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The Trans Task ForceMission StatementThe Trans Task Force was created in Fall 2016 as part of PLU’s response to the Dear Colleague Letter on Transgender Students released by the Department of Justice and Department of Education in May 2016. This group’s mission is to create a campus that is inclusive and welcoming of all students, regardless of gender identity, and to ensure that students who identify as trans have the resources and support necessary to persist and succeed. The Trans Task Force

Dean Waldow's Research GroupRecent PublicationsMegan Longstaff*, Kaitlin Gardiner*, Rodion Zhuravlev*, Jacob Finney*, Dean A. Waldow “Characterization of morphology in ring-opening metathesis polymerized novel solid block copolymer electrolytes by atomic force microscopy and X-ray scattering,” Electrochimica Acta, 298, 339-346 (2019) Jeffrey S Harrison, Dean A Waldow, Phillip A Cox, Rajiv Giridharagopal, Marisa Adams*, Victoria Richmond*, Sevryn Modahl*, Megan Longstaff*, Rodion Zhuravlev

students at PLU have been long standing, but in the face of a presidential administration unfriendly to immigrants in the United States, an official task force for PLU’s undocumented students was created. Its mission is to best support the needs of undocumented/DACA students. The task force is made up of faculty and staff and includes student representatives from the undocumented student organization called The Gold Group. Since their formation in November 2016, the task force has been focusing on

time revealed new insights into the complex reactions mixture. The reactions were monitored using a gas chromatography/mass spectrometry and thin layer chromatography. Thursday, April 30th, 2009 1:50 pm - Atomic force microscopy of high molecular weight thin film polymer blends compatibilized with triblock and graft copolymersE. Moriah Zimmerman, Senior Capstone Seminar Thin film polymer blends were studied using atomic force microscopy (AFM) with focus on the effect that various triblock and multi

measurements, wide angle, dynamic, and static light scattering as well as small angle neutron scattering, 2) light microscopy (LM) and atomic force microscopy (AFM), 3) Monte Carlo simulations, and 4) anionic and controlled radical synthetic techniques. Local Segmental Dynamics of Copolymers in Dilute Solution My groups had studied local segmental dynamics of polybutadiene and PS/PB copolymers in dilute solution. This research is directed at understanding the cooperativity of local segmental transitions