Forensic and homeland security applications of modern portable Raman spectroscopy Laura Fairburn Mike Rusak.

Slides:

Advertisements

Similar presentations

PCSIR Labs. Karachi Pakistan

Advertisements

The Use of LD/MALDI MS in the Analysis of Ink in Questioned Documents Mike Rusak & Laura Fairburn.

1 Mechanism for suppression of free exciton no-phonon emission in ZnO tetrapod nanostructures S. L. Chen 1), S.-K. Lee 1), D. Hongxing 2), Z. Chen 2),

Photoreflectance of Semiconductors Tyler A. Niebuhr.

Raman Spectroscopy A) Introduction IR Raman

What experiments should we be doing? Dion L. Heinz University of Chicago.

Ultraviolet and Visible Spectroscopy Chemical Ideas 6.8.

Raman Spectroscopy Raman effect is a 2-photon scattering process

Raman Spectroscopy 1923 – Inelastic light scattering is predicted by A. Smekel 1928 – Landsberg and Mandelstam see unexpected frequency shifts in scattering.

Spectroscopy Chapter 7.

Infrared Radiation 780 nm m Near, Mid and Far

Lecture 5 An Introduction to Spectroscopy Electromagnetic radiation, electromagnetic wave Emission, absorption, fluorescence.

Advanced Higher Chemistry Unit 1 Spectroscopy. Spectroscopy  Spectroscopy is used to give information regarding the structure of atoms or molecules.

Portable Raman Spectroscopy as a Functional Tool in Homeland Security

Raman Spectroscopy: Introductory Tutorial

X-Ray Diffraction Spectroscopy RAMAN Microwave. What is X-Ray Diffraction?

Surface Enhanced Raman Spectroscopy (SERS) Jeanne Bonner PHYS 275 November 26, 2007.

Reflectance Spectroscopy Lab. Different colors correspond to different wavelengths of visible light 665 nm 630 nm 600 nm 550 nm 470 nm 425 nm 400 nm.

What Are Some Types of Spectroscopy ?

Common types of spectroscopy

 PART Requirements for Spectroscopic Techniques for Polymers 1. High resolution 2. High sensitivity (>1%) 3. High selectivity between molecular.

Chemical Analysis. Analytical Techniques When chemical evidence is collected at a crime scene, it must be run through an instrument. These instruments.

1 University of Petra Faculty of Science & Arts Department of Chemistry Seminar I.R Spectroscopy By Firas Al-ouzeh Supervisor : Nuha I. Swidan Summer 2007.

RamanRaman. Scattering Tyndall scattering – if small particles are present During Rayleigh scattering (interaction of light with relatively small molecules)

Dispersive spectrometers measure transmission as a function of frequency (wavelength) - sequentially--same as typical CD Interferometric spectrometers.

10-1 Application of IR Raman Spectroscopy 3 IR regions Structure and Functional Group Absorption IR Reflection IR Photoacoustic IR IR Emission Micro.

1 Components of Optical Instruments Lecture Silicon Diode Transducers A semiconductor material like silicon can be doped by an element of group.

Optical Characterization methods Rayleigh scattering Raman scattering transmission photoluminescence excitation photons At a glance  Transmission: “untouched”

Section 4.7—Light & Matter

Advanced Analytical Chemistry – CHM 6157® Y. CAIFlorida International University Updated on 9/18/2008Chapter 5Raman Spectrometry Chapter 5 Raman Spectrometry.

States and transitions

Chapter 12 Infrared Spectroscopy Jo Blackburn Richland College, Dallas, TX Dallas County Community College District  2006,  Prentice Hall Organic Chemistry,

Mike Rusak and Laura Fairburn CURRENT OBSTACLES ON THE APPLICATION OF AMBIENT IONIZATION MS IN FORENSICS.

5.3 Notes Light & Spectrometry Pg Theory of Light  Color is a visual indication of the fact that objects absorb certain portions of visible.

11.3: Analytical techniques can be used to determine the structure of a compound, analyze the composition of a substance, or determine the purity of a.

NANO 225 Intro to Nano/Microfabrication

Spectroscopy Measures light (radiation) absorbed by species in solution. Some radiation is absorbed by ground state electrons in atoms or molecules. Radiation.

Atomic Fluorescence Spectroscopy. Background l First significant research by Wineforder and Vickers in 1964 as an analytical technique l Used for element.

