(March 26, 2014 Zelenograd, Russia)
NT-MDT, a premier global provider of innovative AFM and SPM, proudly announces Titanium, the first AFM with a
self-aligning, multiple probe cartridge for fast, automated tip exchange.
Titanium’s unique Revolution Cartridge
simplifies one of the most challenging steps in AFM workflow: tip exchange and alignment. Revolution holds 38 tips. As each new probe moves into position,
Titanium automatically centers and aligns the probe and laser, dramatically
cutting downtime for tip exchange as well as opening AFM to less sophisticated
users and more routine applications.
Real-time detection of cantilever
deflection allows Titanium to collect topographic, mechanical and
electrical properties in a single pass, with high quality and spatial
resolution. Its robust, stable engineering guarantee exceptionally low drift
(0.2nm/min) and low noise level (25fm/ÖHz).
Titanium also offers the new HybriD
Mode™ (HD-AFM™ Mode), a new high resolution modality especially well-suited to nanomechanical
testing. Other options include a standard AFM head for traditional probes, an
AFM head for liquid studies, and an STM head for scanning tunneling and
spectroscopy. A nanoindentor measuring head and a heating stage are also
available. These solutions provide a robust
growth path and make Titanium the ideal instrument for multi-user facilities.
NT-MDT service stands behind
Titanium, offering another industry first:
a triple warranty that provides free cantilevers (under regular usage)
for three years.
For further information, visit http://www.ntmdt.com/automated-afm/titanium/
Founded in 1990, NT-MDT has become known internationally for
its next-generation instruments in AFM, STM, and hybrid technologies such as
AFM-Raman. Its microscopes have won many
awards including multiple prestigious R&D 100 awards. Our mission is to
enable researchers, engineers and developers to conduct nanoscale research by
creating better solutions for nanotechnology instrumentation. Along the way, we maintain a global
perspective, always taking into consideration the needs of student in the
classroom, the researcher at the cutting edge in the laboratory, and the
practicalities of industrial R&D.