From nanotech at mit.edu  Wed Apr 18 16:15:57 2007
From: nanotech at mit.edu (MIT Nanotechnology Public Lecture Series)
Date: Wed, 18 Apr 2007 16:15:57 -0400
Subject: [Nanotech lectures] foo
Message-ID: <46267C7D.3050007@nano.mit.edu>

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From nanotech at mit.edu  Wed Apr 18 16:17:26 2007
From: nanotech at mit.edu (MIT Nanotechnology Public Lecture Series)
Date: Wed, 18 Apr 2007 16:17:26 -0400
Subject: [Nanotech lectures] Foo
Message-ID: <46267CD6.6030103@nano.mit.edu>

Bar


From nanotech at mit.edu  Wed Apr 18 16:18:46 2007
From: nanotech at mit.edu (MIT Nanotechnology Public Lecture Series)
Date: Wed, 18 Apr 2007 16:18:46 -0400
Subject: [Nanotech lectures] test
Message-ID: <46267D26.7010200@nano.mit.edu>

message


From nanotech at mit.edu  Sat Aug 18 09:35:05 2007
From: nanotech at mit.edu (MIT Nanotechnology Public Lecture Series)
Date: Sat, 18 Aug 2007 09:35:05 -0400
Subject: [Nanotech lectures] public lecture on nanotech: Aug 30, 7pm
Message-ID: <46C6F589.7070108@mit.edu>

As part of our continuing public lecture
series on nanotechnology, we are pleased
to announce that we will be hosting
Prof. Grant Willson, from U. of Texas at
Austin.

-----------------------------------------------
(http://www.rle.mit.edu/nanolectureseries)

Time: Thursday evening, August 30, at 7 p.m.

Location: MIT's Stata Center (32-123)
-----------------------------------------------

Nanofabrication Technology: A view of the Future

The drive to manufacture smaller and smaller
semiconductor transistors has inspired
amazing improvements in materials science
and technology during the last 3 decades.
Billions of dollars have been spent in efforts
to devise methods and materials that enable
the printing of ever smaller, and cheaper,
transistors. But now the lithographic process
that has been used to generate these
"nano-structures" is becoming too expensive
for semiconductor electronics manufacturing.
Step and Flash Imprint lithography (S-FIL), a
much lower cost, high-resolution patterning
technology is now emerging as a potential
adjunct to photolithography. The S-FIL process
replicates shapes as small as 10 nanometers
(or billionths of a meter). The state of high
resolution imaging processes for production of
devices with nanoscale features will be
presented with emphasis on this new S-FIL
process.

For a brief biography of the speaker, visit his web site at:
http://www.cm.utexas.edu/directory/grant_willson/

We look forward to seeing you all at the event!

Event sponsors:
MIT's Research Laboratory of Electronics,
Microsystems Technology Laboratory,
Public Service Center, and
Department of Electrical Engineering and Computer Science.

You are receiving this email because you have subscribed to the
nanotech at mit.edu email list, which announces public lectures on campus
relevant to nanotechnology. Please feel free to forward this note to
anyone you feel may be interested in this event. You may join (or
unsubscribe from) the list by visiting the website.
http://mailman.mit.edu/mailman/listinfo/nanotech




From nanotech at mit.edu  Thu Oct 18 12:27:52 2007
From: nanotech at mit.edu (MIT Nanotechnology Public Lecture Series)
Date: Thu, 18 Oct 2007 12:27:52 -0400
Subject: [Nanotech lectures] Upcoming Nanotechnology Public Lecture (Oct 24,
	7pm, @32-123)
Message-ID: <47178988.7090808@mit.edu>


As part of our continuing public lecture
series on nanotechnology, we are pleased
to announce that we will be hosting
Prof. Mark A. Reed from Yale University.

-----------------------------------------------
(http://www.rle.mit.edu/nanolectureseries)

Time: Wednesday evening, October 24, at 7 p.m.

Location: MIT's Stata Center (32-123)
-----------------------------------------------

The Next Frontier: Bioelectronic Interfaces

Prof. Mark A. Reed, Yale University

High-performance microelectronic systems (e.g. computers)
and bioelectrochemical systems (e.g. living organisms) are
both highly developed, complex systems capable of advanced
signal processing and computing ? yet are fundamentally
different at nearly every level (mechanism, device,
architecture, etc). A major step in understanding these
differences will be the ability to effectively interface
between these systems. Recent progress in nanoscale sensors
have enabled integrated biochemical sensors that have
demonstrated ultrasensitive macromolecule detection, and
real-time cell biochemical response. This talk will review
the recent progress, the outstanding scientific challenges,
and some exciting potential applications in this rapidly
growing new field.


For a brief biography of the speaker, visit his web site at:
http://www.eng.yale.edu/reedlab/MarkReed.htm


We look forward to seeing you all at the event!


Event sponsors:
MIT's Research Laboratory of Electronics,
Microsystems Technology Laboratory,
Public Service Center, and
Department of Electrical Engineering and Computer Science.

You are receiving this email because you have subscribed to the
nanotech at mit.edu email list, which announces public lectures on
campus relevant to nanotechnology. Please feel free to forward
this note to anyone you feel may be interested in this event.
You may join (or unsubscribe from) the list by visiting the
website. http://mailman.mit.edu/mailman/listinfo/nanotech






From nanotech at mit.edu  Wed Oct 24 11:02:54 2007
From: nanotech at mit.edu (MIT Nanotechnology Public Lecture Series)
Date: Wed, 24 Oct 2007 11:02:54 -0400
Subject: [Nanotech lectures] TODAY- MIT Nanotechnology Public Lecture,
 MIT STATA CENTER, Room 32-123, 7PM
Message-ID: <471F5E9E.1090209@mit.edu>


As part of our continuing public lecture
series on nanotechnology, we are pleased
to announce that we will be hosting
Prof. Mark A. Reed from Yale University.

-----------------------------------------------
(http://www.rle.mit.edu/nanolectureseries)

Time: Wednesday evening, October 24, at 7 p.m.

Location: MIT's Stata Center (32-123)
-----------------------------------------------

The Next Frontier: Bioelectronic Interfaces

Prof. Mark A. Reed, Yale University

High-performance microelectronic systems (e.g. computers)
and bioelectrochemical systems (e.g. living organisms) are
both highly developed, complex systems capable of advanced
signal processing and computing ? yet are fundamentally
different at nearly every level (mechanism, device,
architecture, etc). A major step in understanding these
differences will be the ability to effectively interface
between these systems. Recent progress in nanoscale sensors
have enabled integrated biochemical sensors that have
demonstrated ultrasensitive macromolecule detection, and
real-time cell biochemical response. This talk will review
the recent progress, the outstanding scientific challenges,
and some exciting potential applications in this rapidly
growing new field.


For a brief biography of the speaker, visit his web site at:
http://www.eng.yale.edu/reedlab/MarkReed.htm


We look forward to seeing you all at the event!


Event sponsors:
MIT's Research Laboratory of Electronics,
Microsystems Technology Laboratory,
Public Service Center, and
Department of Electrical Engineering and Computer Science.

You are receiving this email because you have subscribed to the
nanotech at mit.edu email list, which announces public lectures on
campus relevant to nanotechnology. Please feel free to forward
this note to anyone you feel may be interested in this event.
You may join (or unsubscribe from) the list by visiting the
website. http://mailman.mit.edu/mailman/listinfo/nanotech