In the last two decades, polymer-clay nanocomposites (P/C-NCs) have been extensively investigated as advanced composite materials. 1 Conventional P/C-NCs consist of exfoliated clay sheets and thermoplastic or thermosetting polymers, such as nylon 6, polypropylene, polyurethane, or epoxy resin. It was reported that P/C-NCs show remarkable improvements compared with virgin polymers in mechanical (e.g., modulus), thermo-mechanical (e.g., heat distortion temperature), surface (e.g., gas-barrier), and thermal (e.g., nonflammability) properties by the inclusion of small amounts of clay sheets. 2 These P/C-NCs were generally prepared by using organophilic clay pre-modified by an alkylammonium surfactant. In most cases, P/C-NCs include 1-5 wt %, and less than 10 wt %, of clay. P/C-NCs with higher clay contents were not satisfactory in use because of difficulties in both preparing uniform P/C-NCs and their molding. Also, it was reported that a porous (polypropylene/ organophilic clay) P/C-NC could be prepared using supercritical CO 2 as porogen, 3 and that the average pore size was reduced from 153 to 93 µm by incorporating 4 wt % clay.We recently developed a novel series of nanocomposite hydrogels (NC gels) with unique organic (polymer)/inorganic (clay) network structures. 4 These NC gels were obtained by in situ free-radical polymerization of N-substituted acrylamide derivatives in the presence of exfoliated inorganic clay in aqueous media. In the network, neighboring clay sheets are linked by large numbers of long, flexible polymer chains. Each clay sheet acts as a super-multifunctional cross-linking agent. Here, the most probable interaction between polymer and clay, which is not covalent bonding, is a hydrogen bonding interaction, although an ionic interaction involving initiator (potassium peroxodisulfate) fragments might also contribute. Because of their unique network structure, NC gels simultaneously exhibit extraordinarily tough mechanical properties (high elongation and strength), high transparency (structural homogeneity), high swelling ratio, and excellent thermo-responsive characteristics (gel volume and transparency transitions). 4-6 It was also found that transparent P/CNCs with high contents of exfoliated clay were readily obtained by drying the NC gels. 5,6 Here, we report the preparation of porous nanocomposite materials composed of poly(N-isopropyl acrylamide) (PNIPA) and clay by freezedrying NC gels. The resulting porous nanocomposites exhibit characteristic layered morphologies with controlled porosities.NC gels, as monoliths, were synthesized and analyzed by the same procedures as reported previously. 5 Standard uniform aqueous solutions containing clay (synthetic hectorite [Mg 5.34 Li 0.66 Si 8 O 20 (OH) 4 ]Na 0.66 , 3.31 g), monomer (Nisopropyl acrylamide, 10 g), catalyst (N,N,N′,N′-tetramethylethylenediamine, 80 µL), initiator (potassium peroxodisulfate, 0.1 g), and water (100 g) were first prepared at 1°C. A standard solution was clay/monomer weight ratio ) 0.33, water content ) 88.3 wt %. The s...
