Molecular Nanotechnology is characterized by its goal of atomic precision. It aims to design and build machinery and materials at the molecular level, enabling unprecedented control over physical ...

In nature and technology, crystallization plays a pivotal role, from forming snowflakes and pharmaceuticals to creating ...

Applications in Nanotechnology and Materials Science Molecular Dynamics Simulations have wide-ranging applications in nanotechnology and materials science. They are instrumental in: Recent ...

DNA strand displacement circuits are inching closer to becoming cellular machines. Scientists are finding ways to make these ...

The newly developed signal amplification system is based on DNA nanotechnology and acts as a molecular amplifier, connecting detection antibodies to a precisely tunable number of signal-generating ...

Nanotechnology is a new paradigm dealing with fundamental studies and applications in extremely small dimensions (nanometer, atomic and molecular dimensions). This will fundamentally change the ...

In a striking demonstration of molecular control, a team of scientists has harnessed light to reverse the twist in self-assembling molecules. The study identifies how trace residual aggregates in ...

Scientists in Japan have uncovered a surprising twist, literally, in how molecules organize themselves. By introducing tiny leftover fragments from previous assemblies, they discovered a way to flip ...

These are ‘ratchet mechanisms’; the processes that drive both biology and molecular nanotechnology. It’s been fantastic to work with such a supportive and talented team on the molecular ratcheteers ...

Get Instant Summarized Text (Gist) DNA nanotechnology, specifically DNA origami, significantly enhances the sensitivity of lateral flow immunoassays (LFIAs) by creating nanoscale amplifiers. This ...