深色物体表面血手印的CdSe量子点标记荧光显像

合成了巯基乙酸修饰的CdSe量子点溶液,用荧光光谱法对该材料进行荧光测试,结果表明,该纳米材料在365 nm激发波长下具有优异的荧光性能。 用CdSe量子点水溶液对多种深色物体表面上的血手印进行标记并通过CCD相机获取荧光图像。 考察标记时间、血液浓度、遗留时间与血手印显像清晰度的关系。 结果表明,标记时间为30 min就可以得到理想的荧光图像。 该材料应用范围较为广泛,对常见深色物体上的血手印有较好的标记荧光成像效果,灵敏度可以达到1%血浓度。 CdSe量子点标记血手印操作简单,适用范围广,荧光亮度高,与背景形成的反差大,获得的荧光图像手印纹线清晰、流畅。     

Magnetically separable template assisted iron nanoparticle for the enhancement of latent fingerprints

The article focuses on the cost-effective and high-quality non-destructive template-assisted magnetic mesoporous iron nanomaterial for latent Fingerprint examination (LFPs). The iron nanomaterial is synthesized using the CTAB template by the co-precipitation method. The synthesized nanomaterial is characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM), N₂ sorption- Brunauer-Emmett-Teller (BET), Fourier transform infrared spectroscopy (FTIR), Field Emission Scanning Electron Microscopy (FE-SEM), EDX elemental mapping, Vibrating sample magnetometer (VSM), UV–Visible spectroscopy, and XPS. The N2 sorption showed that the synthesized material is mesoporous with an H1 hysteresis loop. The TEM images showed the spherical shape and particle size to be around 55–65 nm. The VSM analysis successfully established its ferromagnetic nature. The synthesized nanomaterial showed excellent magnetic recovery after its utilization and retained fingerprints for 2–3 months with the same resolution. We collected the fingerprint on both non-porous and non-porous surfaces with better-developed ridges of fingerprints compared to conventional fingerprinting dyes (charcoal).     

Eggshell Nanosheets: Synthesis,Properties, and Their Forensic Applications in Latent Friction Ridges Development

Since waste materials are used to identify, individualize, and evaluate evidence like fingerprints, palmprints, footprints, etc. that are found at a crime scene, they have a substantial impact on the field of forensic science. Many waste powders have recently been employed in fingerprint recognition. Nanosheets made up of eggshells have been put forward as an application in friction ridge development. Eggshell is a biochemical substance made up of chemical compounds like calcium carbonate, which is considered as a waste product. For the formation of an eggshell nanosheet (ESN), shells are dried and crushed into a fine powder and to get this powder in the form of a nanosheet, the Ball milling technique is used. The synthesis of pure ESN is confirmed by Scanning Electron Microscopy (SEM) and X-ray diffraction (XRD) techniques. The size of nanosheets ranged from 30 to 90 nm as shown in SEM images. Developed powder is then used for the application of fingerprint development and it provides excellent results on all porous, non-porous, and semi-porous surfaces. Thus, this newly synthesized ESN powder can be used as a significant powder method in latent fingerprint technology.     

荧光性聚酰胺-胺树形分子在潜指纹显现中的应用研究

本文系统研究了不同条件(树形分子代数、浓度、浸泡时间等)下荧光性聚酰胺-胺树形分子(PAMAM)水溶液作为荧光探针对锡纸、透明胶带等基底上油印潜指纹的显现效果.结果发现PAMAM树形分子可以和指纹残留物进行靶向结合.结合到指纹纹线上的该荧光性纳米材料在暗室中365 nm紫外光的激发下发出明亮的蓝色荧光,指印纹线与基底反差大、指纹易于辨认,且操作简单,试剂完全环保无污染.这些结果表明PAMAM水溶液是一种潜在的优良的指纹显现试剂.最后,把PAMAM树形分子水溶液对指纹的显现效果进行量化处理,乳突纹与基底间的灰度对比度达到90%以上.     

