分离和富集,可以有效降低淋巴结穿刺物中的背景干扰;瑞氏染色法和ICC鉴定为准确诊断提供了更多可靠依据,因此,传统细胞学敏感性、特异性和诊断准确率不高的问题得到明显改善.其次,淋巴结穿刺物与IMNs的孵育只需5 min,简便快速,完整保留了LNMCCs的形态学特征,为淋巴结转移癌(LNMC)的分类和后续病理学分析提供了重要基础.此外,IMNs对淋巴结穿刺物中上皮来源癌细胞的特异性捕获可以确诊捕获的细胞为LNMCCs,实现了LNMC和恶性淋巴瘤的鉴别诊断.最后,采用本方法检测了110例病人淋巴结穿刺物中的LNMCCs,总诊断准确率高达98.2%,特异性为100.0%,敏感性为98.0%,相比于传统细胞学诊断都有明显的提高.因此,IMNs用于LNMC病人淋巴结穿刺物中LNMCCs的检测是一次新的尝试,为LNMC的诊断和研究提供了新思路.     

Analysis of microcystins by capillary zone electrophoresis coupling with electrospray ionization mass spectrometry

In this paper, a rapid and effective method based on capillary zone electrophoresis (CZE) coupled with electrospray ionization mass spectrometry (ESI-MS) was established for the trace analysis of microcystin (MC) isomers in crude algae sample. The experimental conditions including the composition, acidity and concentration of buffer, separation voltage, injection time, and MS detection parameters were investigated in detail. A capillary separation system was as follows: a uncoated fused-silica capillary tube (50 μm i.d. × 90 cm), 40 mmol L⁻¹ ammonium acetate solution (pH 9.86) as running buffer, 25 kV as separation voltage, 20 kV × 3 s water first and 20 kV × 20 s for sample injection. Mass analysis was performed in ESI source, with sheath gas temperature 150 °C, sheath gas pressure 10 psi, and sheath gas flow 6 L min⁻¹. And sheath liquid was 7.5 mmol L⁻¹ acetic acid in 50% isopropanol-water (3 μL min⁻¹). Protonation and ammonium adduct molecular ions m/z 506.9 (MC-LR) and 532.0 (MC-YR) were used for the quantification of MCs. Under these conditions, two MCs were baseline separated within 9 min, the calibration curves were obtained in the range of 0.11-10.0 μg mL⁻¹ and 0.16-10.5 μg mL⁻¹ for MC-LR and MC-YR, respectively. Meanwhile, limits of detection were 0.05 and 0.08 μg mL⁻¹ for MC-LR and MC-YR, respectively. The recoveries for the two MCs were in the range of 95.8-108%. The developed approach had been successfully applied to the analysis of MCs in crude algae samples.     

Ribonucleotide and ribonucleoside determination by ambient pressure ion mobility spectrometry

Detection limits and reduced mobilities for 12 ribonucleotides and 4 ribonucleosides were measured by ambient pressure electrospray ionization-ion mobility spectrometry (ESI-IMS). With the instrument used in this study it was possible to separate some of these compounds within mixtures. Detection limits reported for ribonucleotides and ribonucleosides ranged from 15 to 300 pmol and the reduced mobilities ranged from 41 to 56 suggesting that ambient pressure ESI-IMS may be used for their rapid and sensitive separation and detection. This report demonstrates that it was possible to use ion mobility spectrometry (IMS) to obtain a spectrum for the separation of nucleotides and nucleosides in less than 1 min. The application holds great promise for nucleotide analysis in the area of separating DNA fragments in genome sequencing and also for forensics DNA typing examinations used for the identification of blood stains in crime scenes and paternity testing.     

多壁碳纳米管修饰电极检测盐酸氯丙嗪的研究

制备了多壁碳纳米管修饰玻碳电极,采用循环伏安法(CV)研究了盐酸氯丙嗪在修饰电极上的电化学特性,发展了一种新的检测盐酸氯丙嗪的电化学分析方法。在最佳实验条件下,用循环伏安法检测盐酸氯丙嗪,其响应电流与盐酸氯丙嗪的浓度在8.0×10-5~1.0×10-3mol/L范围内有很好的线性关系,线性方程为Ip(A)=0.0106c(mol/L)-8×10-8(R2=0.999,n=6),检出限为6.2×10-6mol/L(S/N=3)。方法可用于盐酸氯丙嗪片的测定。     

纠缠相干态的纠缠浓缩

利用线性光学元器件对光场量子态进行操纵,可以实现远程的量子纠缠调控和量子通讯.通过分析光学分束器对相干态光场的作用,发现当初始光场态是两个两部分纠缠态的直乘时,让其中的两模通过光学分束器作用后再对其进行光子计数,另外两模将会塌缩到新的纠缠态.基于这个特点,提出了一个实现部分纠缠相干态纠缠浓缩的方案.在这个方案中,两个部...     

基于最小二乘支持向量机回归的背景偏振光谱二向反射分布建模分析

详细分析了土壤背景偏振光谱二向反射分布函数与探测角及探测方位角之间关系.提出了基于最小二乘支持向量机回归的偏振光谱二向反射分布函数建模,将有限实验观测条件下测量得到的少数偏振光谱二向反射分布函数扩展到2π空间范围内任意入射及观测条件.通过模型结果和实验结果分析比较,表明该模型能很好地满足准确度要求.     

Random laser action in bovine semen

Experiments using bovine semen reveal that the addition of a high-gain water soluble dye results in random laser action when excited by a Q-switched, frequency doubled, Nd:Yag laser. The data shows that the linewidth collapse of the emission is correlated to the sperm count of the individual samples, potentially making this a rapid, low sample volume approach to count determination.     

化学战剂的SERS检测及应用前景研究

化学武器和技术的扩散使化学恐怖活动成为事关世界安全的突出问题之一.针对化学战剂的高毒性和快速致命特点,表面增强拉曼散射(SERS)光谱技术研究可以实现生化战剂的快速、高灵敏实时检测,有助于战时和突发恐怖袭击时对人员的及时救治和预防,为更好的防范化学武器威胁和恐怖袭击提供必要的技术保障.本文主要对SERS技术在化学战剂检...