A series of calix[6]arene-based surfactants have been
synthesized, which contain amide oxime head groups
on their upper rim and 5,5-dimethylhexyl (I),
n-octyl (II), n-dodecyl
(III), and n-hexadecyl (IV) groups on
their
lower rim. Composite membranes that were fabricated from
Langmuir−Blodgett (LB) multilayers derived from
each surfactant plus poly[1-(trimethylsilyl)-1-propyne] (PTMSP) cast
film showed a significant increase in their
selectivity toward helium and nitrogen, relative to bare PTMSP. In
sharp contrast, analogous composites that were
prepared with LB multilayers of conventional single chain surfactants
[arachidic acid (AA), cadmium arachidate
(AA/Cd2+), and stearoamideoxime
(SA)] exhibited permeation properties that were identical
with those of bare PTMSP.
When a polymeric surfactant
[poly(1-octadecene-co-maleic anhydride), POM]
was used for LB film construction,
a modest increase in selectivity was observed. These findings,
together with an analysis of representative composites
by X-ray photoelectron spectroscopy, provide compelling evidence for
the presence of intact, calix[6]arene-based
LB assemblies on the surface of PTMSP; with the conventional single
chain surfactants, however, disassembly and
absorption into the bulk phase of the support is favored. The
results of this study highlight the need for having
individual surfactant molecules span individual pores on the surface of
the support and strong intermolecular forces
between neighboring surfactants to produce relatively defect-free LB
films.
Molecular umbrellas are "amphomorphic" compounds that can produce a hydrophobic or a hydrophilic exterior when exposed to a hydrophobic or hydrophilic microenvironment, respectively. Such molecules are composed of two or more facial amphiphiles that are connected to a central scaffold. Molecular umbrellas that have been synthesized to date, using bile acids as umbrella "walls", polyamines such as spermidine and spermine as scaffold material, and L-lysine as "branches", have been found capable of transporting certain hydrophilic peptides, nucleotides, and oligonucleotides across liposomal membranes by passive diffusion. They have also have been shown to increase in the water solubility and hydrolytic stability of a hydrophobic drug, and to exhibit significant antiviral activity. The ability of a fluorescently-labeled molecular umbrella to readily enter live HeLa cells suggests that such conjugates could find use as drug carriers.
A series of molecular umbrella conjugates, derived from cholic acid, deoxycholic acid, spermidine, lysine, and 5-mercapto-2-nitrobenzoic acid, have been synthesized and found capable of transporting an attached 16-mer oligonucleotide (S-dT16) across liposomal membranes made from 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC), 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphatidyldglycerol (POPG), and cholesterol [POPC/POPG/cholesterol (65/5/30; mol/mol/mol, v/v/v)] at 37 degrees C. Those molecular umbrellas containing four choloyl (or deoxycholoyl) groups resulted in significantly faster rates of transport as compared to those containing only two such moieties. A model that accounts for these membrane transport processes is proposed.
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