The responses of patients to tumor therapies vary due to tumor heterogeneity. Tumor
stratification has been attracting increasing attention for accurately distinguishing between …

Owing to reduced light scattering and tissue autofluorescence, in vivo fluorescence imaging
in the 1,000–3,000-nm near-infrared II (NIR-II) spectral range can afford non-invasive …

Light scattering by biological tissues sets a limit to the penetration depth of high-resolution
optical microscopy imaging of live mammals in vivo. An effective approach to reduce light …

Sentinel lymph node imaging and biopsy is important to clinical assessment of cancer
metastasis, and novel non-radioactive lymphographic tracers have been actively pursued …

Tracking and imaging immune cells in vivo non-invasively would offer insights into the
immune responses induced by vaccination. Here we report a cancer vaccine consisting of …

J-aggregation, an effective strategy to extend wavelength, has been considered as a
promising method for constructing NIR-II fluorophores. However, due to weak intermolecular …

Fluorescence imaging in the second near-infrared (NIR-II) window enables deep-tissue
imaging with high resolution and improved contrast by taking advantage of the reduced light …

In vivo multiplexed bioimaging in the second near-infrared window (NIR-II, 1000–1700 nm),
owing to its superiorities of simultaneous multi-channel (multicolor) observations for multiple …

Photon excitation and emission at the NIR‐II spectral window enable high‐contrast deep‐
tissue bioimaging. However, multiplexed imaging with NIR‐II excitation and emission has …

Due to the merits of decreased photon attenuation, autofluorescence, and scattering, the
near‐infrared (NIR, 700–1700 nm) region is an important window in the field of biomedicine …