Search

  • The Evolution Of Spinning Disk Confocal Microscopy

    The spinning disk confocal microscope (SDCM) is a revolutionary tool for imaging in the life sciences, observing samples ranging from single molecules to live cells, featuring high speed, 3D and multichannel acquisitions. Many experiments and researchers use SDCM imaging systems for their imaging, and the technology has become well established.

  • Hybrid Binning

    The Retiga E7 CMOS camera has hybrid binning capabilities, combining the best of CCD and CMOS technologies. In this article we discuss binning, the benefits of binning, and how the hybrid binning of the Retiga E7 CMOS results in increases in both speed and signal-to-noise ratio (SNR), thanks to careful electronic design across the sensor.

  • Live Cell Organelle Transport Dynamics

    Prof. Viki Allan is the leader of a group at the University of Manchester that studies cell dynamics, with a particular focus on intracellular transport and the endocytic pathway. Membrane organelles move around cells along microtubule tracks, driven by proteins such as kinesin and cytoplasmic dynein, and this movement of material within a cell is vital for cell function.

  • PrimeLocate

    There is currently a revolution in computational imaging, pairing the power of a cutting-edge scientific camera, such as the Prime Family of CMOS cameras from Teledyne Photometrics, with powerful graphics processors from the latest generation of GPUs. Machine learning, data processing, and the camera-PC interface are all going to help imaging evolve, through methods such as denoising and localization.

  • The Evolution Of Spinning Disk Confocal Microscopy

    The spinning disk confocal microscope (SDCM) is a revolutionary tool for imaging in the life sciences, observing samples ranging from single molecules to live cells, featuring high speed, 3D and multichannel acquisitions. Many experiments and researchers use SDCM imaging systems for their imaging, and the technology has become well established.

  • Cryo Super-Resolution Imaging

    The Biophysics Group at TU Wien is interested in super-resolution imaging in order to study the dynamics of biological systems such as T cells. One approach to this is cryo super-resolution imaging, which aims to produce highly-resolved images by imaging at extremely low cryogenic temperatures of -180 °C

  • Calcium Imaging at Medical University of Vienna

    Dr. Fischer’s research addresses nociception, the nervous system’s response to harmful or potentially harmful stimuli, with focus on the peripheral nervous system. A particular interest is the role of transient receptor potential (TRP) channels, which play an important role in sensing pain.

  • Super-Resolution Optical Fluctuation Imaging

    Since the development of super-resolution microscopy, the diffraction limit of light has no longer been the hard limit of resolution, enabling us to resolve incredibly fine sub-cellular details.

  • BioPhotonics Article – OCT Presents Multidimensional Imaging for Diagnosis and Detection

    The article “OCT Presents Multidimensional Imaging for Diagnosis and Detection” by Teledyne e2v’s Pierre Fereyre and Antoine Adam has been published in the July/August issue of Bio Photonics magazine. Click here to read the article.

  • Calcium Imaging at University of Southampton

    Phytoplankton play a critical role in Earth’s carbon and nutrient cycles, and in the regulation of our climate, yet are relatively poorly understood. The Brownlee Group at the Marine Biological Association study various processes that occur in living phytoplankton ranging from interactions between large populations of organisms to processes within single cells.

  • Teledyne e2v honoured with Silver Vision Systems Design 2020 Innovators Award

    Grenoble, FRANCE, June 16, 2020 — Teledyne e2v, a Teledyne Technologies [NYSE: TDY] company and global innovator of imaging solutions, announced today that its Emerald™ 67M CMOS image sensor was recognized among the best in the industry by the judges of the Vision Systems Design 2020 Innovators Awards program.

  • Confocal STORM

    The Salk Institute is home to a highly collaborative cadre of scientists who delve into a broad range of research areas, from aging, cancer and immunology to diabetes, brain science and plant biology. The group is supported by on-campus research centers and core facilities that are equipped with cutting-edge technology.