INFRARED SPECTROSCOPY

Raman Spectroscopy A) Introduction IR Raman

Chemical, Biological, Radiological, Nuclear, Explosive (CBRNE) Calibration Support Develop unique calibration solutions for instrumentation through innovative.

Light & Matter: Flame Test Background Information.

Ch 10 Pages ; Lecture 24 – Introduction to Spectroscopy.

Mineral Spectroscopy Visible Infrared Raman Mössbauer NMR.

SPECTROSCOPY Ultraviolet-visible spectroscopy and infrared spectroscopy.

Spectroscopy and Atomic Spectra A satellite orbiting the Earth contain gravitational potential energy. The satellite can orbit the Earth at any height.

Instrumental Analysis

Organic Analysis (2). What is light? 1. Light as a continuous wave 1. Light as a continuous wave 2. Light as a stream of discrete energy particles (photons).

Lab Tools of Forensic Scientists. Detection Presumptive tests ◦ Give idea as to what probably is in a sample/what definitely is not in a sample  Ex:

Raman spectroscopy.

RAMAN SPECTROSCOPY SUBMITTED BY: FARHEENA KHURSHID

PH effect on colloidal silver nano particle bound 1H-2(phenylazo) imidazole (PaiH) molecules. Dilip K Debnath1 Washim Hossain2, Chittaranjan Sinha3 and.

Components of Optical Instruments

Optical Characterization Techniques

Spectroscopy Chapter 7.

Introduction & Its instrumentation

Raman Spectroscopy: Introductory Tutorial

transmitted radiation

Introduction Spectroscopy is an analytical technique which helps determine structure. It destroys little or no sample. The amount of light absorbed by.

from W. Demtröder “Molecular Physics”

Raman Spectroscopy A) Introduction IR Raman

Chapter 3 Review Worksheet

Spectroscopy Uses emission and absorption of light by electrons moving between ground and excited state configuration, hence electronic configuration.

Colourimetry The absorption of light by a coloured solution is directly related to the concentration of the solution. Colourimetry determines the concentration.

from W. Demtröder “Molecular Physics”

Presentation On INFRARED SPECTROSCOPY

Raman Spectroscopy A) Introduction IR Raman

PLASMONICS AND ITS APPLICATIONS BY RENJITH MATHEW ROY. From classical fountations to its modern applications

Presentation transcript:

Forensic and homeland security applications of modern portable Raman spectroscopy Laura Fairburn Mike Rusak

Summary of the Paper Applications in forensics and homeland security, including field testing for chemical and biological warfare agents Subtypes of Raman Discussed: Convential Raman Spectroscopy Resonance enhanced Spatially offset (SORS) Surface Enhancement (SERS) can be coupled with Stand-Off Raman Detection

Raman Spectroscopy measures the scattering of monochromatic light caused by the sample most of the light reflects off the sample at the same wavelength, while some light does scatter at different wavelengths this is caused by an interaction with a phonon, which causes the laser to gain or lose energy From that, information about the phonon mode is supplied, from which we can determine similarly to FT-IR what functional groups are in the compound.

Raman Spectroscopy’s Drawbacks Specific structure can’t be determined should be used as a last step analysis, not first on site technique Not very Powerful One photon in 10 8 photons will exhibit Raman scattering

Mixtures drastically complex the spectra, therefore sample preparation may be needed Because of the high intensity laser used, dark coloured explosives have been known to heat up. In some causes, it has even caused ignition Drawbacks Cont.d

Very expensive compared to other more commonly used instruments double monochromators and laser sources make it more expensive compared to other instruments Fluorescence can be a large problem Especially in the visible and UV regions Slight impurities in compound may fluoresce, complicating the spectrum

If the intensity of the wavelength is too high, such as when a UV laser is used, the sample may thermally decompose. the most modest of lasers have been known to cause band shifts in the Raman Spectra Drawbacks Cont.d

Potential Questions There were some questioned to be asked after reading this article. What will happen if the material you’re scanning through is Raman active? Is there a library of spectra for all known biological hazardous agents? Is this really the best technique for the job it’s required to do?

Conclusion Raman Spectroscopy is undeniably useful in the same way as infrared spectroscopy in a chemistry lab, but it is not routinely used in a forensic setting. Therefore, why use it when concrete techniques are can be used instead? Eg) GC-MS, ion mobility spectrometry, etc.