Macromolecular, Supramolecular, and Nanochemistry (MSN)
|Suk-Wah Tam-Changemail@example.com||(703) 292-8684||E 9328|
|Nicolay Tsarevskyfirstname.lastname@example.org||(703) 292-2394|
|George M. Janiniemail@example.com||(703) 292-4971|
|Amanda Haesfirstname.lastname@example.org||(703) 292-8840|
|John M. Papanikolasemail@example.com||Primary E-mail||Off-Site|
Administrative Program Support: Kimberly Noble, firstname.lastname@example.org or (703) 292-2969
Proposals submitted to this program (including individual and collaborative proposals, GOALIs) must be submitted to the CHE Disciplinary Research Programs solicitation.
- RUI proposals should be submitted to the RUI Solicitation during the proposal submission window.
- proposals submitted in response to another solicitation (CAREER)
- conference proposals (must discuss with a Program Officer before submission)
- EAGER, RAPID or RAISE proposals (must discuss with a Program Officer before submission)
The Macromolecular, Supramolecular, and Nanochemistry (MSN) Program focuses on basic research that addresses fundamental questions and advances knowledge regarding the chemistry of macromolecular, supramolecular, and nanoscopic structures. Research of interest to this program will explore novel chemistry concepts including, but not limited to: synthesis of macromolecular, supramolecular, and nanoscopic structures; surface functionalization methodologies; surface monolayer chemistry; and template-directed synthesis; inter- and intra-molecular interactions that give rise to macromolecular, supramolecular, or nanoparticulate self-assembly into discrete structures; and chemical dynamics that are responsible for spatial organization in discrete organic, inorganic, or hybrid systems (excluding extended solids). Also included are advanced experimental or computational methods to delineate or to predict the chemical structure, unique chemical and physicochemical properties, and chemical reactivity that result from macromolecular, supramolecular, and nanoscopic structures, including systems that exhibit quantum confinement and other non-classical effects. Projects that demonstrate synergy between experiment and theory are of special interest.
Submissions that address national needs are encouraged. These include priority areas associated with sustainability and NSF's Ten Big Ideas. Elements of NSF's Ten Big Ideas particularly relevant to the Division of Chemistry include: Harnessing the Data Revolution, the Quantum Leap, Midscale Instrumentation, Understanding the Rules of Life, and Growing Convergence Research at NSF. Consult NSF Big Ideas solicitations on how these areas match the Division's portfolio.
Through the Critical Aspects of Sustainability (CAS) program, the Division of Chemistry looks to support basic research aimed at improving the sustainability of resources for future generations while maintaining or improving current products within a global society. Submissions that advance MSN chemistry knowledge in sustainability are may include, but are not limited to: transformative approaches to efficient and inexpensive synthesis using renewable feedstocks or earth abundant elements; and innovative research that enhances the understanding of efficient use and recycling of critical elements or the conversion of energy from renewable sources.
Proposals for which the primary focus is on single molecules, extended solids (including metal organic frameworks), materials research, fate of nanoparticles in the environment, device properties, engineering, biological properties (including toxicity), drug delivery, or selection or genetic engineering of enzymes are not of interest in the MSN Program. Investigators interested in these areas are encouraged to approach other, more closely aligned programs, such as those in the Divisions of Materials Research (DMR), Physics (PHY), and Chemical, Bioengineering, Environmental, and Transport Systems (CBET).
For recent awards made by the program, search NSF award database with the Program Element Code 6885.