- Email: [email protected]
Chromatographic separation
Detection potentials
of transmembrane by optical methods
Large-pore synthetic membranes
Applicant: University of California, USA Methods
and
compositions
determining
the potential
one aspect, first
the method
reagent,
fluorescent
are provided
for
of a membrane.
In
involves
comprising
ion capable
introducing
a
of redistributing
from a
first face to a second
face of the membrane
response
in the
to changes
membrane,
as described
potential
which
labels
membrane.
the A
chromophore transfer
first
by either
donating
to the fluorescent
ion, or accepting
between reagent
The
fluorescent
ion
is measured,
related
is typically
resonance.
energy and
reagents
are bound
linker.
In one
aspect
identify
compounds
potentials
which
in biological
transfer is
the first and by a suitable is used
modulate
to
membrane
membranes.
2000
This membrane-based
multiple
blood
a blood
distributor
flow path.
The
the housing
has a
each
across
shaft, with
and
hollow
the housing
blood
distributor
discs rotate
within
resulting
in three-
mixing,
disruption
layer and efficient
of the blood
blood
Inventors: H.S. Borovetz,
I? Litwak,
Publication date: 22 August
spiral
disclosed. filtration
membrane
units, spiralled by a lattice laths
passageways. arranged along and/o!
These
to form
are bridged
the passageways disrupt
passageways, membrane functionality
which
multiple gross
fluid
directing surface which
improves
ating a co-polymer obtain
>5%
and sulfonated
of styrene of styrene
and butadiene
unsaturation, with
and
an acetyl
and
human to
where
the fluid
constructed exchange
resins and terminal
series.
The
terminal
or ultrafiltration) with
Inventors: B.M. Sheikh-AIi,
G.E. Wnek
treated
2000
In
with
membrane
the permeable
Patent number: WO 00/51701
materials
polymer
solutions
membranes
formed
Both
and highly disclosed.
by casting
PVDF
and/or
dispersions.
The
in this way are all highly isotropic
asymmetric
PVDF
The membranes
are
are useful in various
applications.
filter element
Publication date: 8 September
Filtering A
process
is
including R. Zepf
milk
substrate
which
has a
a scrimed
needled
felt,
selected
from
about a base
needled
felt, woven
separator
with
The substrate
form
fluid
materials. point which
spaced
PTFE
deflect
relative
the
supported
the
attached
arrangement.
and
membrane
protein pH
upward,
substrate
filtering material,
substrate
melted
KM. Nadkarni
Publication date: 22 August
2000
Publication date: 29 August
membrane is
compared milk.
Appropriate
to engage
the
permeate
with
in alpha
lactalbumin,
beneficial
for human
result a protein
in
more of the lOO%,
content
of the
by about
50%,
from standard of
at least
composition a protein
that
processing one
filter
enriched is highly
nutrition.
Patent number: WO 00151440 Inventors:
2000
a
to nearly
retentate
selection
conditions
A.J. Thill,
retentate
of
of solution
in the solubility
with a similar can
range
in the calcium
filtered
yields
compositions
including
in cold water
the
J.R Doehla,
I?W. Hessinger
an increase
retentates
alkali,
and membrane
selected
a broad
down
the treated
in improyed
utility,
flavour,
cooling,
the pH
acid,
having
improved
palatable
heating,
milk alkali,
of the appropriate
results
proteins
by
and fix it to the substrate.
Inventors: W.H. Thalmann,
porosity
and an increase
and
Patent number: US 6110249 Inventors: B.D. Medcalf,
Patent number: US 6106715
The
membrane
with
dried
upstream,
in the gas stream
Selection temperatures,
retentate
an
and dia-filtering
pH values,
an
and
selecting
and adjusting
composition. filter
treating
milk composition,
concentrate
by
an acid,
viscosities,
has a melting
is located
by the substrate. to the
membrane
and mesh.
at least two different material
to the substrate
through
second
second
fabric
is lower than the first. An expanded
filtering
against
a self-cleaning
comprises
The
The
a substrate
for
fluid
whey, the
selecting
described neutral
added
adjusting
2000
in a gas stream.
