42472-83-3Relevant articles and documents
Tuning of Bistability, Thermal Stability of the Metastable States, and Application Prospects in the C3-Symmetric Designs of Multiple Azo(hetero)arenes Systems
Gupta, Debapriya,Gaur, Ankit Kumar,Kumar, Pravesh,Kumar, Himanshu,Mahadevan, Anjali,Devi, Sudha,Roy, Saonli,Venkataramani, Sugumar
supporting information, p. 3463 - 3472 (2021/01/21)
Light-responsive molecular systems with multiple photoswitches in C3-symmetric designs have enormous application potential. The design part of such molecular systems is critical due to its influence in several properties associated with the photoswitches. In order to tune, and in the evaluation of the design–property relationship, we synthesized 18 tripodal systems with variations in the core, linkers, connectivity, and azo(hetero)arene photoswitches. Through extensive spectroscopic and computational studies, we envisaged the factors controlling near-quantitative photoisomerization in both the directions (bistability) and the thermal stability of the metastable states. Furthermore, we also evaluated the impact of designs in obtaining reversible photo-responsive sol-gel phase transitions, solvatochromism, photo- and thermochromism.
Classical Carbonium Ions. Part 12. The Deamination of 1- and 4-Amino-n-octane
Southam, Richard M.,Whiting, Mark C.
, p. 597 - 604 (2007/10/02)
The deamination products of 1- and 4-amino-octane in acetic acid were examined.The amines were treated with sodium nitrite directly, and also converted into alkylaryltriazenes derived from several arenediazonium cations, which were then acetolysed.N-Nitrosobutyramides were acetolysed, and N-nitrosoacetamides were butyrolysed, to allow the seperate analysis of rearranged and unrearranged products from internal and external nucleophiles.It is concluded that the primary alkylamine is converted by all these different methods in high yield into a primary alkane diazonium ion RN2+, the properties of which are independent of its method of preparation in that the alkyl cation formed by its decomposition does not capture the leaving group which accompanies its formation, but reacts with solvent to give a constant set of products.The secondary alkylamine behaves differently.Its diazo-derivatives, RN2X, usually undergo effectively concerted decomposition to carbonium ions, nitrogen, and leaving group X.The cations show differing degrees of hydride shift, and capture the internal nucleophile X to a considerable but variable extent, after as well as before rearrangement.The acetolysis of 4-diazo-octane proceeds via a much less reactive intermediate, possibly an intimate ion-pair, giving mainly unrearranged 4-acetoxyoctane, plus an olefin mixture in which the substantial proportion of cis-isomers reflects the conformational preference of the starting material.
