CONFERENCE ANNOUNCEMENT:
6th Annual Conference on
FOUNDATIONS OF NANOSCIENCE:
SELF-ASSEMBLED ARCHITECTURES AND DEVICES (FNANO09)
DATES of FNANO09: April 20 – 24, 2009
SUBMISSION DEADLINE:
January 15, 2009
FNANO09
Announcement: [PDF]
[TXT]
[HTML]
http://www.cs.duke.edu/~reif/FNANO/FNANO09/FNANO09announce.pdf
FNANO09 Webpage: http://www.cs.duke.edu/~reif/FNANO/
LOCATION:
Snowbird Cliff Lodge, Snowbird, Utah
HOTEL
Accommodations: http://www.cs.duke.edu/~reif/FNANO/venue.html
FNANO09 Conference Registration pages <to be posted> (Registration will be open starting February 1, 2009, and the deadline for early registration is March 1, 2009.)
SUPPORTING ORGANIZATIONS: Air Force Office of Scientific Research (AFOSR), ACS Publications (ACS Nano), and Nanorex, Inc.
SPONSORING SOCIETY: International Society For Nananoscale Science, Computation and Engineering (ISNSCE).
PAPER
and POSTER SUBMISSIONS: http://fnano09.cs.duke.edu/submit/
¯SUBMISSION DEADLINE: January 15, 2009
¯SUBMISSION REQUIREMENTS: If you wish to present a talk or poster at FNANO09, you need to submit by January 15, 2009 an extended abstract of at least one page in PDF format. Even if your talk is invited, you still need to submit at least a one page abstract by this date.
¯SUBMISSION METHOD: Submissions are electronic
via a Web interface at the above Paper and Poster Submission Website. Please
make sure you have a browser that supports uploading via a web form.
Acceptance/Rejection DECISIONS: determined by February 15, 2009
DEADLINE for Uploading ACCEPTED PAPERS (for invited talks & accepted submitted papers and posters for publication in the Conference Proceedings): March 15, 2009. See below for more information on the Conference Proceedings.
FNANO09 Preliminary Schedule (to be posted Feb 15 2009):
CONFERENCE
FORMAT: A combination of:
¤
invited and contributed
talks, and
¤
posters and open discussion
periods.
FNANO
Conference Overview: This is a yearly
conference on foundations of nanoscience, maintaining the highest scientific
standards. Self-assembly is the central theme of the conference. Topics include
self-assembled architectures and devices, at scales ranging from nano-scale to
meso-scale. Methodologies include both experimental as well as theoretical
approaches. The conference spans
many traditional disciplines including chemistry, biochemistry, physics,
computer science, mathematics, and various engineering disciplines including
MEMS.
The prior year's
Conferences on Foundations of Nanoscience (FNANO04, FNANO05, FNANO06 and FNANO07) had a
significant impact on the emerging fields of Nanoscience and Self-assembly
– they brought many of the leading nanoscientists and researchers working
in a wide variety of areas of Self-assembly in the same place to present
invited talks. This year's 5th Conference on Foundations of
Nanoscience (FNANO09) will
have a mixture of both as invited talks by distinguished nanoscientists as well
as contributed posters and open discussion periods to enhance attendee
interaction with the goal of creating vibrant intellectual community in the
area of self-assembly. We are including a number of special tracks on topics of
emerging interest to the community of self-assembly.