2000
milk proteins
approximately plus
is located
comprises
while
quality.
Applicant: New Zealand Dairy Board, NZ
membranes
membranes
fluid to injection
Inventor: M.A. Taylor
polymeric
formed
internally
produces
high flow rates at kelatively low pressures,
Group, USA membrane
osmotic
membrane
still safely purifying
to synthetic
chemistry.
semi-permeable
Applicant: USF Filtration and Separations relates
a fine
membrane,
an endotoxin-binding
contrast
ion-
stages in
comprises
permeable
a
a depth
mixed-bed
filtration
filter
(micro-
Publication date: 29 August
into
pack is
for a single use, and houses
sulfate
to
application,
purification
carbon,
for
water,
is injected
body. The portable unit, activated
agent to at least 30 mol% sulfonate.
difluoride
for medical
filtration
sulfonation
are disclosed
as potable
then
the polymer
invention
reagent.
2000
methods such
levels suitable
particularly
by hydrogen-
sulfonating
This
or mobility
of the precipitation
a fluid,
quality
and butadiene.
is obtained
residual
at different
Water purification
for fuel cells
of a hydrogenated membrane
are eluted
on their solubility
Applicant: PrismedicaJCorporation, USA purifying
membranes
co-polymer
Sample
or cells intro-
Publication date: 8 September
R. Zepf
An apparatus
statistical
channel.
Patent number: WO 00152461
fuel cell membrane
scrimless
the efficiency
the service life of the membrane
in the presence
position-
precipitation
2000
structure
shears
flow
and creating
large
These
are composed
in one
into this channel
times depending
two
Inventor: Y. It0
R.A. Morris,
elongated
divide,
fluid
duced
Applicant: Dais-Analytic Corporation, USA
A filter element is
by cross-laths,
fluid
which
is produced
and of
such as macro-molecules
of the
side.
Membranelbi-component
up of opposing
spaced
primary
pores on the exposed
concentration
entities
comprises a semi-permeable
A time-dependent
reagent
air to create
through
dependent
dispersions formulations.
apparatus
coupled
membrane.
membranes
Applicant: BHA Technologies Inc, USA
arrangement
axis and separated
flow
Patent number: US 6110369
ion-conducting
separation
fractionation
channels
before ultrafiltering
assembly
membrane
It is made
to humid
Publication date: 29 August
Applicant: Infinitex Corporation, USA novel
casting
in the
involves exposure
Inventors: I.-F. Wang, J.F. Ditter,
M. Gartner,
2000
filtration
The
metastable
technique
membrane
surface
superior
Patent number: US 6110309
G.D. Reeder, I? Sawzik
A
both
homogenous
microfiltration
oxygenation.
Patent number: US 6106776
Membrane
from
porous.
to mix the blood,
dimensional boundary
lumen
discs
extend
oxygenator
flow path, a rotor hub
of a double
fibres which
and
points
and
are described.
can be cast from
Polyvinylidene
Applicant: University of Pittsburgh, USA
form
characteristics,
bubble
psid,
with
membranes,
Blood oxygenation
in the
yield
membranes
Patent number: US 6110616
Patent number: US 6107066
defining
which 0.5-25
A preferred
Inventors: R.Y. Tsien, J.E. Gonzalez
housing
of
Ion-conducting
transfer
method
Publication date: 22 August
pores
range
Publication ahe: 29 August
The energy
together
the
large
polymeric
energy
by fluorescence
In some embodiments
second
asymmetric
Inventors: J. Ditter,
the second
potential.
measured
Highly
excited-state
and the energy
to the membrane
transfer
a
ion. The membrane
to radiation. the
This
energy
excited-state
energy from the fluorescent is exposed
of the
of undergoing
Services, USA
Group, USA
cast
comprises
Chromatographic
Applicant: Department of Health & Human
Applicant: USF Filtration and Separations
The synthesis
reagent
face
reagent
capable
equation.
a second
or second
second
in
of the
by the Nernst
It may also involve introducing
a
hydrophobic
polymer
N.D.
