79 research outputs found

    Interns, Staff, and Faculty, Eastman Dental Dispensary, 1960-1961

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    Annual photograph of interns, staff and faculty at Eastman Dental Dispensary, Rochester N.Y. Last Row: J. Pinto, K. Selvig, J. Posen, B. Levenson, W. Alexander, S. Rolling. Fourth Row: S. Handelman, A. Bennick, M. Hui, R. Glauser, N. Azevedo, P. Klein, A. Fonts, D. Forrester, D. Allard, H. Aduss, E. Munding, A. VanKeuren. Third Row: R. Rosenblum, J. Cleall, R. Roydhouse, D. Gupta, B.lranpour, B. Gillings, D. Thanik, R. Pollack, G. Hartley, J. Howitt, B.Newton, G. Sperber, L. Bradley. Second Row: M. Brembou, K. Stees, D. Gillis, F. Arlidge, E. Allen, M. DeJohn, H. Cselyni, I. DeWinter, H. Krist. First Row: O. Sarda, J. Dougherty, M. Buonocore, M. Gilmour, B. Bibby, R. Hawes, I. Buck, J. Subtelny, R. Yap, M. Gozalvo

    How do the lack of services impact families supporting adults with developmental disabilities living on reserves?

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    Families fulfill vital roles providing care, to their adult family members who have intellectual and/or developmental disabilities and live on-reserve within British Columbia. When looking at what impacts an Indigenous family’s ability to provide ongoing quality care the complex relationship among service need and services used is identified. There exist two world views about disability yet there remains only one system of care. This literature review examines who the services providers are and how their services impact families living on reserve

    Interns, Staff, and Faculty, Eastman Dental Dispensary,1959-1960

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    Annual photograph of interns, staff and faculty at Eastman Dental Dispensary, Rochester N.Y. Last Row, from left to right: Dr. B. Levenson, L. Scherberg, Carl Volkmuth, R. Bane, J. Theilade, E. Slapcoff, M. Toney, T. Dirksen, A. Soler. Fourth Row: Dr. H. Aduss, D. Thanik, E. Dalton, D. Titzel, T. Suzuki, J. Pameijer, W. Margolis, R. Mason, R. Wyant. Third Row: M. Godfrey, A. Pankiw, M. LaBarr, R. Rynders, L. Fishman, A. Van Keuren, D•. Placido, G. Clark, S. Turet, N. Azevedo, F. Haring, R. Rosenblum, H. Johnson, H. Cselnyi, O. Sarda, R. Roka, M. Maynard, C. Runco, D. Bayne. Second Row: Dr. A. Kiryati, I. DeWinter, E. Jenkins, B. Newton, H. Merisol, C. Welch, K. Stees, E. Allen, B. Schewe, D. Gillis, L. Bradley, E. Vorbeck, H. Domingo, C.Siminelaki, R. Yap, A. Fantaci. First Row: H. Goldberg, M. Little, J. Dougherty, F. Thompson, J. Schulman, R. Hawes, B. Bibby, M. Buonocore, M. