Division of Chemistry
Physical Chemistry
(PCHEM)
Collaborative Research in CHE, FY09 & beyond
Dear Colleague, The Collaborative Research in Chemistry (CRC) Program was created in 2001 to support collaborative research at the forefront of chemistry. At this time, the Division of Chemistry has decided to move collaborative research proposals back into the disciplinary "core" of chemistry and review these proposals in the context of other proposals (individual and collaborative) submitted to a disciplinary program. Collaborative proposals may be submitted to any of the Chemistry Disciplinary Research Programs (Organic and Macromolecular Chemistry; Inorganic, Bioinorganic and Organometallic Chemistry; Analytical and Surface Chemistry; Physical Chemistry) during the usual Chemistry proposal submission windows. These proposals may be co-reviewed by several Chemistry programs or by Chemistry in partnership with other NSF divisions. Principal Investigators considering submitting a collaborative proposal are strongly urged to contact a cognizant program officer. Contact information is available at the NSF Division of Chemistry website. Luis Echegoyen Director, Division of Chemistry
CONTACTS
PROGRAM GUIDELINES
Apply to PD 07-3904 as follows:
For full proposals submitted via FastLane:
standard Grant Proposal Guidelines apply.
For full proposals submitted via Grants.gov:
NSF Grants.gov Application Guide; A Guide for the Preparation and Submission of NSF Applications via Grants.gov Guidelines apply
(Note: The NSF Grants.gov Application Guide is available on the Grants.gov website and on the NSF website at:
http://www.nsf.gov/publications/pub_summ.jsp?ods_key=grantsgovguide)
Please be advised that the NSF Proposal & Award Policies & Procedures Guide (PAPPG) includes
revised guidelines to implement the mentoring provisions of the America COMPETES Act (ACA)
(Pub. L. No. 110-69, Aug. 9, 2007.) As specified in the ACA, each proposal that requests
funding to support postdoctoral researchers must include a description of the mentoring
activities that will be provided for such individuals. Proposals that do not comply
with this requirement will be returned without review (see the PAPP Guide Part I:
Grant Proposal Guide Chapter II for further information about the implementation of
this new requirement).
SYNOPSIS
Experimental Physical Chemistry
Supports experimental research directed at the molecular level of understanding of the physical properties of chemical systems. Experimental methodologies employed include frequency domain and time domain spectroscopic techniques covering the entire range of the electromagnetic spectrum, time-resolved dynamical studies of state-selected and mass-selected systems, and reactive scattering in molecular beams. Chemical systems studied range from single isolated molecules or ions to clusters, liquids, and solids. Chemical properties of interest include molecular structure and the shape of the ground and excited electronic-state potential energy surfaces, chemical dynamics of unimolecular and bimolecular chemical processes, time-resolved internal energy redistribution and state-to-state dynamics in molecular systems, and solute/solvent interactions in clusters and liquids. The program has links to other programs within NSF that support chemistry research, including Atomic, Molecular, and Optical Physics (Physics Division, MPS Directorate); Biophysics (Molecular and Cellular Biosciences Division, BIO Directorate); Atmospheric Chemistry (Atmospheric Sciences Division, GEO Directorate); and various programs in the Materials Research Division (MPS Directorate).
Theoretical and Computational Chemistry
Supports the development of theoretical and computational methods for chemical problems. Methods of special interest include, but are not limited to, electronic structure techniques, statistical mechanics, molecular dynamics, and simulation methods for molecular or supramolecular systems. Areas of application span the full range of chemical systems from small molecules to macromolecules and degrees of aggregation from single molecules or small clusters to macroscopic systems. While application areas may involve any chemical system, including biological systems or materials, the goal of the program is to support the development of new theoretical and computational methodologies that will be broadly applicable to a range of chemical problems. The program has links to other programs within NSF that support chemistry research, including Physics (Physics Division, MPS Directorate); Condensed Matter and Materials Theory (Materials Research Division, MPS Directorate); and Biology (especially the Molecular and Cellular Biosciences Division, BIO Directorate).
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RELATED URLS
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THIS PROGRAM IS PART OF
Disciplinary Research Activities
Abstracts of Recent Awards Made Through This Program
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