Blazey, R.J. Knights,
Publication ahe: 8 September
C. Wu
2000
Membrane Technology No. 129
of transmembrane by optical methods
Large-pore synthetic membranes
Applicant: University of California, USA Methods
and
compositions
determining
the potential
one aspect, first
the method
reagent,
fluorescent
are provided
for
of a membrane.
In
involves
comprising
ion capable
introducing
a
of redistributing
from a
first face to a second
face of the membrane
response
in the
to changes
membrane,
as described
potential
which
labels
membrane.
the A
chromophore transfer
first
by either
donating
to the fluorescent
ion, or accepting
between reagent
The
fluorescent
ion
is measured,
related
is typically
resonance.
energy and
reagents
are bound
linker.
In one
aspect
identify
compounds
potentials
which
in biological
transfer is
the first and by a suitable is used
modulate
to
membrane
membranes.
2000
This membrane-based
multiple
blood
a blood
distributor
flow path.
The
the housing
has a
each
across
shaft, with
and
hollow
the housing
blood
distributor
discs rotate
within
resulting
in three-
mixing,
disruption
layer and efficient
of the blood
blood
Inventors: H.S. Borovetz,
I? Litwak,
Publication date: 22 August
spiral
disclosed. filtration
membrane
units, spiralled by a lattice laths
passageways. arranged along and/o!
These
to form
are bridged
the passageways disrupt
passageways, membrane functionality
which
multiple gross
fluid
directing surface which
improves
ating a co-polymer obtain
>5%
and sulfonated
of styrene of styrene
and butadiene
unsaturation, with
and
an acetyl
and
human to
where
the fluid
constructed exchange
resins and terminal
series.
The
terminal
or ultrafiltration) with
Inventors: B.M. Sheikh-AIi,
G.E. Wnek
treated
2000
In
with
membrane
the permeable
Patent number: WO 00/51701
materials
polymer
solutions
membranes
formed
Both
and highly disclosed.
by casting
PVDF
and/or
dispersions.
The
in this way are all highly isotropic
asymmetric
PVDF
The membranes
are
are useful in various
applications.
filter element
Publication date: 8 September
Filtering A
process
is
including R. Zepf
milk
substrate
which
has a
a scrimed
needled
felt,
selected
from
about a base
needled
felt, woven
separator
with
The substrate
form
fluid
materials. point which
spaced
PTFE
deflect
relative
the
supported
the
attached
arrangement.
and
membrane
protein pH
upward,
substrate
filtering material,
substrate
melted
KM. Nadkarni
Publication date: 22 August
2000
Publication date: 29 August
membrane is
compared milk.
Appropriate
to engage
the
permeate
with
in alpha
lactalbumin,
beneficial
for human
result a protein
in
more of the lOO%,
content
of the
by about
50%,
from standard of
at least
composition a protein
that
processing one
filter
enriched is highly
nutrition.
Patent number: WO 00151440 Inventors:
2000
a
to nearly
retentate
selection
conditions
A.J. Thill,
retentate
of
of solution
in the solubility
with a similar can
range
in the calcium
filtered
yields
compositions
including
in cold water
the
J.R Doehla,
I?W. Hessinger
an increase
retentates
alkali,
and membrane
selected
a broad
down
the treated
in improyed
utility,
flavour,
cooling,
the pH
acid,
having
improved
palatable
heating,
milk alkali,
of the appropriate
results
proteins
by
and fix it to the substrate.
Inventors: W.H. Thalmann,
porosity
and an increase
and
Patent number: US 6110249 Inventors: B.D. Medcalf,
Patent number: US 6106715
The
membrane
with
dried
upstream,
in the gas stream
Selection temperatures,
retentate
an
and dia-filtering
pH values,
an
and
selecting
and adjusting
composition. filter
treating
milk composition,
concentrate
by
an acid,
viscosities,
has a melting
is located
by the substrate. to the
membrane
and mesh.
at least two different material
to the substrate
through
second
second
fabric
is lower than the first. An expanded
filtering
against
a self-cleaning
comprises
The
The
a substrate
for
fluid
whey, the
selecting
described neutral
added
adjusting
2000
in a gas stream.
