Development Of Fingerprints Research Articles

Development of conductive fingermarks for forensic applications.

Fingermarks are an important form of evidence in forensic science, routinely used for identification or exclusion purposes within the criminal justice system. The increasing use of fingerprint recognition in technology and biosecurity, such as for unlocking devices and accessing banking information, highlights the need for forensic fingermark recovery methods that serve both traditional forensic needs and modern technological demands. Current fingerprint development techniques, however, are not designed to fulfil this dual-purpose. This paper presents a novel approach that introduces the use of conductive paint and silicone to develop, recover, and preserve latent, patent, and plastic fingermarks. The innovative method produces conductive casts that capture detailed ridge patterns, thereby facilitating forensic examination as well as being used for unlocking capacitive and ultrasonic fingerprint scanners in a range of mobile devices.

The other side of the paper as the evidence: impacts of fingermark development reagents on fingermark development and cocaine amount in cocaine-impregnated paper.

Despite various preventative measures, cocaine smuggling is still a major problem worldwide. A recent method of smuggling is the transportation of cocaine with various chemicals or with impregnated materials such as cloth and paper. This study aims to examine the change in the amount of cocaine on the paper surface and attempts to decide the best fingermark development method in the case of smuggling trafficking in the form of impregnated paper with the least effect on the cocaine concentration on the paper. The papers (n = 6 + 1) were prepared for each fingermark development method, including a blank paper, were dipped into a working solution prepared by dissolving 0.38mg cocaine in 500 mL methanol. Fingermarks were developed by applying various chemicals, including Iodine vapor, 1,2-Indandione, DFO (1,8-diazafluoren-9-one), ThermaNin, 5-MTN (5-methylthioninhydrin), and silver nitrate chemicals and Ninhydrin, which is the most commonly used reagent for visualizing latent prints, particularly on paper surfaces. Also, the natural fingermarks of four different donors, two women and two men between 20 and 50 years of age, were used to compare with the presence of cocaine. Different from others, this study examined the application of DFO and 1,2-Indandione as alternatives to other chemicals and revealed that it is possible to identify cocaine using these methods. The order of success was Ninhydrin > DFO > 1,2-Indandione > ThermaNin > Iodine vapor = 5-MTN. To the best of our knowledge, the current study is the first to investigate fingermark identification methods along with the amounts of cocaine on cocaine-impregnated papers.

Evaluation of Anti-oxidant Activity of Different Extracts of Plumbago zeylanica Linn. & Development of Chromatographic Fingerprint of Chloroform Extracts.

The aim of the present investigation is to Evaluation of Anti-oxidant Activity of Different Extracts of Plumbago zeylanica Linn. & Development of Chromatographic Fingerprint of Chloroform Extracts. The roots of Plumbago zeylanica Linn. were purchased from the local market. The roots were taxonomically identified by Senior Scientist at KNK college of Horticulture. Accurately weighed quantity of roots of Plumbago zeylanica Linn. were extracted using petroleum ether (only for removal of fats and lipids), chloroform, methanol, butanol and finally water by soxhlet apparatus for 72 h. Qualitative chemical tests of chloroform, methanol, butanol and water extracts were subjected to various chemical tests to detect various phytoconstituents. β-carotene oxidative bleaching in β-caroten/linoleic acid mixture with and without the addition of different extract of plant. DPPH free radical scavenging activity of the test solutions was determined using DPPH photometric method. Anisaldehyde sulphuric acid and vanillin sulphuric acid and heated at 1150 C for 5 minutes. Solvent systems; n-hexane: ethyl acetate, 7:3 were found to be most satisfactory solvent system for chloroform extracts for root respectively. Vitamin E as standard was utilized in this measure and 84% hindrance was viewed as at 30 minutes. Chloroform separate likewise showed 70% restraint at 30 minutes which was decreased to 45% at the hour of 120 minutes. Hydroxyl revolutionary ability to rummage determined as IC50 from the trial information and it uncovers that chloroform, methanol, butanol and water removes have IC50 upsides of 46 μg/mL, 100μg/mL, 200 μg/mL and 150μg/mL, individually. DPPH scavenging capacity determined as IC50 and it shows that chloroform separate has IC50 of 36 μg/mL followed by ascorbic corrosive (3.1μg/mL), gallic corrosive (3.4μg/mL), methanol (41μg/mL), butanolic (46μg/mL) and water (44μg/mL) extricates. The present findings are momentous for the development of alternative, inexpensive and perhaps safer strategies for the handling of diseases.

