Abstract
Materials engineering plays a pivotal role considering its manifold applications, i.e., in medicine as individualized drug carriers or in advanced technologies such as optoelectronic devices and ot...
Highlights
The multiplicity of organic compounds paved the way to almost unlimited synthesis of precisely designed structures with desired features
Constitutional isomerism was applied as an effective tool of materials engineering
We have introduced a pair of pyrazoline-based isomers, with an investigation of their structural and spectroscopic features
Summary
The multiplicity of organic compounds paved the way to almost unlimited synthesis of precisely designed structures with desired features. A pair of isomers, which vary in the position of the electron-accepting group (ortho and para), were investigated according to their optical properties In this contribution, we show that such small structural difference resulted in significant changes in their optical (lasing) features and spontaneously generated crystal architectures. The obtained results support the general thesis of the comprehensive utilization of pyrazolines and give an another example of their possible future application, as a material for lighting devices with fully controlled output signal (optical gain) by a properly designed chemical structure
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