2000
milk proteins
approximately plus
is located
comprises
while
quality.
Applicant: New Zealand Dairy Board, NZ
membranes
membranes
fluid to injection
Inventor: M.A. Taylor
polymeric
formed
internally
produces
high flow rates at kelatively low pressures,
Group, USA membrane
osmotic
membrane
still safely purifying
to synthetic
chemistry.
semi-permeable
Applicant: USF Filtration and Separations relates
a fine
membrane,
an endotoxin-binding
contrast
ion-
stages in
comprises
permeable
a
a depth
mixed-bed
filtration
filter
(micro-
Publication date: 29 August
into
pack is
for a single use, and houses
sulfate
to
application,
purification
carbon,
for
water,
is injected
body. The portable unit, activated
agent to at least 30 mol% sulfonate.
difluoride
for medical
filtration
sulfonation
are disclosed
as potable
then
the polymer
invention
reagent.
2000
methods such
levels suitable
particularly
by hydrogen-
sulfonating
This
or mobility
of the precipitation
a fluid,
quality
and butadiene.
is obtained
residual
at different
Water purification
for fuel cells
of a hydrogenated membrane
are eluted
on their solubility
Applicant: PrismedicaJCorporation, USA purifying
membranes
co-polymer
Sample
or cells intro-
Publication date: 8 September
R. Zepf
An apparatus
statistical
channel.
Patent number: WO 00152461
fuel cell membrane
scrimless
the efficiency
the service life of the membrane
in the presence
position-
precipitation
2000
structure
shears
flow
and creating
large
These
are composed
in one
into this channel
times depending
two
Inventor: Y. It0
R.A. Morris,
elongated
divide,
fluid
duced
Applicant: Dais-Analytic Corporation, USA
A filter element is
by cross-laths,
fluid
which
is produced
and of
such as macro-molecules
of the
side.
Membranelbi-component
up of opposing
spaced
primary
pores on the exposed
concentration
entities
comprises a semi-permeable
A time-dependent
reagent
air to create
through
dependent
dispersions formulations.
apparatus
coupled
membrane.
membranes
Applicant: BHA Technologies Inc, USA
arrangement
axis and separated
flow
Patent number: US 6110369
ion-conducting
separation
fractionation
channels
before ultrafiltering
assembly
membrane
It is made
to humid
Publication date: 29 August
Applicant: Infinitex Corporation, USA novel
casting
in the
involves exposure
Inventors: I.-F. Wang, J.F. Ditter,
M. Gartner,
2000
filtration
The
metastable
technique
membrane
surface
superior
Patent number: US 6110309
G.D. Reeder, I? Sawzik
A
both
homogenous
microfiltration
oxygenation.
Patent number: US 6106776
Membrane
from
porous.
to mix the blood,
dimensional boundary
lumen
discs
extend
oxygenator
flow path, a rotor hub
of a double
fibres which
and
points
and
are described.
can be cast from
Polyvinylidene
Applicant: University of Pittsburgh, USA
form
characteristics,
bubble
psid,
with
membranes,
Blood oxygenation
in the
yield
membranes
Patent number: US 6110616
Patent number: US 6107066
defining
which 0.5-25
A preferred
Inventors: R.Y. Tsien, J.E. Gonzalez
housing
of
Ion-conducting
transfer
method
Publication date: 22 August
pores
range
Publication ahe: 29 August
The energy
together
the
large
polymeric
energy
by fluorescence
In some embodiments
second
asymmetric
Inventors: J. Ditter,
the second
potential.
measured
Highly
excited-state
and the energy
to the membrane
transfer
a
ion. The membrane
to radiation. the
This
energy
excited-state
energy from the fluorescent is exposed
of the
of undergoing
Services, USA
Group, USA
cast
comprises
Chromatographic
Applicant: Department of Health & Human
Applicant: USF Filtration and Separations
The synthesis
reagent
face
reagent
capable
equation.
a second
or second
second
in
of the
by the Nernst
It may also involve introducing
a
hydrophobic
polymer
N.D.
Blazey, R.J. Knights,
Publication ahe: 8 September
C. Wu
2000
Membrane Technology No. 129