Effect of Surfactants on the Splashing Dynamics of Drops Impacting Smooth Substrates.

We present the results of a systematic study elucidating the role that dynamic surface tension has on the spreading and splashing dynamics of surfactant-laden droplets during the impact on hydrophobic substrates. Using four different surfactants at various concentrations, we generated a range of solutions whose dynamic surface tension were characterized to submillisecond timescales using maximum bubble-pressure tensiometry. Impact dynamics of these solutions were observed by high-speed imaging with subsequent quantitative image processing to determine the impact parameters (droplet size and speed) and dynamic wetting properties (dynamic contact angle).

Synthesis and photovoltaic application of NIR-emitting perylene-monoimide dyes with large Stokes-shift.

An efficient Sonogashira coupling protocol is developed for tetra-alkynylation at the and -positions of the perylene-monoimide (PMI) dye in its PMI(Br) form. The absorption band for these PMI dyes covered from the visible to Near-infrared (NIR) region and PMI(NMe) is found to exhibit a record-breaking Stokes-shifted NIR emission with good photovoltaic properties.

Synthesis of highly-soluble push-pull perylenemonoimide derivatives by regioselective peri-functionalization for switchable memory applications.

A regioselective synthetic protocol is developed via tetrabromination of perylenemonoimide (PMI) which leads to a series of PMI derivatives. The push-pull characteristics of these derivatives are established by spectroscopic and theoretical investigations. Finally, the semiconducting properties of the PMI dyes are utilized for the development of a switchable memory device.