Asylum Research Receives the 2014 Microscopy Today Innovation Award for blueDrive Photothermal Excitation
(Nanowerk News) Oxford Instruments Asylum Research, the technology leader in Atomic Force Microscopy, has received the prestigious 2014 Microscopy Today Innovation Award for the development of blueDrive™ Photothermal Excitation. blueDrive, an option available exclusively for Asylum’s Cypher™ Atomic Force Microscopes (AFMs), makes tapping mode imaging remarkably simple, incredibly stable, and strikingly accurate. It replaces the conventional piezoacoustic excitation mechanism of the AFM cantilever by using a blue laser to directly excite the cantilever photothermally. This results in an ideal cantilever drive response in both air and liquids, which provides significant performance and ease of use benefits for tapping mode imaging.
Rob Cain, Asylum Research US Technical Sales Manager (right) receives the award from Charles Lyman, Editor-in-Chief, Microscopy Today.
“We are proud to be honored with the 2014 Microscopy Today Innovation Award,” said Aleks Labuda, Asylum Research R&D Scientist and lead blueDrive developer. “We continually hear from our customers that blueDrive has made tapping mode imaging, the most widely used scan mode in AFM, easier and more stable. It is very exciting to have this new product recognized as a significant AFM innovation by the microscopy industry.”
Added Roger Proksch, President of Asylum Research, “We are thrilled to have received this award from Microscopy Today, a publication of the Microscopy Society of America. We are committed to making innovative products like blueDrive that give our users unmatched performance and reliable results, all while making the instrument a pleasure to use every time they sit down to make a measurement. Asylum’s mission, now and since the beginning, is to make the best AFMs on the planet. This award affirms that we are still on that path.”
About Oxford Instruments Asylum Research
Oxford Instruments Asylum Research is the technology leader in atomic force microscopy for both materials and bioscience research. Asylum Research AFMs are used for a wide variety of nanoscience applications in material science, physics, polymers, chemistry, tribology, biomaterials, and bioscience, including emerging applications in energy storage and generation, low-dimensional materials, and biophysics.
Asylum’s MFP-3D family of AFMs includes four different models that span a wide range of performance, applications, and budgets. The new MFP-3D Infinity is the flagship of the family, offering the highest performance, simplest operation, and widest range of capabilities. The MFP-3D Classic, the original MFP-3D offered for mid-range budgets, provides high performance and versatility that exceeds most AFMs. The MFP-3D Origin is the most affordable model, offering the same performance as the MFP-3D Classic with many accessories and an easy upgrade path to advanced capabilities. Finally, the MFP-3D-BIO integrates with an inverted light microscope to support biological and photonic applications.
Cypher is the highest resolution fast scanning AFM and is available in two configurations, the Cypher S and the Cypher ES Environmental AFM. They provide low-drift closed loop imaging for the most accurate images and measurements possible today, >20X faster imaging with small cantilevers, exceptional ease of use, and integrated thermal, acoustic and vibration control – all in a small footprint. Cypher AFMs routinely achieve higher resolution than other AFMs, as demonstrated by single point atomic defects in crystal lattices and imaging of the DNA double helix.
The Cypher ES adds gas and liquid environmental control, temperature control, and enhanced chemical compatibility to the extraordinary performance of the Cypher S.
In addition to the best AFMs, Asylum Research also offers unmatched customer support that is free for the lifetime of the AFM and industry-leading warranties for the lowest cost of ownership of any AFM. Asylum has sales, applications and service staff in offices in the United States, Germany, United Kingdom, Japan, France, China and Taiwan and global distribution.