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1 ospheres (containing solvatochromic dyes and ion exchanger).
2 eed effectively suppressed in the absence of ion exchanger.
3 on that is independent of its function as an ion exchanger.
4  lives, namely as catalysts, adsorbents, and ion exchangers.
5 mbrane phase via ion pairing with lipophilic ion exchangers.
6 han do other zirconia- and nonzirconia-based ion exchangers.
7  as heterogeneous catalysts, absorbents, and ion-exchangers.
8 t blocked by inhibitors of endogenous oocyte ion-exchangers.
9 nly observed for systems that do not contain ion-exchanger additives.
10  traditional manner, containing a lipophilic ion exchanger and a calcium-selective ionophore.
11 ns made using a combination of high capacity ion exchanger and a neutral polystyrene/divinylbenzene m
12 ophore-free PVC membranes containing UBC- as ion exchanger and either DOS or NPOE as plasticizer also
13    The first column was packed with a strong ion exchanger and eluted with a KCl gradient.
14 ncorporate an ionic solvatochromic dye (SD), ion exchanger and ionophore.
15                      The membrane is free of ion exchanger and is formulated with plasticized poly(vi
16  only (Miptode 3), the optode containing the ion exchanger and the MIP particles (Miptode 2) showed i
17  of both metal- and ligand-centred emission, ion exchangers and molecular sieves.
18 ffect of temperature on selectivity for both ion exchangers and neutral carrier ionophores is also di
19  optodes using chromoionophore I, lipophilic ion-exchanger and sodium ionophore X, BME-44, and ETH 52
20 lyanionic matrix that functions as a Ca2+/K+ ion exchanger, and two Ca2+-sensitive channels, one to i
21 being developed for use as molecular sieves, ion exchangers, and catalysts, but most are oxides.
22                                        These ion exchangers are characterized by very low selectivity
23               This effect was quantified for ion exchangers as well as neutral carrier ionophores.
24                      A microscale continuous ion exchanger based on two liquid streams flowing in par
25                                              Ion-exchanger based Donnan exclusion membranes (IEDEM) a
26  of suppressing the major interference of an ion-exchanger based membrane, the 80 muL desalinated sam
27 , the suppressor consists of a solid polymer ion exchanger block.
28  CaCO3 is that starch may act as a weak acid ion exchanger capable of exchanging alcoholic group prot
29  Given their importance as molecular sieves, ion exchangers, catalysts and catalyst supports, we have
30 n CLCN4, which encodes the chloride/hydrogen ion exchanger CIC-4 prominently expressed in brain, were
31 on-sensitive membrane electrode based on the ion-exchanger dinonylnaphthalene sulfonate has previousl
32 ions for ion-transfer voltammetry between an ion-exchanger doped and plasticized poly(vinyl chloride)
33 on-selective electrodes (ISEs) without added ion exchanger exhibited a functional potentiometric resp
34                   PBO-4 is a putative Na+/H+ ion exchanger expressed on the basolateral membrane of t
35 flow due to a deficiency in a sodium calcium ion exchanger expressed specifically in the heart.
36 f the nanospheres (containing the probes and ion exchanger) followed by measuring the pH and Na(+) re
37 se merits make it be a promising material as ion exchanger for the removal of radioactive cations fro
38 l the exceptional potential of sulfide-based ion-exchangers for remediating of uranium-containing was
39              In the first approach, a liquid ion exchanger (i.e. a strongly basic compound, e.g., tet
40 trifluoromethyl)phenyl]borate was used as an ion exchanger in a poly(vinyl chloride) membrane.
41 has been evaluated for its suitability as an ion exchanger in solvent polymeric membrane electrodes a
42              Here we study the role of these ion exchangers in mitochondrial Ca(2+) extrusion and in
43                                              Ion exchangers, ion channels, and subunits of proton and
44 1), a ubiquitously expressed plasma membrane ion exchanger, is necessary for establishing polarity in
45          We show here that a layered sulfide ion exchanger K(2)MnSn(2)S(6) (KMS-1) overcomes these li
46 th a hydrogen ionophore (chromoionophore I), ion exchanger (KTFBP), and lipophilic electrolyte (ETH 5
47   Predicted detection limits on the basis of ion-exchanger leaching alone are here listed for a numbe
48                                              Ion-exchanger lipophilicities are significantly increase
49 his, we introduced previously ionophore-free ion exchanger membranes doped with a well controlled rat
50 constants, the selectivity of ionophore-free ion-exchanger membranes, and ionophore stability constan
51 slightly, we considered that this pellicular ion exchanger might also allow resolution of identical R
52       Here, we show that the plasma membrane ion exchanger NHE1 acts as an anchor for actin filaments
53 there has never been a report on a polymeric ion exchanger of an ideal electrostatic selectivity orde
54   In comparison to the optode containing the ion exchanger only (Miptode 3), the optode containing th
55 ing developed to reduce such effects, simple ion-exchanger partitioning may indeed become an importan
56 iffusional transfer of molecules between the ion exchanger phase and the eluent phase and is applied
57 ely ground ion-exchange resin is used as the ion exchanger phase.
58 ectrodes, made from a Cl(-)-selective liquid ion exchanger previously used to measure putative Cl- fl
59 s they show their typical Young's moduli and ion exchanger properties; divalent histamine shrinks the
60 -sensing membranes preferentially contain no ion-exchanger properties in order to function optimally
61 trong retention of NPs exhibited by aromatic ion exchangers, retained NPs are eluted as a plug by inj
62 ium-dinonylnaphthalene sulfonate (TDMA/DNNS) ion-exchanger salt.
63   The equilibrium partitioning of lipophilic ion-exchanger salts from ion-selective polymeric membran
64 ernal reference dye (DiIC18), and lipophilic ion-exchanger sites sodium tetrakis[3,5-bistrifluorometh
65 ered voltage-gated chloride flux through the ion exchanger SLC26A11, active KCC2-mediated chloride ex
66 , such hydrous oxides are the main inorganic ion exchangers suitable (on the basis of their chemical
67            Pulstrode membrane which lacks an ion-exchanger suppresses the zero current ion flux, allo
68 strongly retained than the analyte ion on an ion exchanger, the analyte peak is fronting.
69 s containing BME-44 and tetraphenylborate as ion-exchanger, the experimental detection limits are in
70               The latter could be used as an ion exchanger through manipulation of transport proteins
71 to the surface provide dual-functionality as ion-exchangers to the hybrid material, firstly used for
72 ction limits appear to be independent of the ion-exchanger used.
73 onditions (avoiding excess of ionophore over ion-exchanger), which is purposely different from common
74 f the Na+/H+ antiporter, a mitogen-activated ion exchanger whose activity correlates with its phospho
75          PNs, thus, represent an immobilized ion exchanger with ion sorting properties high enough to
76 elective catalysts as well as adsorbents and ion exchangers with high capacities and selectivities we
77 isostructural, variable composition class of ion exchangers with the general formula Na(2)Nb(2-x)M(IV

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