AIE-Active Polyamide Containing Diphenylamine-TPE Moiety with Superior Electrofluorochromic Performance

Electrofluorochromism has attracted great attention due to the intelligence optoelectronic and sensing applications. The intrinsically switchable fluorophores with high solid-state fluorescence are regarded as key for ideal electrofluorochromic materials. Here, we reported an AIE-active polyamide with diphenylamine and tetraphenylethylene units, showing high fluorescence quantum yield up to 69.1% for the solid polymer film and stable electrochemical cycling stability. The polyamide exhibited reversible color and emission switching even in hundreds of cycles, and the fluorescence on/off contrast ratio was determined up to 417, which is the highest value to our knowledge. Furthermore, as the response time is vital for the real-life applications, to speed up the response of electrofluorochromism, a porous polymer film was readily prepared through a facile method, notably exhibiting high fluorescence contrast, long-term stability and obviously improved response, due to the sharply increased surface area. Therefore, the AIE-functionalization combining the porous structure strategy will synergistically and dramatically improve the electrofluorochromic performance, which will also promote their practical applications in the near future.

Three dimensional molybdenum oxide/polyaniline hybrid nanosheet networks with outstanding optical and electrochemical properties

The hybrid nanosheet networks own complementary dual-electrochromism, fast switching speed and better cycling stability.

Monodisperse core–shell melamine–formaldehyde polymer-modified silica microspheres prepared using a facile microwave-assisted method

A facile microwave-assisted synthesis method for the preparation of monodisperse core–shell melamine–formaldehyde (MF)-modified silica resin microspheres (SiO₂@MF) was developed.

An integrated electrochromic supercapacitor based on nanostructured Er-containing titania using an Er(iii)-doped polyoxotitanate cage

An integrated bifunctional EC supercapacitor was designed based on nanostructured Er-containing titania due to its EC properties and Li⁺ ion storage capacity. This new material is derived from a novel Er(iii)-doped polyoxotitanate cage [Ti₈O₇(OEt)₂₁Er].

Enhanced electrochromic switching speed and electrochemical stability of conducting polymer film on an ionic liquid functionalized ITO electrode

The EC material exhibits faster switching speed and better electrochemical stability when incorporated with [BMIM]BF₄ ionic liquid.