An asymmetric anthracene derivative(4-HDPA) was designed and synthesized. With the optimization of proper scenario of fabrication process, top-contact thin film devices based on 4-HDPA exhibit mobility as high as 3.59...An asymmetric anthracene derivative(4-HDPA) was designed and synthesized. With the optimization of proper scenario of fabrication process, top-contact thin film devices based on 4-HDPA exhibit mobility as high as 3.59 cm^2 V^(–1) s^(–1), while its singlecrystal devices exhibit mobility as high as 5.12 cm^2 V^(–1) s^(–1), which is higher than the symmetrical counterpart of 4-HDPA in both single-crystal and thin film devices.展开更多
基金supported by the National Key R&D Program (2017YFA0204503, 2016YFB0401100)the National Natural Science Foundation of China (51703159, 51633006, 51733004)the Strategic Priority Research Program (XDB12030300) of the Chinese Academy of Science
文摘An asymmetric anthracene derivative(4-HDPA) was designed and synthesized. With the optimization of proper scenario of fabrication process, top-contact thin film devices based on 4-HDPA exhibit mobility as high as 3.59 cm^2 V^(–1) s^(–1), while its singlecrystal devices exhibit mobility as high as 5.12 cm^2 V^(–1) s^(–1), which is higher than the symmetrical counterpart of 4-HDPA in both single-crystal and thin film devices.