Development of Electrochemical fingerprints for Quick sensing identification of Epimedium Koreanum Nakai

Development of Electrochemical fingerprints for Quick sensing identification of Epimedium Koreanum Nakai

Sol-gel synthesis of LaFeO3 perovskite oxide for distinct ridges detection of level II and III latent fingerprints

Latent fingerprints are considered a primary source of best reference for personal identification in criminal investigations. However, poor resolution, less background hindrance, and sensitivity over fingerprint ridges are often problems in fingerprint development. To address these issues, special care is required by developing new fluorescence materials. As a result, this effort was made to synthesize lanthanum ferrite (LaFeO3) fluorescent nano perovskite oxide by the sol–gel method using glycine as fuel, to detect three (I, II, and III) levels of fingerprints. In addition, the absorption spectrum was recorded in a dispersed medium, and dual peaks at 329 and 406 nm in visible regions were obtained, followed by the photoluminescence spectra that showed a broad peak at 527 nm with chromaticity coordinates. Powder X-ray diffraction confirms the synthesized LaFeO3 orthorhombic phase with a crystallite size of 54 nm, and the morphology of LaFeO3 was found to be highly monodisperse. X-ray photoelectron spectroscopy confirmed that La has + 3 with Fe + 3 oxidation states, and Infrared spectroscopic techniques revealed all functional groups were present uniformly. The powder dusting method was applied on various porous and non-porous surfaces, revealing distinct ridges of fingerprints without background hindrance and with precise sensitivity; this proves LaFeO3 is suitable for forensic science.

DACTYLOGRAPHY: The Scientific Study of Fingerprint

Fingerprint analysis has become important because of its reliability and scientific explanation in the courts. Fingerprint has three principles classification, uniqueness and identification. Now there are digital biometric scanner has the ability to access by fingerprint within a minute. This Automated Fingerprint Identification System has made easier to accessible. But the reliability would be little less than other ways to identify fingerprints. Because due to the malfunction of the scanner database can be manipulated or hacked by anyone to access the security. There are various types of fingerprints which needed to know for analyzing it. These types are 1. Patent Fingerprint(visible) 2. Latent Fingerprint(invisible) 3. Plastic/3d; to developing fingerprints there are different methods for different types of fingerprint. Fingerprint experts tend to develop fingerprint in crime scene for solving the crime. Whereas fingerprint become most important physical evidence in matter of solving crime. For developing to analyzing fingerprint expertise would be necessary for establishment. But there are various challenges for forensic experts which are distort prints, smudge prints, contaminated crime scene, database error, partial prints, etc. for the recording of the fingerprint on the wall also be challenging for experts which only can be recorded by photography. Henry classification system would be time consuming to evaluate the recorded fingerprints. Then there is chemical method to develop fingerprint due to the secretion of sweat, oil and other body fluids which make an invisible print. The outermost skin layers have various pores through where body fluid tend to secrets which is responsible for making fingerprints. To make it visible various chemical need to apply so that the secreted body fluid will react with chemical and its visibility will appear. There are some pattern types which tend to administer the individuality such as Arch, Loop and Whorl. Every pattern in itself is unique which can’t be match with any other person. Another way is ridge characteristics which is also valuable way to identify fingerprint. Because of its unique characteristics which tend to differ for every person and not only one characteristics but also 14 ridge characteristics are possible to identify through fingerprint. Porescopy and Edgescopy these are other ways to identify fingerprints but it is not practicable in India right now. There are basic two ways to develop latent fingerprints powder method and chemical methods. Through powder method, various powder and brushes will be need to develop fingerprints but it need to be know the surface where fingerprints are found. In chemical method there would be various chemical compound which needed to apply for the development of the latent fingerprints

Green Synthesis of Nanoparticles for Forensic Applications: A Comprehensive Review on Latent Fingerprint Development

Green Synthesis of Nanoparticles for Forensic Applications: A Comprehensive Review on Latent Fingerprint Development

Synthesis, optical properties, and applications of Eu3+, Na+-doped high-color-purity Sr3MgNb2O9 red phosphors for w-LEDs and the detection of latent fingerprints

