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microspectroscopy

Microspectroscopy is the collective term for spectroscopic techniques used to analyze chemical composition and structure at microscopic spatial scales.

The most common modalities include Raman microspectroscopy, infrared (IR) microspectroscopy and fluorescence microspectroscopy. Raman uses inelastic

Instruments combine a light microscope with a spectrograph or spectrometer and a detector such as a CCD

Spatial resolution is limited by diffraction; typical Raman/IR microspectroscopy achieves micrometer-scale resolution, though near-field methods like

Applications include mapping chemical composition in biological tissues, cells and biomaterials; characterizing polymers and composites; investigating

Limitations include weak signals for some techniques, fluorescence background, sample preparation issues, and the need for

Recent advances focus on hyperspectral imaging, faster detectors, portable micro-spectroscopy, and correlative imaging combining spectroscopy with

scattering
to
probe
molecular
vibrations;
FTIR
microspectroscopy
uses
infrared
absorption
with
a
microscope
to
map
chemical
constituents.
or
InGaAs
array.
Techniques
may
employ
confocal
optics
to
improve
depth
resolution.
Hyperspectral
imaging
collects
spectra
at
each
pixel
to
produce
data
cubes.
tip-enhanced
Raman
(TERS)
or
near-field
IR
push
toward
nanoscale.
mineralogical
samples;
forensic
analysis;
quality
control
in
semiconductors
and
catalysis;
and
studying
energy
storage
materials.
spectral
interpretation
with
reference
data.
Calibration,
standards,
and
advanced
data
processing
(multivariate
analysis)
are
often
used.
electron
microscopy
or
scanning
probe
methods.