Detail projektu

Diaminodicyanoanthroquinodimethanes: Electrically driven molecular micromotors

Období řešení: 01.10.2022 — 30.09.2024

O projektu

Electric field-powered Micro/Nano motors (e-MNMs) are tiny devices that convert electric energy into mechanical movements. eMNMs are the potential candidates for the range of applications from physics to biology. Most of the existing e-MNMs have been shown to propel in various fuel media, like H2O2, hydrazine, and hydroquinone, limiting their toxicity applications. The majority of their fabrication processes are expensive, time-consuming, and complicated, highlighting the need for a simple fabrication approach to devise eco-friendly e-MNMs. This proposal aims to develop a new strategy for fabricating electric field responsive asymmetric molecular microparticles using a simple fabrication technique and analyzing their motions in the presence of the electric field without an additional fuel medium. For the first time, we will employ the simple ‘reprecipitation technique’ to incorporate the gold nanoparticles into the asymmetric crystals of strongly zwitterionic diaminodicyanoanthroquinodimethane (DDADM) derivatives and employ them as micromotors under the electric field. The essential determinants for developing asymmetric morphologies will be a non-centrosymmetric assembly of dipolar molecules, non-equilibrium conditions, and local supersaturation during the reprecipitation technique; further examples will need to establish it conclusively. Molecular e-MNMs will be expected to exhibit highspeed motions (~ 30 to 100 times of the body length S-1) under a low electric field (50-180 V/cm). It will be proposed that the concentration gradient of the polar DDADM molecules and trapped gold nanoparticles across the asymmetric crystal can induce charge dielectrophoresis force in the presence of an electric field that could facilitate the mechanical motions of e-MNMs in the water.

Klíčová slova
Aggregation induced emission; Zwitterionic; colloids; Asymmetric particles; Molecular micromotors; Electric field



Originální jazyk




Energie budoucnosti a inovace
- příjemce (04.04.2022 - nezadáno)

Zdroje financování

Evropská unie - HORIZON EUROPE

- plně financující (2022-06-09 - 2024-09-30)