Medical microrobots (MRs) have been demonstrated for a variety of non-invasive biomedical
applications, such as tissue engineering, drug delivery, and assisted fertilization, among …

To best understand parasite, host, and vector morphologies, host–parasite interactions, and
to develop new drug and vaccine targets, structural data should, ideally, be obtained and …

Adaptive optics (AO) is a powerful tool for optical microscopy to counteract the effects of
optical aberrations and improve the imaging performance in biological tissues. The diversity …

The term “in vivo (“in the living”) chemistry” refers to chemical reactions that take place in a
complex living system such as cells, tissue, body liquids, or even in an entire organism. In …

Acquiring the firing sequence of neurons located in varying depths with cellular resolution is
essential to understand the underlying functional neural circuits of living animals. Light …

The major obstacles of optical imaging and photothermal therapy in biomedical applications
is the strong scattering of light within biological tissues resulting in light defocusing and …

Deep tissue imaging using two-photon fluorescence (TPF) techniques have revolutionized
the optical imaging community by providing in depth molecular information at the single-cell …

Over the past decade, super-resolution ultrasound localization microscopy (SR-ULM) has
revolutionized ultrasound imaging with its capability to resolve the microvascular structures …

Photoacoustic tomography (PAT) has become increasingly popular for molecular imaging
due to its unique optical absorption contrast, high spatial resolution, deep imaging depth …

Wavefront shaping holds great potential for high-resolution imaging or light delivery either
through or deep inside living tissue. However, one of the biggest barriers that must be …