Home

dosy

Dosy, usually written DOSY in uppercase, refers to Diffusion-Ordered Spectroscopy, an analytical technique used in nuclear magnetic resonance (NMR) spectroscopy. DOSY separates signals in a mixture according to the translational diffusion coefficients of the solutes, yielding a two-dimensional spectrum in which one axis shows the chemical shifts and the other shows diffusion coefficients. The diffusion information is obtained by applying pulsed-field gradient sequences and analyzing signal attenuation through the Stejskal–Tanner equation, which relates gradient strength and diffusion to observed signal intensity. Differences in diffusion coefficients correlate with molecular size, shape, solvent interactions, and aggregation state, enabling researchers to distinguish coexisting species without physical separation.

Development and scope: DOSY emerged in the late 1980s and 1990s as an extension of diffusion NMR

Applications and interpretation: Common uses include characterizing complex mixtures, monitoring reactions, estimating molecular sizes, studying binding

Limitations: DOSY has reduced resolution when species have similar diffusion properties, and accuracy depends on sample

See also: NMR spectroscopy, diffusion NMR, PGSE, Stejskal–Tanner equation.

methods
and
has
since
become
a
routine
tool
in
chemistry,
biochemistry,
and
materials
science.
Variants
of
the
technique
use
different
gradient
schemes,
including
pulsed-gradient
spin-echo
(PGSE)
and
stimulated-echo
(PFGSE)
approaches,
to
accommodate
a
range
of
samples
and
instrument
configurations.
events,
and
investigating
aggregation
in
solutions.
Signal
assignments
are
aided
by
comparing
measured
diffusion
coefficients
with
those
of
known
standards
or
by
analyzing
relative
diffusion
behavior
within
the
2D
DOSY
map.
quality,
gradient
calibration,
and
instrument
performance.
Highly
viscous
solutions
or
low-concentration
samples
can
further
limit
sensitivity.