$$Events$$

Apr. 29, 2015
10:00

IKI Auditorium, Building 51, room 015

Abstract:
Layer-by-layer (LbL) assembly is wide-reaching conformal coating “platform” technology capable of imparting a multiplicity of functionalities on nearly any type of surface in a relatively environmentally friendly way. At its core, LbL is a solution deposition technique in which layers of cationic and anionic materials (e.g. colloidal or nano-particles, polymers and even biological molecules) are built up via electrostatic attractions in an alternating fashion, while controlling process variables such as pH, coating time, and concentration. Here we are producing nanocomposite multilayers having 10 – 96 wt% clay that are completely transparent and exhibit oxygen transmission rates below 0.005 cm3/m2•day (at a film thickness below 100 nm).  These same ‘nanobrick wall’ assemblies are very conformal and able to impart flame resistance to highly flammable foam and fabric by uniformly coating the complex three-dimensional geometries.  On foam, these coatings can dramatically reduce the heat release rate (HRR) and eliminate melt dripping.  We’ve also developed intumescent recipes that do not require clay, but rather rely on the foaming action of phosphorus and nitrogen-rich molecules.  I’ll also describe how these films can separate H2 from N2, with selectivity greater than 2000, which exceeds other commonly used gas separation membranes (including zeolites).  These films also have exceptional oxygen barrier that makes them interesting for food and flexible electronics packaging.  These films can also be produced with graphene oxide to generate high barrier and low sheet resistance.  All of the materials described are water-based and processing occurs under ambient conditions in most cases.  I’ll also describe how these nanocoatings can be deposited in a commercially-feasible manner.  Our work in these areas has been highlighted in C&EN, ScienceNews, Nature, Smithsonian Magazine, Chemistry World and various scientific news outlets worldwide.  For more information: http://nanocomposites.tamu.edu
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