Mass spectrometry imaging of latent fingerprints using titanium oxide development powder as an existing matrix

Recent research has focused on increasing the evidentiary value of latent fingerprints through chemical analysis. Although researchers have optimized the use of organic and metal matrices for matrix‐assisted laser desorption/ionization‐mass spectrometry imaging (MALDI‐MSI) of latent fingerprints, the use of development powders as matrices has not been fully investigated. Carbon forensic powder (CFP), a common nonporous development technique, was shown to be an efficient one‐step matrix; however, a high‐resolution mass spectrometer was required in the low mass range due to carbon clusters. Titanium oxide (TiO₂) is another commonly used development powder, especially for dark nonporous surfaces. Here, forensic TiO₂ powder is utilized as a single‐step development and matrix technique for chemical imaging of latent fingerprints without the requirement of a high‐resolution mass spectrometer. All studied compounds were successfully detected when TiO₂ was used as the matrix in positive mode, although, generally, the overall ion signals were lower than the previously studied CFP. TiO₂ provided quality mass spectrometry (MS) images of endogenous and exogenous latent fingerprint compounds. The subsequent addition of traditional matrices on top of the TiO₂ powder was ineffective for universal detection of latent fingerprint compounds. Forensic TiO₂ development powder works as an efficient single‐step development and matrix technique for MALDI‐MSI analysis of latent fingerprints in positive mode and does not require a high‐resolution mass spectrometer for analysis.     

固态发光碳纳米粒子的制备及在潜指纹成像中的应用

采用热分解法, 以柠檬酸钠和尿素为前驱体, 通过控制反应温度制备了不需要结合任何固体分散基质即可呈现明亮固态发光的碳纳米粒子(CNPs). 利用X射线衍射(XRD), 透射电子显微镜(TEM), X射线光电子能谱(XPS)、 紫外-可见吸收光谱(UV-Vis)和光致发光光谱(PL)等对CNPs的物相、 形貌和粒径、 表面基团及光学特性进行了表征. 结果表明, 该CNPs为无定形碳结构, 准球形形貌, 粒径分布在5~15 nm范围, 其表面存在C=O, C=N和O=C—N等基团. CNPs的水溶液和固体粉末在365 nm紫外光辐射下, 均呈现明亮的蓝绿色发光. 将该CNPs粉末用作荧光试剂可直接显现不同非渗透性客体表面的潜指纹(LFPs). 在365 nm紫外光激发下, CNPs粉末刷显后的LFPs细节特征清晰可辨, 强荧光背景客体表面的LFPs获得了高对比度的显现效果. 同时, 老化30 d的LFPs利用CNPs粉末也能够显现出可识别的指纹细节. CNPs发光粉末作为指纹试剂在刑侦领域具有潜在的应用前景.     

Characterization of a Novel Co2TiO4 Nanopowder for the Rapid Identification of Latent and Blood Fingerprints

Co₂TiO₄ nanopowders for detecting latent and blood fingerprints were prepared by a traditional coprecipitation method and characterized by X-ray diffraction, transmission electron microscopy, energy-dispersive spectroscopy, and Fourier transform infrared spectroscopy. The results from morphological and componential characterization showed that green Co₂TiO₄ nanopowders with inverse spinel structure were almost spherical and uniform in size without any impurities. To demonstrate the effectiveness of Co₂TiO₄ nanopowders, powder dusting and small particle reagent methods were successfully used to develop latent and blood fingerprints on various substrates including nonporous surfaces, semiporous surfaces, and porous surfaces. The principles of the small particle reagent method for developing latent blood fingerprints were also investigated. Our experiments on lit aged fingerprints exhibited high sensitivity, high contrast, and high selectivity, suggesting that Co₂TiO₄ nanopowders may be a novel probe to develop both latent and blood fingerprints at crime scenes due to their fine ridge details, ease of use, and rapidness.     

Aggregation induced emission for the recognition of latent fingerprints

The aggregation-induced emission of tetraphenylethene was explored for enhancing the visualization of latent fingerprints on wet non-porous surfaces.     

Development and visualization of level II,III features of latent fingerprints using some new 4-(4-substitutedphenyl)-6-(4-substitutedphenyl)-2-oxo-1,2-dihydropyridine-3-carbonitrile derivatives: Synthesis,characterization, optoelectronic and DFT studies

Organic dye compounds with luminescent properties are in demand to use in visualizing the latent fingerprints (LFPs) at crime spot investigation. Here, we synthesized some new 4-(4-substitutedphenyl)-6-(4-substitutedphenyl)-2-oxo-1,2-dihydropyridine-3-carbonitrile 4(a-d) and were confirmed using spectroscopic approaches. Optical properties were recorded in solvent media, where peaks were absorbed in ?300–400 nm of longer wavelength and emitted at ?467–574 nm in the blue region. Dual redox peak current was observed in Cyclic voltammetry at different scan rate and estimated redox onset potential, and energy molecules have been experimentally calculated. DFT studies have been carried out using Gaussian 09 software at the gaseous phase. From the results of theoretical investigations, compounds 4(a-d) showed higher photostability, chemical reactivity and good reactive sites. Also, synthesized compounds were used to determine the latent fingerprints with the help of powder dusting method. Level II and III features of LFPs are observed on porous/non-porous surfaces without optical hindrance and images were taken in normal and 365 nm UV light. From the above results, the synthesized compounds are efficient materials for forensic science applications.     

