Abstract

A set of fibers, mainly synthetic, has been examined by Raman microprobe spectroscopy. It was found that high quality spectra, requiring no sample preparation, are easy to obtain and that fibers with different molecular structure have very different Raman spectra. Fluorescence was occasionally a problem with excitation at 632.8 nm, but could be significantly reduced by using a semiconductor laser emitting at 780 nm. Fibers of the same polymer type from different manufacturers have Raman spectra which are only slightly different but which could be distinguished by the multivariate statistical technique of principal components analysis (PCA). Dyed fibers gave spectra with bands due to the polymer, but also with intense bands due to the dye, because of the high Raman cross-section of dye molecules. Extraction of the dye, followed by a spectral subtraction procedure allowed separate spectra of the polymer and the dye to be obtained.

References

1.
Gaudette
B D
.
The forensic aspects of textile fiber examination
. In:
Saferstein
R
, editor.
Forensic science handbook
. Vol
2
.
New Jersey
,
Prentice Hall
,
1988
;
209
-
72
.
2.
Grieve
M C
.
The role of fibers in forensic science examinations
.
J Forensic Sci
1983
;
28
:
877
-
87
.
3.
Messerschmidt
R G
,
Harthcock
M A
.
Infrared microspectroscopy
.
Theory and applications
.
New York
,
Marcel Dekker
,
1988
.
4.
Tungol
M W
,
Bartick
E G
,
Montaser
A
.
Analysis of single polymer fibers by Fourier transform infrared microscopy: The results of case studies
.
J Forensic Sci
1991
;
36
:
1027
-
43
.
5.
Gal
T
,
Ambrus
I
,
Urszu
S
.
Forensic analysis of textile fibers by Fourier transform infrared diamond cell technique
.
Acta Chim Hungarica
1991
;
128
:
919
-
28
.
6.
Tungol
M W
,
Bartick
E G
,
Montaser
A
.
Forensic analysis of acrylic copolymer fibers by infrared microscopy
.
Appl Spectrosc
1993
;
47
:
1655
-
8
.
7.
Hopen
T J
,
Schubert
G D
.
Microscopical characterization of hydrofil nylon fiber
.
Microscope
 0026-282X
1995
;
43
:
109
-
13
.
8.
Grieve
M C
.
Another look at the classification of acrylic fibers, using FT-IR microscopy
.
Sci Justice
1995
;
35
:
179
-
90
.
9.
Lang
P L
,
Katon
J E
,
O'Keefe
J F
,
Schiering
D W
.
The identification of fibers by infrared and Raman microspectroscopy
.
Microchem J
1986
;
34
:
319
-
31
.
10.
Bouffard
S P
,
Sommer
A J
,
Katon
J E
,
Godber
S
.
Use of molecular microspectroscopy to characterize pigment-loaded polypropylene single fibers
.
Appl Spectrosc
1994
;
48
:
1387
-
93
.
11.
White
G W
.
A simple high-pressure anvil and template device for the production of infrared spectra from microfiber samples
.
J Forensic Sci
1992
;
37
:
620
-
31
.
12.
Pandey
G C
.
Fourier transform infrared microscopy for the determination of the composition of copolymer fibers: acrylic fibers
.
Analyst
1989
;
114
:
231
-
2
.
13.
Hirschfeld
T
,
Chase
B
.
Appl Spectrosc
1986
;
40
:
133
-
7
.
14.
Hendra
P J
,
Jones
C
,
Warne
G
.
Fourier transform Raman spectroscopy: instrumentation and chemical applications
.
New Jersey
,
Prentice Hall
,
1992
.
15.
Ferraro
J R
,
Nakamoto
K
.
Introductory Raman spectroscopy
.
Boston
,
Academic
,
1994
;
172
-
8
.
16.
Williams
K PJ
,
Pitt
G D
,
Smith
B JE
,
Whitely
A
,
Batchelder
D N
,
Hayward
I P
.
Use of a rapid scanning stigmatic Raman imaging spectrograph in the industrial environment
.
J Raman Spectrosc
1994
;
25
:
131
-
8
.
17.
Bourgeois
D
,
Church
S P
.
Studies of dyestuffs by Fourier transform Raman spectroscopy
.
Spectrochim Acta
1990
;
46A
:
295
-
301
.
18.
Jurdana
L E
,
Ghiggino
K P
,
Nugent
K W
.
Confocal laser Raman microprobe studies of keratin fibers
.
Textile Res J
1995
;
65
:
593
-
600
.
19.
Massart
D L
,
Vandeginste
B GM
,
Deming
S N
,
Michotte
Y
,
Kaufman
L
.
Chemometrics: a textbook
.
Amsterdam
,
Elsevier
,
1988
;
339
-
69
.
20.
Sharaf
M A
,
Illman
D L
,
Kowalski
B R
Chemometrics
.
New York
,
John Wiley & Sons
,
1986
;
179
-
295
.
21.
Hendra
P J
,
Maddams
W F
,
Royaud
I AM
,
Willis
H A
,
Zichy
V
.
The application of Fourier transform Raman spectroscopy to the identification and characterization of polyamides—I. Single number nylons
.
Spectrochim Acta
1990
;
46A
:
747
-
56
.
22.
Maddams
W F
,
Royaud
I AM
.
The application of Fourier transform Raman spectroscopy to the identification and characterization of polyamides—II. Double number nylons
.
Spectrochim Acta
1991
;
47A
:
1327
-
33
.
23.
Rendle
D F
,
Wiggins
K G
.
Forensic analysis of textile fiber dyes
.
Rev Prog Coloration
1995
;
25
:
29
-
34
.
This content is only available via PDF.
You do not currently have access to this content.