67th Biophysical Society Annual Meeting
Feb 18 – 22
San Diego Convention CenterSan Diego, California, USA
Booth 1021
The 2023 Biophysical Society Annual Meeting brought together leading scientists from all over the world who work at the interface of the life, physical, and computational sciences. At the meeting, Nikon exhibited microscopy solutions from advanced, turnkey systems to industry-leading optical components.
The following microscope and imaging systems were featured at the Nikon booth:
- ECLIPSE Ti2-E Inverted Microscope with AX Confocal and iLas 2 Targeted Laser Illuminator
- ECLIPSE Ti2-E Inverted Microscope with HDK Hardware Development Kit and Ti2-LAPP Illuminator
- CFI75 Water Dipping Objectives, Silicone Immersion Objectives and Objectives for Imaging Cleared Specimens
Featured Products & Services
AX / AX R with NSPARC
Nikon’s latest confocal microscope, leveraging deep learning-based AI tools to simplify acquisition and improve image quality. Fast scanning combined with a large 25 mm field of view enables high throughput imaging with unmatched edge-to-edge image quality. Super-resolution provided by the NSPARC detector.
Ti2-LAPP
Modular illumination devices from photo-stimulation to multi-angle TIRF, that can be mixed and matched for ultimate flexibility and expandability in imaging applications.
NIS-Elements
Flexible software platform for controlling Nikon microscopes and 3rd-party components, with powerful custom programming tools for image acquisition and analysis.
CFI75 Water Dipping Series
With exceptionally high numerical apertures and ultra-long working distances, these lenses are designed for multiphoton imaging and electrophysiology applications.
Silicone Immersion Series
Objective lenses, perfect for imaging 3D cell cultures and thick tissue samples, provide superior depth and resolution performance for biological imaging by more closely matching the refractive index of cells and tissues.
Objectives for imaging cleared specimens
Compatible with various optical clearing agents which have a wide range of refractive indices. Designed for ultra-deep, large-scale imaging.