Optical tweezers, Confocal microscopy, STED nanoscopy, Acoustic force spectroscopy for single-molecule biophysics.
Automated microscopy and Spatial Proteomics
Real-time, label free cell analysis
Nano and micro particle analysis
Accelerate to discover
Related topics
Scaling Whole-Genome Sequencing to >50,000 single cells using cellenONE
Jul 16, 2024
cellenONE technology enabled the creation of tens of thousands of high-quality single-cell genomes, paving the way for...
Theranostics: From Mice to Men and Back
Jun 25, 2024
Recorded webinar
Presenters: Prof. Dr. Ken Herrmann and Prof. Dr. Katharina Lückerath – Moderator: Hannah Notebaert
X-RAD 320 for irradiation therapy during quantifying study for in vivo collagen reorganization
Jun 5, 2024
Quantifying in vivo collagen reorganization during immunotherapy in murine melanoma with second harmonic generation...
Use of MRI and microCT to evaluate gene therapy for the treatment of discogenic back pain
Jun 4, 2024
MRI images were obtained using the 9.4T Bruker BioSpec system, equipped with 40 mm 1H quadrature volume resonator, and...
High-frequency Ultrasound System For Preclinical Imaging
May 13, 2024
The Prospect T1 is an innovative high-frequency ultrasound system designed specifically for in vivo preclinical imaging...
“Range+T “ for Tight Sizing of HMW Libraries
May 10, 2024
We decided to do a deep dive into Range+T to get a better handle the method, and to develop best practices for using...
April 2024 publication revealing benefits of using intravital microscopy in trascriptomics studies
May 8, 2024
Transcriptional activation of Bmal1 drives the inflammatory activity of monocytes by modulating mitochondrial unfolded...
Minimal information for studies of extracellular vesicles (MISEV2023)
May 7, 2024
MISEV2023 is intended to aid any and all EV researchers: from those just starting their EV journey to more established...
Jun 1, 2016
The novel method of using acoustics for single molecule manipulation and spectroscopy was published in Nature methods.
Force spectroscopy has become an indispensable tool to unravel the structural and mechanochemical properties of biomolecules. Here we extend the force spectroscopy toolbox with an acoustic manipulation device that can exert forces from subpiconewtons to hundreds of piconewtons on thousands of biomolecules in parallel, with submillisecond response time and inherent stability. This method can be readily integrated in lab-on-a-chip devices, allowing for cost-effective and massively parallel applications.
LUMICKS is already offering two versions of its commercial solution for AFS, namingly the AFS module that can be mounted on any inverted microscope, and the AFS stand-alone system with particle tracking.
Brand profile
Optical tweezers, Confocal microscopy, STED nanoscopy, Acoustic force spectroscopy for single-molecule biophysics.
More info at:
www.lumicks.com