# Fully-chromophoric ferroelectric nematics for electronic electro-optics

**Authors:** Xi Chen (1), Andrew Bradfield (1), Chirag Patel (2), Pavel Savechenkov (2), Jason W. Sickler (2), Gianlorenzo Masini (2), Joseph E. Maclennan (1), Noel A. Clark (1), Cory Pecinovsky (2), Matthew A. Glaser (1) ((1) Department of Physics, University of Colorado Boulder, CO, USA (2) Polaris Electro-Optics, Inc., Broomfield, CO, USA)

arXiv: 2509.00607 · 2025-09-08

## TL;DR

This paper introduces a novel design of fully-chromophoric ferroelectric nematic liquid crystals that enable efficient second-order nonlinear optical phase modulation, advancing chip-scale electro-optic technologies.

## Contribution

It presents a new molecular design strategy for ferroelectric nematic liquid crystals that are fully chromophoric and suitable for high-efficiency electro-optic applications.

## Key findings

- Achieved ferroelectric nematic phase with fully chromophoric molecules.
- Demonstrated high electro-optic phase modulation efficiency.
- Enabled second-order nonlinear optical response in a fluid medium.

## Abstract

Electronic electro-optic (EEO) phase modulation is a key emerging technology for the chip-scale inter-conversion of signals between the electronic and photonic domains. The recent discovery of the ferroelectric nematic ($N_F$) liquid crystal phase, a three dimensional fluid of rod-shaped organic molecules having near-perfect equilibrium polar molecular orientational order, offers attractive opportunities for the creation of second-order nonlinear optical materials for EEO. Here we propose and realize a design motif for $N_F$ EEO molecules in which few-nanometer-long molecular rods are functionalized both for electro-static end-to-end association, facilitating $N_F$ phase formation, and for chromophoric optical nonlinearity, enabling high EEO efficiency, a combination enabling an active second-order nonlinear EEO medium that is 100% chromophoric.

---
Source: https://tomesphere.com/paper/2509.00607