The effectiveness of CdSe nanoparticle suspension for developing latent fingermarks

Utilization of CdSe nanoparticle suspension for latent fingermarks on a multitude of non-porous and semi-porous surfaces has been demonstrated in this paper. Whether it is dark or light, the color of adhesives has no effect on the results of developing, because of the strong fluorescence excited by irradiation with UV LEDs. Enough contrast could be obtained for imaging. As an effective stabilizer for suspension which is commonly used in fingermark developing, Tween 20 with different concentration was also applied for better results. However, it did not work for nanometer-sized particles, which have already been stable in suspension. To broaden the scope of its application, different excitation systems were adopted. Well-contrast images could be obtained when 365 nm UV light, 440 nm blue light and daylight were applied. TiO₂ SPR (small particle reagent) and gentian violet were used to compare with CdSe nanoparticle suspension under daylight. The results indicated that it produced significantly less background development and better contrast.     

Stepwise Adsorption of Alkoxy-Pyrene Derivatives onto a Lamellar,Non-Porous Naphthalenediimide-Template on HOPG

The development of new strategies for the preparation of multicomponent supramolecular assemblies is a major challenge on the road to complex functional molecular systems. Here we present the use of a non-porous self-assembled monolayer from uC₃₃-NDI-uC₃₃ , a naphthalenediimide symmetrically functionalized with unsaturated 33 carbon-atom-chains, to prepare bicomponent supramolecular surface systems with a series of alkoxy-pyrene ( PyrOR ) derivatives at the liquid/HOPG interface. While previous attempts at directly depositing many of these PyrOR units at the liquid/HOPG interface failed, the multicomponent approach through the uC₃₃-NDI-uC₃₃ template enabled control over molecular interactions and facilitated adsorption. The PyrOR deposition restructured the initial uC₃₃-NDI-uC₃₃ monolayer, causing an expansion in two dimensions to accommodate the guests. As far as we know, this represents the first example of a non-porous or non-metal complex-bearing monolayer that allows the stepwise formation of multicomponent supramolecular architectures on surfaces.     

铽荧光纳米配合物的制备及其潜血手印显现应用

以铽离子为发光中心、对苯二甲酸为第一配体、菲咯啉为第二配体,采用化学方法一步制备出表面羧基修饰的铽荧光纳米配合物。使用活化剂1-（3-二甲氨基丙基）-3-乙基碳二亚胺盐酸盐配合稳定剂N-羟基琥珀酰亚胺对配合物表面的羧基进行活化,促使活化羧基与潜血手印中的胺基在温和条件下迅速发生酰胺反应,成功实现了潜血手印的靶向显现。优化了潜血手印显现的最佳条件,显现悬浮液中配合物与水的质量比推荐为1：35,显现浸泡时间推荐为20 s。并深入探究了手印显现的对比度、灵敏度、选择性、适用性。实验结果表明,制备的表面活化羧基修饰的铽荧光纳米配合物适用于光滑非渗透性及半渗透性客体表面潜血手印的高质量与高效率显现。     

Infrared and Raman spectroscopy of nanostructured LT-LiCoO2 cathodes for Li-ion rechargeable batteries

Nano-engineered electrodes, such as porous LiCoO₂, exhibit improved electrochemical performance compared to the non-porous LiCoO₂ analogue. Structural studies of the pore walls composing the nanostructured LiCoO₂ materials have focused on long-range (diffraction) methods. However, the powder diffraction patterns of the low-temperature (LT) and high-temperature (HT) phases of non-porous LiCoO₂ are very similar and distinguishing the two phases can be challenging. In this work, infrared and Raman spectroscopy are used to unambiguously assign the LiCoO₂ crystalline domains present in two porous compounds (nanowire LiCoO₂ and mesoporous LiCoO₂) as LT-LiCoO₂. Moreover, the appearance of new bands in the infrared spectrum of LiCoO₂ nanowires might signal the presence of disordered LiCoO₂ domains that are XRD silent.     