A series of novel phosphors, doping Eu3+ and Na+ ions in the Sr3MgNb2O9 (SMNO) crystal lattice (SMNO:xEu3+, xNa+, x = 0.5–30 mol%), was successfully synthesized through high-temperature solid-state reaction. X-ray diffraction (XRD) analysis and Rietveld refinement confirmed the successful synthesis of SMNO:Eu3+, Na+. The phosphor belongs to the hexagonal crystal system and the P3¯m1 (No.164) space group. The bandgap energy of SMNO was calculated with Materials Studio and measured with the use of diffuse reflectance spectroscopy. The excitation spectrum of SMNO:Eu3+, Na+ displays multiple narrow absorption peaks in the violet-blue region as well as a charge transfer band (CTB) near 300 nm, exhibiting the highest peak at 394 nm. Four distinct characteristic peaks are observed in the emission spectrum of SMNO:Eu3+, Na+. Notably, the peak at 601 nm shows the highest emission intensity due to the radiative transition from 5D0→7F2. By varying doping concentrations, it was determined that an optimal concentration of 5 mol%Eu3+ resulted in phosphors, with high color purity exceeding 99 %. Concentration quenching is attributed to the nearest neighbor ions interaction. Furthermore, SMNO:Eu3+, Na+ exhibited good stability in 300–480 K, with luminescent intensity remaining 68.6 % at 420 K and 54.4 % at 480 K compared to room temperature (300 K). The internal quantum efficiency (IQE) of SMNO:5%Eu3+, 5 %Na+ is 65.0 %. Both red and white light-emitting diodes (LEDs) were prepared using SMNO:Eu3+, Na+. The chromaticity coordinates of w-LED were measured as (0.357, 0.376), correlating to a correlated color temperature (CCT) of 4685 K and exhibiting a good color rendering index (CRI, Ra = 88). Additionally, the latent fingerprint (LFP) development demonstrated clear visualization of Levels I-III characteristic structures of fingerprints when utilizing SMNO:Eu3+, Na+. These findings suggest promising applications for SMNO:Eu3+, Na+ in w-LED lighting and LFP development.

Development of Latent Fingerprints by Nanomaterial: An Update

Abstract With the development of science and technology, forensics has become a more attractive scientific subject to study, and the field of nanoforensic research has seen a lot of interest in nanomaterials. Fingerprints are crucial pieces of evidence at each crime scene, and future fingerprint investigations could greatly benefit from nano-based procedures. In terms of tangible evidence for proving a person’s identity, fingerprints have historically been and now are considered to be the most valuable sort. The prints left behind at a crime scene are typically latent (invisible) fingerprints; therefore, the distinctive ridge details of fingerprints can be obtained by coating various object surfaces with various nanoparticles, with gold being the most popular choice. These nanoparticles include silver, zinc oxide, silicon dioxide, aluminum oxide, gold, carbon, and silica. Latent fingerprints can be made better and more stable using nanoparticles. This review study concentrates on the employment of various nanomaterials in the creation and identification of latent fingerprints as a consequence.

지문에 포함된 자외선 차단 성분이 종이 표면의 지문 현출에 미치는 효과

지문에 포함된 자외선 차단 성분이 종이 표면의 지문 현출에 미치는 효과

Exploring sustainable forensics: silica nanoparticle powder derived from rice husk waste for aged fingermark development and the chemistry of surface interactions

BackgroundPowder-based fingermark ridge visibility enhancement is a common technique employed in crime scenes due to ease of application and robustness of the application method. Pigmented powders created a contrast between the surfaces and developed ridgelines and are generally metals or metal oxides based. Previous research showed the successful development of fresh latent fingermarks using rice husk-derived silica nanoparticles on various surfaces. Nevertheless, there has been less previous evidence for the efficiency of the silica nanoparticle powder on aged fingermark development. Therefore, the aim here is to investigate the efficacy of the powder on aged fingermarks relative to commercial formulation to gauge the feasibility of having naturally derived powder as a possible alternative for field application and commercialisation.ResultsRigorous testing over a range of non- and semi-porous surfaces at varied ageing conditions revealed a minimal disparity in the performance of both powders on most surfaces. Still, silica nanoparticles exhibited superiority in terms of selectivity on silica-based surfaces. Close up analysis of developed fingermarks using electron microscope exposed clear demarcation between fingermark ridges and valleys using silica nanoparticles.ConclusionsFindings revealed that the interaction chemistry between powder particles and surface material either enhances or lowers the fingermark development capacity depending on the type of surface tested.

