# Structure Determination in a new Type of Amorphous Molecular Solids with   Different Nonlinear Optical Properties: A Comparative Structural Analysis

**Authors:** Jonathan Link Vasco, Jens Ruediger Stellhorn, Benjamin Danilo Klee,, Benedict Paulus, Juergen Belz, Johannes Haust, Shinya Hosokawa, Shinjiro, Hayakawa, Kerstin Volz, Iran Rojas Le\'on, Jan Christmann, Stefanie Dehnen,, Wolf-Christian Pilgrim

arXiv: 2303.00401 · 2023-03-02

## TL;DR

This study compares the microscopic structures of two amorphous molecular solids with distinct nonlinear optical properties, revealing key differences at multiple scales that influence their optical behaviors.

## Contribution

It provides a comprehensive structural analysis of amorphous materials with extreme nonlinear optical properties using advanced characterization techniques.

## Key findings

- Core-core spacing differences correlate with optical properties.
- Presence of nanocrystalline structures affects white light emission.
- Structural distortions are linked to nonlinear optical behavior.

## Abstract

The microscopic structure of two amorphous materials with extreme nonlinear optical properties has been studied. One of these materials exhibits second harmonic generation, while another material of similar molecular structure emits brilliant white light if being irradiated with a simple IR laser diode. Structural differences were investigated using X-ray scattering and EXAFS combined with molecular RMC. Transmission electron microscopy and scanning precession electron diffraction were used to understand specific structural differences on all length scales, from mesoscopic down to mutual molecular arrangements. Characteristic differences were found at all scales. Close core-core spacing between {SnS} clusters as well as characteristic cluster distortions appear to be characteristic features of the white light emitting material. In the other material, cores are undistorted and core distances are larger. There, the formation of nanocrystalline structures in the amorphous matrix could also be identified as reason for the WLG suppression.

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Source: https://tomesphere.com/paper/2303.00401