Carbon Design Innovations, Inc. (C|D|I) today announced the availability of a new atomic force microscope (AFM) probe for extreme high-aspect ratio life science imaging. The CCB (Carbon Core BioProbe) offers AFM scientists a new level of performance and opens new avenues for research.
"The carbon nanotube AFM probes from C|D|I reveal the most accurate surface morphology, especially for cellular samples such as rat basophilic lymphocytes cells," states Dr. G. Y. Liu, University of California, Davis. "All observations reflect upon the superior geometry of these CCB probes, which exhibit little convolution in AFM imaging. We certainly hope to see these advantages among other biological specimens such as, proteins, tissues and biopolymeric materials."
"AFM researchers understand that the next leap in AFM productivity will be based on improved probe technology," said Vance Nau, CEO, Carbon Design Innovations. "They have been looking for reliable CNT probes for many years, however, the inability to consistently manufacture CNT probes that live up to their promise has limited widespread adoption, frustrating users and manufacturers alike."
C|D|I has patented processes for the deterministic manufacture of carbon nanotube (CNT) devices. Based on these breakthrough processes, the company is able to produce CNT AFM probes that are perfectly straight and precisely aligned, allowing them to be set at desired angles to the imaging surface. The CNT is securely anchored providing for robust and stable imaging with previously unseen levels of performance. C|D|I's CNT probes are more stable and have longer imaging lifetimes than other probe types. In addition, the ability to apply proprietary coatings allows CDI to produce reliable CNT probes up to 5 microns total length. As a result, C|D|I probes offer customers greater imaging flexibility, performance and reproducibility that will enable them to make significant advances in new areas of AFM research. The new CNT AFM probes from C|D|I are compatible with all major AFM systems, giving users an easy path for improving AFM performance without making a substantial investment in new instrumentation.
The CCB probe offers extreme high-aspect ratio imaging capability for life science applications and allows AFM scientists to look at more detailed cell structure. It offers stability and durability in a high-aspect ratio probe designed for difficult to resolve scanning operations such as deep-trench imaging. The total CNT probe length is 2ƒÝ to 5ƒÝƒnwith the exposed CNT length being <500nm. The CCB comes standard on an Applied Nanostructures probe, but can be mounted onto any AFM Cantilever.
In addition to the CCB probes, C|D|I offers a family of high-aspect (CCHAR) and high-resolution (CCHR) probes for materials science and metrology applications. Probes are available for order shipment now.