Solid luminescent CdSe‐thiolated porous phosphate heterostructures. Application in fingermark detection in different surfaces

A fluorescent hybrid material (PPH‐S‐CdSe), which comprises cadmium selenide sulphide nanoparticles assembled onto thiol functionalised porous phosphate heterostructures (PPH‐SH), was synthesised in aqueous media. This material presents a high stability towards photo‐degradation. The obtained nanocomposite was characterised by various techniques such as Fourier transform infrared spectroscopy, energy dispersive X‐ray, transmission electron microscopy (TEM), X‐ray diffraction, X‐ray photoelectron spectroscopy and fluorescence spectroscopy. This fluorescent material showed a red emission at 576 nm combined with other at 473 nm, explained as different CdS_0.42Se_0.58 nanoparticles size, supported by TEM images. It was suitable for latent fingermark analysis in a wide range of surfaces. Because of its sensitivity and low cost, it is an actual alternative to conventional powdering materials. Copyright © 2012 John Wiley & Sons, Ltd.     

Toward Depth-Resolved Analysis of Plant Metabolites by Nanospray Desorption Electrospray Ionization Mass Spectrometry

Nanospray desorption electrospray ionization (nano-DESI) is one of the ambient desorption ionization methods for mass spectrometry (MS), and it utilizes a steady-state liquid junction formed between two microcapillaries to directly extract analytes from sample surfaces with minimal sample damage. In this study, we employed nano-DESI MS to perform a metabolite fingerprinting analysis directly from a Hypericum leaf surface. Moreover, we investigated whether changes in metabolite fingerprints with time can be related to metabolite distribution according to depth. From a raw Hypericum leaf, the mass spectral fingerprints of key metabolites, including flavonoids and prenylated phloroglucinols, were successfully obtained using ethanol as a nano-DESI solvent, and the changes in their intensities were observed with time via full mass scan experiments. In addition, the differential extraction patterns of the obtained mass spectral fingerprints were clearly visualized over time through selected ion monitoring and pseudo-selected reaction monitoring experiments. To examine the correlation between the time-dependent changes in the metabolite fingerprints and depth-wise metabolite distribution, we performed a nano-DESI MS analysis against leaves whose surface layers were removed multiple times by forming polymeric gum Arabic films on their surfaces, followed by detaching. The preliminary results showed that the changes in the metabolite fingerprints according to the number of peelings showed a similar pattern with those obtained from the raw leaves over time.     

Novel bifunctional lanthanide‐centered nanophosphors for latent fingerprint detection and anti‐counterfeiting applications

Production of hybrid organic/inorganic complexes such as lanthanide phosphors in the nanodomain for human fingerprint visualization and anti‐counterfeiting ink under biocompatible UVA and blue light has not yet been studied that thoroughly. This paper presents the preparation of novel, bifunctional, green and red nanophosphors based on Eu³⁺ and Tb³⁺ complexes with quinolinone ligand (H₂L). They have been prepared and characterized for latent fingerprint detection and anti‐counterfeiting ink applications. The analytical data confirm that the ligand acts in a monoanionic bidentate manner through OO donor sites, forming mononuclear complexes, formulated as [Ln(HL)₃(C₂H₅OH)₃] (Ln = Eu³⁺ or Tb³⁺; L = 1‐ethyl‐4‐hydroxy‐3‐(nitroacetyl)quinolin‐2‐(1H)‐one). The Eu³⁺ and Tb³⁺ complexes have nanospherical morphologies with average particle sizes of 17 and 5 nm, respectively. Pure red and green photoluminescence with long lifetime values has been obtained from the Eu³⁺ and Tb³⁺ complexes, respectively, under non‐harmful UVA and blue illumination. Latent fingerprint details, including their characteristic three levels, have been clearly identified from various forensic (non‐porous, semi‐porous, highly fluorescent porous) substrates using red (Eu³⁺) and green (Tb³⁺) nanophosphors. The green nanophosphor powder has a greater capability for visualizing latent fingerprints from highly fluorescent porous surfaces as compared to the red one. Both nanophosphor complexes have been used to develop luminescent ink for anti‐counterfeiting applications.     

