Part I of CUMIRP retains the NSF-I/UCRC format in which the research cost and results are shared with other members in a focused, team-oriented approach. Research Clusters, targeted toward specific research areas, allow small team dynamics to facilitate interactions and collaboration between Industry Sponsors and University Faculty, Staff and Students. Members of CUMIRP Part I can choose which cooperative research areas (Clusters) they wish to support with their membership. Part I members can obtain a non-exclusive, royalty free license to a University patent resulting from the research done in their specific Research Cluster. Other benefits include invitations to: the member-specific Cluster meetings, the bi-annual meetings featuring topical recent advances in polymer science and engineering, the annual UMass Polymer Poster Symposium and the various Materials Research Science & Engineering Center (MRSEC) meetings and workshops.
CUMIRP also assists Sponsors in recruiting future employees from the department’s graduate students and post-doctoral fellows. CUMIRP Part I has structured its fee schedule to be accessible to all sized companies, and encourages small and mid-sized companies to participate. Membership dues for the Part I Clusters are $6,000, $18,000 and $30,000 for small (<$100 M sales), medium ($100 M - $1 B sales) and large companies (>$1 B sales), respectively. This dues schedule, along with a 40% discount for a second research cluster membership and additional discounts for the Membership-at-Large option, makes Industry participation an affordable and attractive investment for accessing the leading edge polymer research at the University of Massachusetts. The sharing of research and patent costs by Cluster members allows for a tremendous leveraging of a sponsor’s membership dues. Industrial Sponsors from all sized companies find the cooperative Research Cluster concept a great value for their research dollar.
Part I offers sponsors a selection of several research clusters. Additional clusters in the Part I (I/UCRC) format will be formed around university core competencies as industrial needs dictate.
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Maria Santore and Gregory Tew, Coordinators, Al Crosby and Todd Emrick
Cluster B focuses on developing fundamental insight into the complexities of the interface between biological systems, medical sciences and synthetic materials interactions, thus facilitating the discovery of novel technologies, smart materials, and innovative treatment modalities for disease. Materials interact chemically with biomolecules while cell-material contact and signal transduction to the cell interior is governed by both biochemical and mechanical signals. Research within the cluster explores and exploits molecular-, cell-, and tissue- level interactions on surfaces, at interfaces and in bulk biomaterials. The broad interests of this cluster include Targeted Drug Delivery and Drug Delivery Carriers, Surfaces for Controlled Cell Interactions, BioInert and Bio-targeting Surfaces, Polymers with Protein-like Bioactivity, and Coupling Novel Chemistries to Mechanical Response.
E. Bryan Coughlin and S. "Thai" Thayumanavan, Coordinators
The mission of Cluster E is to provide an industry conduit to research involving polymers for clean energy harvesting, conversion and storage. Current research areas focus on advanced materials for polymer electrolyte membrane fuel cells and on organic photovoltaic materials for tunable, higher efficiency solar cells. This industry cluster leverages several large federally-funded energy related research initiatives involving a total of 26 principal researchers from four departments at UMass Amherst.
Todd Emrick and E. Bryan Coughlin, Coordinators
Funded initially by the Federal Aviation Administration, sponsors and faculty collaborate in the production of fire-safe polymeric materials for all applications. Research concentrates on the design and synthesis of polymers to yield fire-safe materials with high mechanical performance properties, especially for aircraft interiors.
Alan Lesser, Coordinator
The goal of this research cluster is to develop a new set of theoretical and experimental tools that enable the streamlined design, selection, and evaluation of polymeric materials. The research initiatives in this cluster focus on determining what basic characteristics define the engineering performance of polymers and polymer-based composites. Both the materials and applications studied in this cluster will be guided by the cluster members.
Ryan Hayward and Kenneth Carter, Coordinators
Cluster N focuses on fabrication and characterization of polymer- based nanostructured materials. The expertise and interests of participants include molecular design and synthesis of polymers and nanoparticles, self- and directed-assembly of complex nanostructures, characterization of unique structures and properties of nanoscale materials, and development of state-of-the-art approaches to nanolithography. The combination of polymers and nanoparticles with diverse properties into hierarchically organized materials with precisely controlled structures provides unprecedented opportunities to tailor properties ranging from mechanical to magnetic to optical. The broad interests of this cluster include: photonics, membranes (separations or selective transport), magnetic storage, optoelectronics, displays, sensors, energy (harvesting and storage), nanomedicine, and adaptive or self-healing materials.
James Watkins, Kenneth Carter and Jonathan Rothstein, Coordinators
Cluster R focuses on the fabrication and characterization of polymer-based nanostructured materials, hybrid nanomaterials and templates on scaled, flexible substrates via roll-to-roll (R2R) process platforms. The process and materials approaches applied can be integrated by the existing advanced coating and printed electronics communities for the fabrication of functional flexible materials and devices for high-value added products. This cluster leverages significant a federal research investment through the NSF Center for Hierarchical Manufacturing as well as custom coating and nanoimprint lithographic tools and cleanroom facilities specifically designed for roll-to-roll R&D studies.
Alfred Crosby and Duncan Irschick, Coordinators
Fall 2016 Cluster V Newsletter
Evolutionary materials research is based on the idea that understanding evolutionary variation is critical for developing novel bio-inspired materials. Cluster V research centers on a philosophical strategy that combines observation from natural variation and evolution with knowledge of physics, chemistry, engineering, materials science, medical science and computational science to address materials challenges.