Latest Articles for Microscopy Techniques

Differential Dynamic Microscopy offers a fresh approach to studying proteins.

New tools improve our ability to study heat at small scales.

Research reveals how mitochondria divide in malaria parasites, aiding potential treatment strategies.

New dataset enhances research on nerve cells in rodents using fluorescence microscopy.

SDDWP-sSMLM offers improved precision for studying cellular structures.

This study reveals how MP20 plays a role in lens structure and clarity.

Tunneling nanotubes connect cells, enabling direct communication and material transfer.

AI helps minimize light harm in fluorescence microscopy, improving live-cell observation.

Researchers develop motion blur microscopy to observe cell interactions in whole blood.

A new method enhances image quality for better medical analysis.

A new method enhances synthetic nuclei images for better segmentation performance.

New method enhances imaging quality without a guide star using quantum mechanics.

Exploring the structure and role of protein fibrils in health and disease.

New deep learning models enhance analysis of organelles in label-free transmitted light microscopy.

Advances in microscopy reveal how cells communicate and adapt in their environment.

MatSAM enhances microstructure extraction from material images for improved analysis and research.

Synthetic data generation improves machine learning for atomic-level material analysis.

New techniques improve imaging of small proteins using cryo-electron microscopy.

tGAN enhances cell image analysis through synthetic data generation.

A deep learning approach for analyzing wood fibers and vessels efficiently.

PSSR2 enhances image quality and accessibility for microscopy research.

VASCilia offers innovative AI tools for studying cochlear structures and improving understanding of hearing.

A look into the structural coloration of the Anoplophora graafi longhorn beetle.

Integration of xenon plasma FIB enhances structural analysis of biological samples.

New imaging method captures fast movements of tiny swimmers in detail.

This article details the performance of cryogen-free SPMs with minimized vibrations.

New model improves accuracy and speed in atomic-level research.

A new approach improves clarity in microscopic imaging, aiding diagnosis and surgery.

A fresh approach to examine the behavior of membraneless organelles in cells.

Researchers leverage nanoparticles to track movement and behavior within cells.

New open-source solutions enhance fluorescence microscopy accessibility for researchers.

Study reveals how fluorescent tags influence protein droplet formation in cells.

A new method enhances biological imaging without labels using holography and THG.

New methods improve visualization of living tissues and cells.

This study explores electric biasing to enhance helium atom focusing using Fresnel zone plates.

Scientists develop BOOST to speed up sample preparation for clearer imaging.

New methods improve current density mapping from magnetic field data.

PhotoFiTT framework measures light effects on living cells effectively.

Rootlets are essential for cilia stability and cellular communication.

A new method enhances MIM accessibility and accuracy with silicon cantilever probes.