68180-28-9Relevant academic research and scientific papers
Synthesis of self-Assembled nucleobases and their anhydrous proton conductivity
Yamada, Masanori,Tanoue, Kento
, p. 36416 - 36423 (2019)
We synthesized self-Assembled nucleobases (SANs), such as 1-dodecylthymine (DOT) or 9-dodecyladenine (DOA), in which the nucleobase is immobilized on a long alkyl chain. The thermal stability of the SAN was increased by mixing with the acidic surfactant mono-dodecyl phosphate (MDP). Additionally, the SAN-MDP composite material showed proton conductivity of 4.62 × 10-4 S cm-1 at 160 °C under anhydrous conditions. Additionally, the activation energy of the proton conduction was approximately 0.2 eV and this value was one order of magnitude higher than that of a typical humidified perfluorinated membrane, in which the proton can be moved by vehicle molecules, such as water molecules. In contrast, when the nucleobase without the immobilization of a long alkyl chain was mixed with MDP, the proton conductivity of these composite materials was two orders of magnitude less than that of the SAN-MDP composite. Therefore, we measured the XRD spectra of the SAN-MDP composite material. As a result, the SAN-MDP composite material showed a self-Assembled structure with a two-dimensional proton conducting pathway, such as a lamellar structure, and that the anhydrous proton conduction was related to the interaction between the nucleobase of the SAN and the phosphate group of MDP. Consequently, the self-Assembled nucleobase derivatives have the potential for use as novel anhydrous proton conductors with a two-dimensional proton conducting pathway.
Self-assembly of hydrogen-bonding networks of N-9-alkyladenine
Zeng, Qingdao,Wang, Chen,Zhang, Bin,Xu, Shandong,Wu, Peng,Qiu, Xiaohui,Bai, Chunli
, p. 599 - 602 (2007/10/03)
A series of N-9-alkyladenines, which can self-assemble through hydrogen bonding networks, have been synthesized. N-9-Dodecyladenine and N-9-tetradecyladenine have been characterized by X-ray crystallography and direct observation using scanning tunnelling microscopy (STM).