Enhancement imaging of developed latent blood fingerprints using TOF-SIMS

As one of the most common types of evidence in violent cases, blood fingerprints play an important role in identifying suspects. Typically, Latent blood fingerprints from a crime scene require the application of chemical development reagents followed by photographing to visualize the ridge detail. However, conventional development techniques are not effective in the visualization of poor latent blood fingerprints due to the formation conditions. Time-of-flight secondary ion mass spectrometry (TOF-SIMS) is a surface analysis technique that combines high mass resolution and high spatial resolution to recover through mass spectrometry imaging (MSI) to reveal fingerprints that are invisible to the naked eye, especially conventional visualization methods. In this study, an enhancement method for latent blood fingerprints was established by analyzing blood fingerprints that showed poor visibility using conventional methods (acid yellow, amido black 10B, tetramethylbenzidine) on plastic sheets, aluminum foil, various papers, and other objects. Additionally, blood samples were diluted with distilled water at concentration gradients of 1:5, 1:10, 1:20, and 1:100 to test the method's sensitivity. Latent fingerprints of blood that aged 14, 30, and 54 days were also examined. Results showed that this method not only enhances the development of fingerprints under challenging conditions but also allows for the recovery of incomplete fingerprints and the separation of overlapping fingerprints. Compared to conventional methods, this approach significantly improves the development effect of latent blood fingerprints while maintaining universality, reliability and practicality.

The effectiveness of natural indigo/kaolinite composite powder in the development of latent fingermarks

BackgroundComposites are materials that have multiple phases and have attracted much attention as they are able to improve physical and chemical properties of an isolated material. In this sense, these composites are commonly used as key components for two purposes: coloring and improving the operational properties; besides that, they have alternative synthesis routes that respect the principles of green chemistry. Thus, this reports the development of a new composite using natural products, indigo and kaolinite, for application in papilloscopy as a new nontoxic fingermark developer.ResultsThe composite was obtained via green procedures and was characterized by spectroscopic and chromatographic techniques. Thus, to investigate the potential of the material as a fingermark developer, different techniques were applied such as depletion, aging, comparison with commercial powder, and development of latent fingermarks on different surfaces. Tests revealed that the composite presented good contrast and adhesion with the latent fingermarks, even after 15 days of deposition.ConclusionsThis study presents a natural indigo/kaolinite composite powder that showed similar or higher efficiency when compared to the commercial fingerprint powder and was able to develop identifiable natural and sebaceous fingermarks.Key points• A composite was formed from eco-friendly materials.• The composite formation follows the concepts of green chemistry and low cost.•The composite was applied as a latent fingermark developer.

Non-destructive and simultaneous development and enhancement of latent fingerprints on stainless steel based on the electrochromic effect of electrodeposited manganese oxides

Latent fingerprints, as one of the most frequently encountered traces in crime scene investigation and also one of the largest sources of forensic evidence, can play a critical role in determining the identity of a person who may be involved in a crime. Due to the invisible characteristic of latent fingerprints, exploring efficient techniques to visualize them (especially the ones resided on metallic surfaces) while retain the biological and chemical information (e.g., touch DNA) has become a multidisciplinary research focus. Herein we reported a new and highly sensitive electrochemical interfacial strategy of simultaneously developing and enhancing latent fingerprints on stainless steel based on synchronous electrodeposition and electrochromism of manganese oxides in a neutral aqueous electrolyte. By utilizing a specially designed device for electrochemical testing and image capture, a series of electrochemical measurements, physical characterization and image analysis have been applied to evaluate the feasibility, development accuracy and enhancement efficacy of the proposed electrochemical system. The qualitative and quantitative analysis on the in situ and ex situ fingerprint images indicates that the three levels of fingerprint features can be precisely developed and effectively enhanced. Forensic DNA typing has also been performed to reveal actual impact of the proposed electrochemical system on subsequent analysis of touch DNA in fingerprint residues. The ratio of detected loci after electrochemical treatment reaches up to 98.5 %, showing non-destructive nature of this fingerprint development and enhancement technique.

Student Attendance and Classroom Monitoring System Using IOT

Abstract: In classroom settings, taking after cooperation depends on manual collection, driving to time-consuming, and human botches. To overcome these challenges and to overhaul classroom Computerization, we propose a creative system joining fingerprint development and advanced sensors. The system leverages a microcontroller to robotize cooperation recording and classroom upkeep handle. One-of-a-kind finger impression highlights are considered to be the best and speediest methodology for biometric recognition confirmation. Classroom temperature and relative stickiness are two principal components for understudy reassurance. The center components of the system join a fingerprint sensor for secure affirmation, a DHT11 sensor for measuring temperature and mugginess levels, GSM Module to send day-by-day interest to enrolled versatile numbers. This proposed System offers a strong and compelling course of action to robotize interest and make strides in security measures in interior

Optimization of crystal violet technique for enhanced fingerprint detection on various surfaces.