FNANO09
CONFERENCE ORGANIZATION:
FNANO09
General Chair: John H. Reif
<
>, Dept of Computer Science, Duke Univ, Durham, NC
FNANO09
Program Chair:
¤ Marya Lieberman <mlieberm@nd.edu>, Dept of Chemistry and Biochemistry, Univ
of Notre Dame, Notre Dame, IN
FNANO09
Program Committee: Track Chairs
Track
on Fullerene Nanostructures:
¤
Track Chair: Jie Liu
<j.liu@duke.edu>, Dept of Chemistry, Duke Univ, Durham, NC
Track
on Self-Assembled DNA Nanostructures:
¤
Track Chair: Nadrian
Seeman <ncs1@feynman.acf.nyu.edu>, Dept
of Chemistry, New York Univ, New York, NY
Track
on Cluster-Assembled Materials:
Track
Chair: Paul S. Weiss
<stm@psu.edu>, Depts of Chemistry and Physics, Pennsylvania State Univ,
Univ Park, PA
Track
on Self-Assembled Surface Chemistry:
¤
Track Chair: Lloyd Smith
<smith@chem.wisc.edu>, Dept of
Chemistry, Univ of Wisconsin, Madison, WI
Track
on Viral Self-Assembly:
¤
Track Chair: Adam Zlotnick
<adam-zlotnick@ouhsc.edu>, Adam Zlotnick <azlotnic@indiana.edu>,
Dept of Biology, Indiana Univ, Bloomington, IN
Track
on Self-Assembly of Peptide-Protein Nanostructures
¤
Track Chair: Todd Yeates <yeates@mbi.ucla.edu>,
Dept of Chemistry and Biochemistry, Univ. of Calif. Los Angeles, Los Angeles,
CA
Track
on Nanoplasmonics & Nanophotovoltaics:
¤
Track Chair: Eray Aydil
<aydil@tc.umn.edu>, Dept of Chemical Engineering and Materials Science,, Univ of Minnesota, Minneapolis, MN
Track
on Biomedical Nanotechnology:
¤
Description: Talks
& posters in this track present biomedical applications of nanoscience.
¤
Track Chair: Carston R. Wagner
<wagne003@tc.umn.edu>, Dept of Medicinal Chemistry, Univ of Minnesota,
Minneapolis, MN
Track
on Molecular Motors:
¤
Track Chair: Andrew
Turberfield <a.turberfield@physics.ox.ac.uk>,
Dept of Physics, Oxford Univ, Oxford, UK
Track on Self-assembled
Computer Circuit and System Architectures:
¤
Track Chair: Chris Dwyer <dwyer@ece.duke.edu>, Dept of Electrical & Computer Engineering, Duke Univ, Durham, NC
Track on Self-Assembly Across
Scales:
¤
Track Chair: Karl
Bohringer <karl@ee.washington.edu>, Dept
of Electrical Engineering, Univ of Washington,
Seattle, WA
Track on Top-down Meets
Bottom-up:
¤
Description: Talks
& posters in this track combine bottom-up self-assembly with top-down
methods such as lithography or an external patterning force (e.g.,
electromagnetic field or chemical gradient).
¤ Track Chair: Marya Lieberman <mlieberm@nd.edu>, Dept of Chemistry and Biochemistry, Univ
of Notre Dame, Notre Dame, IN
Track
on Computational Tools for Self-assembly:
¤
Track Chair: Mark Sims
<mark@nanorex.com>, Nanorex, Inc.,
Bloomfield Hill, MI
Track
on Principles and Theory of Self-Assembly:
¤
Track Chair: Paul W.K. Rothemund <pwkr@dna.caltech.edu>,
Dept of Computer Science and Dept of Computation and Neural System, Caltech,
Pasadena, CA
PROGRAM
TRACK CHAIRS RESPONSIBILITIES: Paper
solicitation, Paper refereeing and acceptance decisions for papers in their
track (in consultation with the Program Chair).
FNANO
CONFERENCE DESCRIPTION: The construction
of structures in the 1 ‑ 100 nanometer range with
molecular-scale precision is one of the key challenges facing science and
technology in the twenty-first century. This challenge is at the core of the
emerging discipline of Nanoscience, which is at a critical stage of
development. There have been some notable successes in the construction of
individual molecular components (e.g.,
carbon nanotubes, and various molecular electronic devices), and the individual
manipulation of molecules by probing devices. However, a key deficiency is the
lack of methods for constructing complex devices out of large numbers of these
molecular components. We need methods to help us hold, shape, assemble, and
test various molecular components into complex machines and systems.
Top-down methods for
construction of nanostructures, such as e-beam lithography, have inherent
limitations in scale. Bottom-up methods appear to have no such scale
limitations. Self-assembly is a bottom-up method of construction where
substructures are spontaneously self-ordered into superstructures driven by the
selective affinity of the substructures. While top-down methods are well
understood, and widely used in engineering and manufacturing processes,
self-assembly is a much less well-understood construction process. Chemists have used self-assembly
methods for many decades (e.g., for
the self-assembly of lipid or polymer layers), but they conventionally result
in structures with limited complexity, and are not readily programmable.
However, the cell is self-assembled, and contains many complex structured
components.
