Research Topic · Peer-Reviewed

Molecular Self-Assembly

Molecular self-assembly is an important process in which molecules spontaneously form ordered structures due to interactions between their individual components. Through this process, molecules can create complex architectures from simple building blocks, such as proteins, lipids, and DNA, resulting in highly ordere…

📚 0 peer-reviewed articles cited 🔖 ISSN 2689-2855 🗓 Reviewed July 2026

Overview

Molecular self-assembly is an important process in which molecules spontaneously form ordered structures due to interactions between their individual components. Through this process, molecules can create complex architectures from simple building blocks, such as proteins, lipids, and DNA, resulting in highly ordered and organized materials. Self-assembly plays a major role in the formation of biological, synthetic, and nanoscale systems, and as such, it is a key tool for modern materials science. The development of new systems based on self-assembly has enabled a wide range of applications, such as nanotechnologies, drug delivery, and sensing. As such, it is an essential tool that is revolutionizing many industries, paving the way for the future of materials and technologies.

Research published in this journal

No peer-reviewed research on this exact topic has been published in Advances in Nanotechnology yet. Browse the journal →

Editorial oversight

Curated from peer-reviewed research published in Advances in Nanotechnology (ISSN 2689-2855).

Journal editorial board
Zairov Rustem · Russia Mohamed BALLI · Canada Dr Anum Shafiq · Czech Republic

This page summarises published research for orientation; it is not medical or professional advice.