Polycarbonate used with flexible poly

In our studies, a series of poly(BTMC-ccHDON) copolymers with different compositions were successfully synthesized in bulk at 150 °C for 24h by ringopening copolymerization using 0.45 wt% IPPL as the catalyst. DON content was introduced to adjust the flexibility and degradation rate of aliphatic polycarbonates, while BTMC content was employed to improve the solubility of PDON and to introduce functional side group for fiirther modifications. 

As glass and quartz exhibit the same surface property as fused-silica capillary, the monolithic materials could be conveniently prepared in a glass- or quartz-based microfluidic device via the same way of monoliths in the capillary. However, glass/quartz devices are rather expensive, and the need for specialized facilities for their fabrication with conventional photolithography technology hinders any rapid modification of the chip architecture. An attractive alternative is using a variety of polymeric materials, such as poly(dimethylsiloxane) (PDMS), poly(methyl methacrylate) (PMMA), polycarbonate (PC), and cyclic olefin copolymer (COC), to fabricate microchips for their mechanical and chemical properties, low cost, ease of fabrication, and high flexibility. 

ITC) deposited on flexible, plastic substrates such as PMMA or polycarbonate was used as the conductive electrode substrate, with the active electrochromic electrodes producible as a roll which could be attached to window panes with common (e.g. cyanoacrylate) adhesives. This device again optionally used a counter electrode which was also electrochromic, with the difference that it could be not only a metal oxide such as WO3, but also, interestingly, an n-type CP, which of course displays electrochromism which is complementary to that of the more common p-type CPs. Thus, as cathode materials, the p-type CPs P(ANi) s, P(Py) s and poly(phenylene vinylene) were listed as usable, with virtually all the common dopants. As anode materials, WO3, M0O3, poly(isothianaphthene), and the -type CPs poly(alkoxy-thienylene vinylene) poly(p-phenylene), poly(phenyl quinoline) and poly(acetylene) were listed as usable. Liquid nonaqueous electrolytes based on common solvents such as DMSO and THF were used. No electrochromic data were however given in the patent or in subsequent publications. 

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