Protein fingerprinting of Staphylococcus species by capillary electrophoresis with on-capillary derivatization and laser-induced fluorescence detection

Capillary electrophoresis (CE) coupled with laser-induced fluorescence detection (LIF) has allowed to obtain protein fingerprints, which have demonstrated to be useful in microorganisms characterization. In this work, protein fingerprints of two species of Staphylococcus grown in different culture media and submitted to temperature and nitrosative stress were studied by CE-LIF. After the growth of the bacteria, protein extracts were obtained by cell lysis using sonication. The water-soluble fraction of these lysates was derivatized on-capillary with a fluorogenic dye, 3-(2-furoyl)quinoline-2-carboxaldehyde. The fluorescent products were analyzed by CE using phosphate buffer containing submicellar concentrations of sodium pentanesulfate and detected by LIF. Different protein fingerprints were obtained depending on the bacterial specie studied, indicating the usefulness of this method for the identification of different species of the same bacterial genus. It was also demonstrated that the CE protein fingerprints were dependent on the culture conditions, such as growth medium, or on stressing conditions, such as heat shock or nitrosative stress.     

Synthesis and characterization of fluorescent N-CDs/ZnONPs nanocomposite for latent fingerprint detection by using powder brushing method

This study reports the first new approach of using nitrogen functionalized carbon dots coated on zinc oxide nanoparticles (N-CDs/ZnONPs) as a novel nanocomposite for latent fingerprint detection using the powder brushing method. N-CDs/ZnONPs nanocomposite was prepared using melamine, potato peel waste and zinc acetate dehydrate as precursors. This nanocomposite was characterized by Fourier-transform infrared spectroscopy, UV–Visible spectroscopy, Fluorescence spectroscopy, X-ray diffraction, Raman spectroscopy, Zeta nanosizer, Scanning Electron Microscope, Energy-Dispersive X-ray Spectrometry and Transmission Electron Microscopy. The size of N-CDs was around at 50–20 nm and ZnONPs was around at 40–50 nm. The quantum yield of N-CDs increased the fluorescence intensity of the fluorophore by 5.54%. The N-CDs were coated on surface of ZnONPs to increase the quantum yield and increase the blue emission after formation of N-CDs/ZnONPs by 5.12%.The N-CDs/ZnONPs nanocomposite demonstrated extraordinary sensitivity and selectivity for Latent Fingerprint (LPF) detection on the distinctive non-porous substrates which included aluminum foil, aluminum sheets, an aluminum rod, an iron disc, a compact disc, a black mat, white marble and magazine paper. This nanocomposite acts as a labeling agent and it helped to detect LFP with clear readability ridges and high contrast fingerprint images under UV light irradiation. N-CDs/ZnONPs nanocomposite additionally demonstrated superior ability to reveal readability ridges and clarity and high contrast LFP images with 415 nm and 450 nm light sources and a yellow filter by using a Living Image Microscope. This nanocomposite exhibited advantages such as improved efficiency, a non-toxic nature, good optical properties and good results in the LFP detection of the freshly applied fingerprints. N-CDs/ZnONPs nanocomposite is, therefore, a good alternative material for detection of latent fingerprints in crime investigations.     

Adsorption of water vapor on a non-porous carbon surface and evaluation of the mesopore surfaces of active carbons

Adsorption of water vapor on non-porous carbon adsorbents (blacks) with different specific surfaces and a sufficiently high concentration of primary centers was studied. The maximum value of the adsorption is proportional to the surface and corresponds to the formation of (1.7±0.3) dense monomolecular layers. A method was proposed for determining the surface of non-porous carbon adsorbents and for evaluating the mesopore surfaces of active carbons.Translated fromIzvestiya Akademii Nauk. Seriya Khimicheskaya, No. 12, pp. 2048–2051, December, 1993.This work was supported by the Russian Foundation for Basic Research (Grant 93-035635).     

Near‐Infrared‐Light‐Mediated Imaging of Latent Fingerprints based on Molecular Recognition

Photoluminescence is one of the most sensitive techniques for fingerprint detection, but it also suffers from background fluorescence and selectivity at the expense of generality. The method described herein integrates the advantages of near‐infrared‐light‐mediated imaging and molecular recognition. In principle, upconversion nanoparticles (UCNPs) functionalized with a lysozyme‐binding aptamer were used to detect fingerprints through recognizing lysozyme in the fingerprint ridges. UCNPs possess the ability to suppress background fluorescence and make it possible for fingerprint imaging on problematic surfaces. Lysozyme, a universal compound in fingerprints, was chosen as the target, thus simultaneously meeting the selectivity and generality criteria in photoluminescence approaches. Fingerprints on different surfaces and from different people were detected successfully. This strategy was used to detect fingerprints with cocaine powder by using UCNPs functionalized with a cocaine‐binding aptamer.