National Nanotechnology Infrastructure Network

National Nanotechnology Infrastructure Network

Serving Nanoscale Science, Engineering & Technology

Cornell University

Cornell NanoScale Science & Technology Facility

Expertise: Broad scope in Nanotechnology; Biology, Chemistry, MEMS, Characterization, Materials, Electronics, Life Sciences, Computation

Since its founding in 1977, the Cornell NanoScale Science and Technology Facility (CNF) has been a national user facility, where researchers from universities and companies across the country can access state-of-the-art fabrication and characterization tools, and learn to use them with the help of a knowledgeable technical staff. Over the years, the CNF user community has expanded at a steadily increasing rate, to the point that ~400 external research users take advantage of the facility, in addition to approximately an equal number of internal-to-Cornell users. 

CNF maintains a comprehensive tool set (more than 90 major tools including tools for advanced lithography, etching, deposition, film growth, and characterization).  Most significant among these tools are two 100 KeV electron beam lithography tools, a Leica VB6 and a JEOL 9300FS. In addition CNF offers extensive advanced photolithography services and a broad array of thin film etching and deposition resources.  With these resources, CNF provides a broad range of advanced molecular-, nano-, micro- and macro-scale capabilities, adaptable to the needs of individual users and integrated in complex and advanced experiments. CNF supports projects across the breadth of nanotechnology with extensive resources and expertise for electronics, materials science, biology, chemistry, physics, etc. Particular emphasis at CNF has been on fabrication at the smallest dimensions, and many significant scientific results of recent past, from single molecule transport measurements, spin-torque coupling, nanotube transistors and mechanical oscillators, to power-adaptive nano-transistors, have resulted from the use of these resources.

CNF's ~800 active research users represented a very diverse Skvarange of disciplines, including materials, chemistry, electronics, magnetics, MEMS, optics, biology, electro-mechanics, and bio-systems. Within these broad field, CNF particularly makes its mark with high resolution, high precision patterning, to features smaller than 20 nm. CNF has ongoing efforts to enable growth in new fields, through (1) advertising the capabilities of the CNF and its network partners at conferences and in field-specific workshops, (2) employing specialized field-liaison staff with expert knowledge in the new disciplines as well as fabrication techniques, (3) providing expert staff assistance in new user project planning and for process support, and (4) publicizing the successful execution of projects in the new directions.

Cornell University's commitment to the CNF is embodied in the new facilities in Duffield Hall, a $100M investment by Cornell which was occupied in 2004.  This facility provides 15,000 sq. ft. of new clean room space together with a large area of additional laboratory and office space outside the clean room dedicated to user project support.  The same building houses shared facilities of the Cornell Center for Materials Research (CCMR; multiple TEMs) and the Nanobiotechnology Center (NBTC; bio-characterization resources), which can be made available to all CNF users.

For further information contact:

Michael Skvarla
User Program Manager
(607)-254-4674
Skvarla@cnf.cornell.edu

http://www.cnf.cornell.edu/

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