Latest: ZEISS Introduces Latest FE-SEM Technology: GeminiSEM 450
Latest: New Oncomine Childhood Cancer Research Assay Launched by Thermo Fisher Scientific
Latest: Thermo Fisher Scientific to Demonstrate Latest Innovations at analytica 2018
Latest: New HCP Chamber for 85/85 Tests
Latest: Environmental Test Chambers CTC and TTC Now with Climate-Friendly Refrigerant
Latest: An Informative Introduction to Evaporation
Latest: The Scientists’ Choice Awards Launches New European Awards at analytica 2018
Identification of Microglial States in Neurological Diseases - Immunostaining with JIR Secondary...
Transforming Spectroscopic Research: An Instrumental Story
Copley Scientific to Present Albuterol Products at Respiratory Drug Delivery 2018
BD Unveils Latest Diagnostic Innovations at ECCMID
7 Top Videos from Neuroscience 2017
9 Top Reasons to Become a SelectScience Member
Using a Quartz Crystal Microbalance to Study Film Growth
Calibration of a Gold-coated Quartz Crystal
Implementation of Radiological Emergency Monitoring Systems in Harsh Environments
Application of DRAQ™ Dyes in Single Cell Transcriptomics and Genomics
The Autoclave Knowledge Bank
Introduction to Solvent Evaporation
Microplate Readers
PCR Technology
DNA and RNA Purification
Liquid Handling
Microscopy
UV/Vis Spectroscopy
66th ASMS Conference
03 Jun 18 - 07 Jun 18
ACHEMA 2018
11 Jun 18 - 15 Jun 18
SLAS Europe 2018
27 Jun 18 - 29 Jun 18
PREP 2018: 31st...
08 Jul 18 - 11 Jul 18
HPLC 2018
29 Jul 18 - 02 Aug 18
Advertisement
The Vena8 Fluoro+™ biochip is ideal for studying cell receptor-ligand interaction and is compatible with confocal microscopy. As cells flow through the microcapillary of the Vena8 Fluoro+™ biochip, the cell surface receptors may inte... Read more...
The Vena8 Endothelial+™ biochip is ideal for studying cell-cell interaction. Endothelial cells are easily seeded (via standard pipette) and cultured inside the microcapillaries of the biochip. As cells flow through the microcapillary... Read more...
The VenaT4™ biochip model combines Cellix's proprietary microfluidic flow technology for cell recruitment under shear stress with traditional transwell chamber models. Used to investigate and quantify cell recruitment to various ligan... Read more...