From ccl@www.ccl.net Fri Apr 25 10:38:39 1997 Received: from bedrock.ccl.net for ccl@www.ccl.net by www.ccl.net (8.8.3/950822.1) id JAA20248; Fri, 25 Apr 1997 09:46:33 -0400 (EDT) Received: from kodakr.kodak.com for mckelvey@kodakr.kodak.com by bedrock.ccl.net (8.8.3/950822.1) id JAA27566; Fri, 25 Apr 1997 09:46:32 -0400 (EDT) Received: from mail.rl.kodak.com by kodakr.kodak.com with SMTP id AA14064 (5.67b/IDA-1.5 for ); Fri, 25 Apr 1997 09:44:43 -0400 Received: from mozart.rl.kodak.com by mail.rl.kodak.com (8.8.3/1.1.10.5/17Jan97-0515PM) id JAA18933; Fri, 25 Apr 1997 09:54:47 -0400 (EDT) Received: from stomper (stomper.rl.kodak.com [150.220.76.39]) by mozart.rl.kodak.com (950413.SGI.8.6.12/950213.SGI.AUTOCF) via SMTP id JAA05562; Fri, 25 Apr 1997 09:46:18 -0400 Message-Id: <33606FDF.47BA@kodak.com> Date: Fri, 25 Apr 1997 09:48:31 +0100 From: John McKelvey Reply-To: mckelvey@kodakr.kodak.com Organization: Eastman Kodak Company X-Mailer: Mozilla 3.0 (WinNT; I) Mime-Version: 1.0 To: chemistry@ccl.net Cc: McKelvey@kodakr.kodak.com Subject: Pi System Valence Structures Content-Type: text/plain; charset=us-ascii Content-Transfer-Encoding: 7bit Netters: Does anyone have a suggestion for a code that is able to generate correct Kekule structures for extended conjugated systems that have several hetero atoms of varyious hybridisations? Will glady share the results of the inquiry. Thanks! John McKelvey McKelvey@Kodak.Com From kim@traj.chem.wayne.edu Fri Apr 25 12:38:40 1997 Received: from traj.chem.wayne.edu for kim@traj.chem.wayne.edu by www.ccl.net (8.8.3/950822.1) id MAA21254; Fri, 25 Apr 1997 12:12:19 -0400 (EDT) Received: by traj.chem.wayne.edu (AIX 3.2/UCB 5.64/4.03) id AA08676; Fri, 25 Apr 1997 12:12:15 -0400 Date: Fri, 25 Apr 1997 12:12:15 -0400 From: kim@traj.chem.wayne.edu (Kim Bolton) Message-Id: <9704251612.AA08676@traj.chem.wayne.edu> To: chemistry@www.ccl.net Subject: POSTDOCTORAL POSITION A postdoctoral position is open immediately to develop state-of-the-art molecular modeling algorithms and a vectorized, parallel/distributed software system to study key aspects of adhesive/metal oxide interfaces. The research is in collaboration with Ford Motor Company and addresses specific auto industry needs associated with the adhesive bonding of aluminum and other lightweight metals. A recent Ph.D. in the US with experience in theoretical/computational modeling and in vectorized, parallel/distributed software is preferred. Send resume to: Dr. Vipin Chaudhary Department of Electrical and Computer Engineering vipin@upanishad.eng.wayne.edu or Dr. William L. Hase Department of Chemistry hase@sun.chem.wayne.edu Wayne State University Detroit, Michigan 48202 Wayne State University is an Equal Education and Employment Institution.