Thermochromic properties of acridine heterocyclic derivatives with a donor–acceptor configuration

The thermochromic properties of two donor–acceptor type fluorescent molecules DpAn-InAc and DpAn-BzAc in powder- and film-states were studied.

Recent Progress in High-Mobility Organic Transistors: A Reality Check

Over the past three decades, significant research efforts have focused on improving the charge carrier mobility of organic thin-film transistors (OTFTs). In recent years, a commonly observed nonlinearity in OTFT current-voltage characteristics, known as the "kink" or "double slope," has led to widespread mobility overestimations, contaminating the relevant literature. Here, published data from the past 30 years is reviewed to uncover the extent of the field-effect mobility hype and identify the progress that has actually been achieved in the field of OTFTs. Present carrier-mobility-related challenges are identified, finding that reliable hole and electron mobility values of 20 and 10 cm2 V-1 s-1 , respectively, have yet to be achieved. Based on the analysis, the literature is then reviewed to summarize the concepts behind the success of high-performance p-type polymers, along with the latest understanding of the design criteria that will enable further mobility enhancement in n-type polymers and small molecules, and the reasons why high carrier mobility values have been consistently produced from small molecule/polymer blend semiconductors. Overall, this review brings together important information that aids reliable OTFT data analysis, while providing guidelines for the development of next-generation organic semiconductors.

Insight into crystallization process of rubrene by binary solvent mixtures

Rubrene crystals have been prepared by properly tuning the blend ratio and evaporation rate of the high-boiling-point solvent.

Crystallization of rubrene on a nanopillar-templated surface by the melt-recrystallization process and its application in field-effect transistors

Oriented rubrene nanocrystal growth from melt on a nanopillar-templated surface, adaptable for field-effect transistor application.

Control of active semiconducting layer packing in organic thin film transistors through synthetic tailoring of dielectric materials

The influence of dielectric material's property on the solid state structure packing of active semiconducting layer in OTFTs has been carefully studied by employing a whole new family of dielectric materials based on the rigid, tetrahedral bulky moleculei.e.adamantane, a smallest cage structure of diamond.