# Biomimetic Polymer Film with Brilliant Brightness Using a One-Step Water   Vapor-Induced Phase Separation Method

**Authors:** Weizhi Zou, Lorenzo Pattelli, Jing Guo, Shijia Yang, Meng Yang, Ning, Zhao, Jian Xu, Diederik S. Wiersma

arXiv: 1906.04630 · 2019-07-09

## TL;DR

This paper presents a simple one-step water vapor-induced phase separation method to create biomimetic polystyrene films with exceptional whiteness and scattering properties, inspired by beetle scales, with potential applications in sensors and wearable devices.

## Contribution

A novel, efficient one-step fabrication technique for ultra-thin biomimetic films with high scattering efficiency, mimicking beetle scales for optical and sensing applications.

## Key findings

- Achieved 61% diffuse reflectance at 500 nm in 3.5 μm PS films
- Monte Carlo simulations elucidate scattering mechanisms
- Demonstrated use as a real-time human exhalation sensor

## Abstract

The scales of the white Cyphochilus beetles are endowed with unusual whiteness arising from the exceptional scattering efficiency of their disordered ultrastructure optimized through millions of years of evolution. Here, a simple, one-step method based on water vapor-induced phase separation (VIPS) is developed to prepare ultra-thin polystyrene (PS) films with similar microstructure and comparable optical performance. A typical biomimetic 3.5 um PS film exhibits a diffuse reflectance of 61% at 500 nm, which translates into a transport mean free path below 1 um. A complete optical characterization through Monte Carlo simulations reveals how such scattering performance arises from the scattering coefficient and scattering anisotropy, whose interplay provides insight into the morphological properties of the material. The potential of bright-white coatings as smart sensors or wearable devices is highlighted using a treated ultra-thin film as a real-time sensor for human exhalation.

---
Source: https://tomesphere.com/paper/1906.04630