The crystal violet (CV) staining technique represents a prevalent approach for the development of latent fingerprints, especially on adhesive tape surfaces. Nevertheless, the technique necessitates intricate formulations to augment its performance. In this investigation, an optimized CV staining protocol was developed, characterized by the absence of residual dye on the target substrates and the capability of facilitating fingerprint visualization under ambient light conditions. Four donors, comprising two males and two females, deposited natural fingerprints on various substrates, including glass microscope slides, aluminum foil, and 115 g glossy coated paper, without any specific guidelines. Fingerprints developed using cyanoacrylate fuming served as benchmarks and were contrasted with those generated through alternative methods: CV, ardrox, rhodamine 6G, powdering, and the optimized CV staining protocol. The fingerprint development experiment was replicated at seven distinct time intervals, encompassing 1 day, 1 week, 1, 3, 6, 9, and 12 months, resulting in a dataset of 420 fingerprints. The evaluation of fingerprint identifiability employed a scoring system established by the Home Office Centre for Applied Science and Technology. The results indicated that the optimized CV staining technique demonstrated superior performance, boasting a 92.9% rate of identifiable fingerprint development in contrast to other employed methodologies. Consequently, this optimized CV staining approach is recommended as an efficient, rapid, and straightforward critical dyeing method, applicable to a wide array of substrates in forensic investigations.

Sequencing DNA sampling and fingerprint development using DNA-free consumables: fingermark obliteration versus DNA recovery is not a zero-sum game

ABSTRACT The dual recovery of DNA samples and fingerprints from touched objects and surfaces is highly desirable for many criminal investigations as it provides greater probative value, particularly compared to relying solely on DNA evidence, which may be present due to secondary transfer or unresolvable due to a high number of contributors. Despite this, DNA sampling is generally given priority over fingerprint examination to minimize contamination even though the mechanical action of DNA sampling is generally thought to obliterate fingerprint residues. This study aimed to strengthen decision-making around sequencing fingerprints and DNA examinations by assessing whether any fingerprint ridge details remained after first sampling for DNA and whether DNA-free fingerprint brushes and powders were fit for purpose. The results demonstrated that DNA sampling and powder fingerprint development are not necessarily a zero-sum game. High-quality fingerprints were developed using DNA-free consumables without any contamination, and DNA sampling using tapelifts was shown to leave sufficient latent material to develop a fingerprint suitable for comparison whilst also generating a high-quality DNA profile. This represents valuable insight for informing evidence-based decision-making by forensic examiners for the optimal strategy for sequential examination and collection of critical fingerprint and DNA evidence.

A Review of Latent Fingerprint Developed Powder from using Natural Materials

The fingerprint development technique is one of the oldest methods used in forensic science and is a common method of identifying perpetrators. [1] Different powder methods have been accounted for the development of latent fingerprints on various surfaces in the literature, such as lead, titanium oxide, Rhodamine B dye etc., all powders mentioned had been used for the development of latent fingerprints. Some of these methods using powders when exposed to humans, may lead to health problems, and also these methods are expensive in nature [2]. Various fingerprint powder preparations used for fingerprints have a color or contrast and a sticky material for good adhesion [3]. The goal of this review is to compile the research works done by various experts to identify commonly available, everyday materials as fingerprint powders such materials from various categories such as food powders, plant materials, minerals, cosmetics, carbon-based materials, and miscellaneous powders [1]. The powder method is a quick and easy approach to the development of latent fingerprints on porous and nonporous surface [4]. proposing a new powder method, which is simple, nontoxic to human health, cheap in nature, and as well can be utilized for the development of latent fingerprints on various contrast surfaces [2].

Development of Latent Fingerprints on Various Surfaces- A Review

Development of Latent Fingerprints on Various Surfaces- A Review

A Comprehensive Review of Fingerprint Development : Exploring Unconventional Powder-Based Techniques

Fingerprint development remains a crucial aspect of forensic science, aiding in the identification and resolution of criminal cases. This review paper systematically explores the efficacy and potential of various unconventional and natural substances in fingerprint development. Focusing on an array of substances such as turmeric powder, Fuller's clay powder (Multani Mitti), food color, Holi color, durian seeds powder, soil powder, talcum powder, traditional powders, pooja materials, corn seed powder, silica gel G, broccoli powder, medicine powder, salt, sugar powder, and brick powder, this paper discusses their applicability, advantages, limitations, and comparative effectiveness in developing latent fingerprints. The review encompasses studies and experiments conducted to assess the suitability of these substances for fingerprint development across different surfaces and environmental conditions. Additionally, this article examines the environmental and cost-effective benefits of using natural and non-conventional materials in forensic investigations and their sustainability and availability compared to traditional chemical reagents.