Today, the use of various nanomaterials to create new sensors is commonplace. In this overview, we delve into the potential applications of the DNA origami technique for self-assembling nanostructures ...

Get Instant Summarized Text (Gist) DNA origami has been utilized to develop a technique for creating reusable, multifunctional biosensors capable of detecting proteins in bodily fluids. This ...

A team has used a process known as DNA origami to make electrochemical sensors that can quickly detect and measure biomarkers. Using an approach called DNA origami, scientists at Caltech have ...

The DNA nanotechnology market is booming, driven by precision medicine and AI integration. Over 1,500 research projects and ...

DNA origami technology could support the development of more sensitive biosensors for detecting proteins in bodily fluids.

Caltech scientists have developed DNA origami-based sensors for rapid protein detection in bodily fluids, paving the way for ...

A coarse-grained model of the DNA origami lilypad used in the study. The tails hanging down indicate where redox reporters are located. For scale, the diameter of the disk is approximately 80 nm.

Using an approach called DNA origami, scientists have developed a technique that could lead to cheaper, reusable biomarker sensors for quickly detecting proteins in bodily fluids, eliminating the need ...

The method uses "DNA origami," so-called as it uses the natural ... of nanomaterials with adjustable properties, enabling diverse applications—from adaptive materials that change optical ...