143581
Descripción
Mapa Mental por Crystal D'Souza, actualizado hace más de 1 año
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Creado por Crystal D'Souza
hace más de 11 años
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Chromatography
- All Methods have
- Stationary Phase
- Mobile Phase
- Stationary Phase
- Components can
- Adsorb
- The process of
components in a
solution being
stopped from
moving.
- The process of
components in a
solution being
stopped from
moving.
- Desorb
- The process of
moving on after being
adsorbed.
- The process of
moving on after being
adsorbed.
- Adsorb
- Thin Layer Chromatography
(TLC)
- Stationary phase
- Thin powder spread on
plate or glass
- Thin powder spread on
plate or glass
- Mobile phase
- Ethanol or Water
- Ethanol or Water
- Techniques
- A small spot of sample first placed onto
end of the plate, higher that the solution
depth - ORIGIN
- The plate submerged in solution (solution
BELOW the origin)
- As solvent rises, the components in sample
being tested separate
- As solvent rises, the components in sample
being tested separate
- The plate submerged in solution (solution
BELOW the origin)
- A small spot of sample first placed onto
end of the plate, higher that the solution
depth - ORIGIN
- Identifying
- Running standards (known
samples) against the unknown
sample
- Calculating the Rf values
- Running standards (known
samples) against the unknown
sample
- Compared to Paper
- Faster
- Detect smaller
amounts
- Better separation for
less polar compounds
- Corrosive materials
can be used (eg. HCl)
- Faster
- Stationary phase
- Rf Values
- Always be <1
- Component most STRONGLY
adsorbed with have LOWEST Rf
value.
- Rf = Distance moved from the origin by component/
Distance moved from origin by solvent
- Always be <1
- Column
Chromatography
- Phases
- Stationary Phase
- Solid or Solid thinly coated
in viscous liquid, packed in a
glass column
- Solid or Solid thinly coated
in viscous liquid, packed in a
glass column
- Mobile phase
- Dripped in slowly from
a reservoir above
- Tap at the bottom allows the
solvent (ELUENT) to leave at the
SAME RATE it enters
- Dripped in slowly from
a reservoir above
- Stationary Phase
- High Performance
Liquid
Chromatography
(HPLC)
- Extremely Sensitive
- Separate compounds
RMM >1000
- Separate compounds
RMM >1000
- Differs from traditional
chromatography
- Solid particles
- 10-20 x's
smaller
- small sample
size better
separation
- Small particles =
high resistance, so
needs HIGH
PRESSURE (14000
kPa)
- Solid particles
- 10-20 x's
smaller
- Identification
- In the ELUENT stream.
- Passes through UV light (it absorbs UV
light, and a reduced signal is picked up
by detector)
- Passes through UV light (it absorbs UV
light, and a reduced signal is picked up
by detector)
- Time taken to
pass through is
Retention Time
(Rt)
- In the ELUENT stream.
- Extremely Sensitive
- Gas
Chromatography
(GC)
- Features
- Most sensitive
- Detect tiny amounts
( 10^-12)
- But compounds have to be
- RMM < 300
- Perfect for analysis of
TRACE compounds
- RMM < 300
- Most sensitive
- Two types
- Gas - Liquid
- Stationary - Liquid
- Mobile - Gas
(usually N)
- Stationary - Liquid
- Gas - Solid
- Stationary
- SOLID
- Mobile - Gas
(usually N)
- Stationary
- SOLID
- Gas - Liquid
- Components
repeatedly pass in
and out of solution
- Least soluble are
swept out first
- Least soluble are
swept out first
- Most useful detector
- flame ionisastion
- Features
- Phases
- Interpretation
- Samples are injected
at t=0
- Each component
forms one peak
- Conc. of a
compound can
be determined
by running
standards
- GC - Spiking with
known can help
compare to unknown
sample
- Samples are injected
at t=0
- All methods can be
combined together, along
with Mass Spectroscopy
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