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200 00$aDebunking the myth of job fit in higher education and student affairs /$fedited by Brian J. Reece [and three others] ; foreword by Stephen John Quaye
205   $aFirst edition.
210  1$aSterling, Virginia :$cStylus Publishing, LLC,$d[2019]
210  4$d©2019
215   $a1 online resource
225 1 $aACPA books series
300   $aIncludes index.
311   $a1-62036-787-4 
320   $aIncludes bibliographical references and index.
327   $aFrom fit to belonging : new dialogues on the student affairs job search / Brian J. Reece, Vu T. Tran, Elliott N. DeVore, Gabby Porcaro -- Innocent until proven guilty : a critical interrogation of the legal aspects of "job fit" in higher education / David H.K. Nguyen & LaWanda W. Ward -- Employer definitions of and reflections on fit in hiring processes / LeŽna Kavaliauskas Crain & Mathew J.L. Shepard -- Holograms, misfits, and authentic selves : fit as narrative agency through inequality regimes / Jessica Bennett, Travis York, Van Bailey, Marshall Guthrie, Luis Inoa, Meghan Gaffney Wells & Akiko Yamaguchi -- No, I can't meet you for an $8 coffee : how class shows up in workspaces / Sonja Ardoin & Becky Artinez -- Finding fit as an "outsider within" : a critical exploration of black women navigating the workplace in higher education / Stacey D. Garrett & Natasha T. Turman -- Code word "fit" : exploring the systematic exclusion of professionals of color in predominantly white institutions / Heather O. Browning & Patrice M. Palmer -- Negotiating fit while "misfit" : three ways trans professionals navigate student affairs / C.J. Venable, Kyle Inselman & Nick Thuot -- "You'll fit right in" : fit as a euphemism for whiteness in higher education hiring practices / Kyle C. Ashlee -- (Re)viewing and (re)moving the mystique surrounding "fit" in student affairs : a challenge to our field / Walter P. Parrish, III.
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200 10$aNanomechanical and Nanoelectromechanical Phenomena in 2D Atomic Crystals $eA Scanning Probe Microscopy Approach /$fby Nicholas D. Kay
205   $a1st ed. 2018.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2018.
215   $a1 online resource (XXI, 122 p. 67 illus., 14 illus. in color.) 
225 1 $aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5053
311   $a3-319-70180-0 
320   $aIncludes bibliographical references.
327   $aIntroduction -- Background -- Materials and Methods -- Morphology of 2D Materials and their Heterostructures -- Nanomechanical Phenomena -- Nanoelectromechanical Phenomena -- Further Work and Future Directions -- Conclusion.
330   $aThis thesis introduces a unique approach of applying atomic force microscopy to study the nanoelectromechanical properties of 2D materials, providing high-resolution computer-generated imagery (CGI) and diagrams to aid readers? understanding and visualization. The isolation of graphene and, shortly after, a host of other 2D materials has attracted a great deal of interest in the scientific community for both their range of extremely desirable and their record-breaking properties. Amongst these properties are some of the highest elastic moduli and tensile strengths ever observed in nature. The work, which was undertaken at Lancaster University?s Physics department in conjunction with the University of Manchester and the National Physical Laboratory, offers a new approach to understanding the nanomechanical and nanoelectromechanical properties of 2D materials by utilising the nanoscale and nanosecond resolution of ultrasonic force and heterodyne force microscopy (UFM and HFM) ? both contact mode atomic force microscopy (AFM) techniques. Using this approach and developing several other new techniques the authors succeeded in probing samples? subsurface and mechanical properties, which would otherwise remain hidden. Lastly, by using a new technique, coined electrostatic heterodyne force microscopy (E-HFM), the authors were able to observe nanoscale electromechanical vibrations with a nanometre and nanosecond resolution, in addition to probing the local electrostatic environment of devices fabricated from 2D materials.
410  0$aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5053
606   $aSurfaces (Physics)
606   $aInterfaces (Physical sciences)
606   $aThin films
606   $aNanotechnology
606   $aSpectrum analysis
606   $aMicroscopy
606   $aNanoscience
606   $aNanoscience
606   $aNanostructures
606   $aSurface and Interface Science, Thin Films$3https://scigraph.springernature.com/ontologies/product-market-codes/P25160
606   $aNanotechnology$3https://scigraph.springernature.com/ontologies/product-market-codes/Z14000
606   $aSpectroscopy and Microscopy$3https://scigraph.springernature.com/ontologies/product-market-codes/P31090
606   $aNanoscale Science and Technology$3https://scigraph.springernature.com/ontologies/product-market-codes/P25140
615  0$aSurfaces (Physics)
615  0$aInterfaces (Physical sciences)
615  0$aThin films.
615  0$aNanotechnology.
615  0$aSpectrum analysis.
615  0$aMicroscopy.
615  0$aNanoscience.
615  0$aNanoscience.
615  0$aNanostructures.
615 14$aSurface and Interface Science, Thin Films.
615 24$aNanotechnology.
615 24$aSpectroscopy and Microscopy.
615 24$aNanoscale Science and Technology.
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