A missing pillar in the emerging discipline of Nanoscience is an understanding of self-assembly methods for forming complex structured components. For a variety of historical reasons, self-assembly processes and experiments have not been examined by science to the degree that is now needed by Nanoscience. The Conference provides synergy for a community of scholars working in self-assembly-related areas who would otherwise not have contact with each other.
Plans for
Special Journal Issues of FNANO Papers: http://www.cs.duke.edu/~reif/FNANO/journals.html
CONFERENCE
PROCEEDINGS:
FNANO Conference Proceedings: The Conference Proceedings will be published in hard copy as well as an electronic book by an electronic publisher. Both printed and electronic versions of the proceedings will be subsequently available by commercial book venders. A hard copy of the Conference Proceedings will also be provided to registered Conference attendees. Both printed and electronic (CD-ROM and download) versions of this year's FNANO09 Proceedings and will also be available for purchase. Submitted papers can be either a full paper or an extended abstract, at the author's option. The proceedings will include, for each invited or contributing speaker, a paper or extended abstract ranging in length between one and approximately 12 pages (maximum length and format to be determined). The Proceedings will also include a one to five page abstract for each poster.
Conference Proceedings Paper
Format Instructions: http://www.cs.duke.edu/~reif/FNANO/FNANO09/instructions.html
JOURNAL
SPECIAL ISSUES: Selected conference papers
will be invited to special issues of various journals to be determined.
Concurrent
NSF Workshop: to be determined
Obtaining
prior year's FNANO Proceedings: http://www.cs.duke.edu/~reif/FNANO/FNANOproceedings.html
FNANO09 Proceedings will be available for purchase via a publisher to be determined.
Prior FNANO08 Conference: http://www.cs.duke.edu/~reif/FNANO/FNANO08
Prior FNANO07 Conference: http://www.cs.duke.edu/~reif/FNANO/FNANO07
Prior FNANO06 Conference: http://www.cs.duke.edu/~reif/FNANO/FNANO06
Prior FNANO05 Conference: http://www.cs.duke.edu/~reif/FNANO/FNANO05
Prior FNANO04 Conference: http://www.cs.duke.edu/~reif/FNANO/FNANO04
FNANO04, FNANO05, FNANO06, and FNANO07 Proceedings are available for purchase at: http://sciencetechnica.com/.
CONFERENCE
VENUE:
The
Conference will be at the Snowbird Cliff Lodge, Snowbird, Utah. It is 20 miles
from Salt Lake International Airport.
HOTEL ACCOMMODATIONS:
CUT-OFF DATE for Snowbird
Hotel Room Reduced Rates: March 15, 2009.
We have negotiated the
following considerably reduced rates for hotel rooms at Snowbird: one hundred Rooms will be $106.60/night
at the Snowbird Cliff
Lodge, where the Conference Sessions are held. There may also be rooms at
similar rates at the Lodge at Snowbird
(8 minutes walk from Snowbird Cliff Lodge). The reduced rates are generally
available for the dates April 19 - April 25, 2009
to allow for an extended stay. Reservations with these discount rates are
available for booking by calling 800-453-3000 or 801-742-2222. Be sure to
specify that you attending the "Foundations of Nanoscience (FNANO)"
Conference to ensure that you are not charged a higher rate. The rooms at
either of these hotels are quite spacious and comfortable. Book early to get
the reduced rates. Space is limited; rooms may NOT be available after March 15,
2009.
FACILITIES:
The
facilities at Snowbird include multiple restaurants, swimming pools & hot
tubs, athletic spa, skating rink and world-class skiing. (In addition to the
main ski slopes, there is also a beginner's skiing slope that is free at night.
There is also free all day skiing for any children with a parent that purchases
a ski ticket.)
TRANSPORTATION TO AND FROM
AIRPORT: A Canyon Transport van to Snowbird from the Airport baggage claim
area costs $64 roundtrip (if prebooked for regularly scheduled times) and takes
40 minutes. You can make reservations at 801-742-340 or (800) 255-1841. The
road up though Little Cottonwood Canyon to Snowbird
is rarely closed for snow removal, but this can occur very occasionally in the
evening during a very large snowstorm, and also rarely for a period in the
morning afterward. Although these events are unlikely, just in case, we
strongly suggest you arrive early to avoid possible problems and to
enjoy the beautiful surroundings.