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   De_Welde, K; Ollilainen, M; Solomon, C R (December 2023, Social Currents)

   This study examines how feminist academic administrators engender solidarity and practice feminist principles as leaders in United States higher education institutions. We draw from qualitative interview data with 27 self-identified feminist academic leaders about how they carry out this work, what obstacles they face, and the ways that their work disrupts—and is disrupted by—the intensifying neoliberal, managerial tendencies in higher education. Respondents shared experiences of promoting solidarity through their leadership and strove to create inclusive and equitable environments to benefit students, staff, and faculty, and especially minoritized individuals within these groups. Our analysis reveals how these feminist administrators applied a feminist ethic, engendered solidarity in their work, and were often keenly aware of—and willing to contest—the neoliberal context of their institutions and higher education more broadly. Our findings contribute to the sociological and cross-disciplinary literature on feminist leaders in academic institutions and the resistance against neoliberalism and managerialism practices from within academia. 

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2. Natural Products as Platforms To Overcome Antibiotic Resistance

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4. Using Electrical Resistance As a Diagnostic During Process-Structure-Property Investigation of CNT Forests

   https://doi.org/10.1115/IMECE2023-114379  

   Surya, Ramakrishna; Maschmann, Matthew R (October 2023, American Society of Mechanical Engineers)

   Abstract Controlling the self-assembly of carbon nanotube (CNT) forests is important for tailoring their ensemble properties for specific applications. In this study, real-time electrical resistance measurements of in-situ CNT forest syntheses was established as a method to interrogate the evolution of CNT forest morphology. The method employs in-situ scanning electron microscopy (SEM) synthesis techniques to correlate observed morphological changes to electrical resistance. A finite-element simulation was used to simulate CNT forest synthesis and the evolution of electrical resistance in a configuration like that used experimentally. The simulation considers the contribution of CNT electrical resistance, CNT-CNT junction resistance, and CNT-electrode contact resistance. Simulation results indicate that an increased number of CNT-CNT junctions with time have a diminishing effect on increasing electrical conductance. Experimentally observed increases in electrical resistance are attributed to increasing CNT delamination from the electrical contacts. 

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