Latest Articles for Microscopy Techniques

A new tool improves tracking of microtubules in cell studies.

MemGraft probes improve visualization and manipulation of cell membranes for research.

Research on pavement cells reveals insights into plant development and genetic influences.

A new tool enhances AI development for super-resolution microscopy.

New methods improve imaging of cellular dynamics with high precision.

A new method enhances understanding of cell structure and drug effects.

A new tool streamlines the analysis of cell shapes and sizes.

New model improves cell cycle analysis with 3D imaging techniques.

This study sheds light on germ cell division and tissue structure in C. elegans.

AI integration transforms scanning probe microscopy for improved measurements at room temperature.

Study reveals how light exposure affects mitochondrial shape and behavior.

CTFFIND5 improves image clarity and accuracy in cryo-electron microscopy.

FerriTag improves protein labeling in CryoET for better cellular imaging.

New techniques in STEM lead to better imaging of materials at an atomic level.

This article explores interference microscopy's role in observing tiny particles.

A new dataset enhances image quality evaluation in microscopy.

New methods enhance 3D visualization of biological structures through improved pose estimation.

SSAI-3D enhances clarity in 3D imaging for biological research.

Examining how lipid membranes and actin networks work together in cells.

A new filter enhances background clarity in biological imaging.

New method enhances detection of crystal tilt using thermal diffuse scattering.

This technique reduces background noise in cell imaging using DNA-PAINT.

New methods improve magnetic imaging at the nanoscale.

New methods improve ribosome counting, shedding light on their role in cells.

Faser enhances optical microscopy research with innovative simulation tools.

C-DASH enhances multi-photon microscopy for clearer biological imaging.

A deep dive into the sensory organs of the tiny wasp Megaphragma viggianii.

New method enhances detection of smaller cell structures in complex images.

New techniques enhance NV diamond microscopy for improved magnetic field imaging.

Centrioles are key to cell division and stability, impacting health and disease.

A new approach to measure forces in developing cells enhances our understanding of tissue formation.

New techniques enhance our view of tiny magnetic materials.

ExoSloNano method uses gold nanoparticles for better protein imaging in live cells.

Exploring the transport of dense-core vesicles in nerve cells of roundworms.

Research reveals promising applications for TMDs in electronics and optics.

This innovative approach enhances imaging of biological samples without labels.

Explore how SPIM enhances biological imaging while addressing key challenges.

A look at how actin filaments contribute to cell movement and function.

MicroSSIM enhances image quality assessment in microscopy for better scientific outcomes.

Strategies to improve data accuracy in Magnetic Resonance Force Microscopy.