Researchers at Purdue University are developing 3D photodetectors for biomedical imaging that rely on spider web architectural features. Utilizing the mechanical adaptability and damage-tolerance properties of spider webs, the team hopes to optimize current designs with this fractal spider web blueprint. Their research is published in Advanced Materials.
"We employed the unique fractal design of a spider web for the development of deformable and reliable electronics that can seamlessly interface with any 3D curvilinear surface," said Chi Hwan Lee, a Purdue assistant professor of biomedical engineering and mechanical engineering. "For example, we demonstrated a hemispherical, or dome-shaped, photodetector array that can detect both direction and intensity of incident light at the same time, like the vision system of arthropods such as insects and crustaceans."
"The resulting 3D optoelectronic architectures are particularly attractive for photodetection systems that require a large field of view and wide-angle antireflection, which will be useful for many biomedical and military imaging purposes," said Muhammad Ashraful Alam, the Jai N. Gupta Professor of Electrical and Computer Engineering.