Synthesis and Characterization of Exceptionally Stable Glasses of 1,3-Bis(1-naphthyl),5-(2-aryl)benzene

Stable glasses can be prepared by physical vapor deposition (PVD). Compared to ordinary glasses, stable glasses have exceptional properties such as higher density and thermal stability. Deposition temperature is one of the most important parameters that controls the properties of PVD glasses. When scaled to the glass transition temperature (T$_{g})$, most stable glasses are usually obtained at deposition temperatures around 0.85 T$_{g}$. Chemical structure, entropy of super-cooled liquid, fragility and enhanced mobility may all affect the most stable structure obtained via PVD . To examine the effect of chemical structure, specifically the molecular weight effect on the stability of PVD glasses, we synthesized and characterized stable glasses of small organic molecule 1,3-bis(1-naphthyl),5-(2-naphthyl)benzene ($\alpha $,$\alpha $,$\beta $TNB) and its molecular analogues. With systematically changing its chemical structure, thermal expansion coefficients, fictive temperature and density of stable glasses all vary systematically. These results indicate the robust nature of stable glass formation and can elucidate the processes by which these glasses are formed.