Non Technical Summary
This project will acquire and manage a 2D HPLC-SEC system that comprehensively analyzes complex macromolecular mixtures by hydrodynamic volume (size exclusion chromatography, SEC) and chemical affinity (high performance liquid chromatography, HPLC). Such mixtures are common in the study of biological and agricultural systems. HPLC and SEC are very common and have been staples of chemistry and material science for decades with nearly all polymer research groups having one or more SECs. However, SECs are limited in the level of detail they provide, especially when exploring complex materials such as block copolymers, proteins, asphalt, and especially polymers produced from biomass.The instrument will overlap with at least 17 faculty, $30 MM in research, and at least 50 graduate students from the onset. The research supported overlaps with collaborations with other universities, private companies, non-profit organizations, and state entities. ISU maintains millions of dollars of equipment throughout individual researchers and service centers; letters of institutional support from the central administration and the Chemical and Biological Engineering (CBE) department are attached committing to the operation of the 2D Acquity. The 2D Acquity will join PolyCy (https://www.polycy.cbe.iastate.edu/lab-facilities/), a service center hosted in shared CBE lab-space managed by PI Cochran for roughly 10 years, which operates over $1.5 MM in equipment supporting polymer-related research (Rheometer, DSC, Viscometers, Extruders, Injection Molders, Flash Chromatography, SEC, FTIR, MFR, etc.). PolyCy instrumentation is protected by warranty and/or service contracts to ensure regular preventative maintenance and prompt repairs as needed. Instrument access, training, maintenance, and education is supported by four Ph. D. level scientists, including Co-PD Dr. Forrester, to ensure proper user training and compliance with operating procedures. User fees support these value-added services.

Classification

Knowledge Area (KA)	Subject of Investigation (SOI)	Field of Science (FOS)	Percent
402	7299	2020	100%

Knowledge Area
402 - Engineering Systems and Equipment;

Subject Of Investigation
7299 - Research equipment and methods, general/other;

Field Of Science
2020 - Engineering;

Goals / Objectives
This project will acquire a Waters Acquity / Polymer Standards Service 2D HPLC-SEC system (2D Acquity) to comprehensively analyze complex macromolecular mixtures by hydrodynamic volume (size exclusion chromatography, SEC) and chemical affinity (high performance liquid chromatography, HPLC). HPLC and SEC are very common and have been staples of chemistry and material science for decades with nearly all polymer research groups having one or more SECs. However, SECs are limited in the level of detail they provide, especially when exploring complex materials such as block copolymers, proteins, asphalt, and especially polymers produced from biomass.We have an initial user pool comprised of 17 senior investigators managing over 50 researchers from 4 colleges and 8 departments that will thrive with new capabilities offered by the 2D Acquity. It accomplishes two tandem tasks, allowing for never-before-discovered information about numerous research topics: Firstly, chemical separation through HPLC yields composition and chemical affinity information; subsequently, SEC yields the molecular weight distribution of each slice of the HPLC chromatogram to enable unparalleled insights into the macromolecular analyte. For example, two compounds with different chemical structures and similar/overlapping hydrodynamic volumes can be resolved in 2D but not 1D.17 This provides unprecedented understanding of complex mixtures that are common in research, especially with biomass products. These integrated capabilities make the instrument crucial to three Core areas of collaborative agricultural materials research: (1) Derived from Biomass (2) Biomass Modified Geotechnical and Construction Material (3) Fundamental Analysis of Complex Polymer Structures.

Project Methods
The instrument requirements will be formatted into a Request for QuotationVendors will make proposals to supply the instrumentationISU will select the bid that best meets the needs of the project.ISU will work with the vendor to install the instrumentation in Sweeney Hall and train the equipment manager and first users.The instrument details will be published athttps://www.polycy.cbe.iastate.edu/space-equipment-etc/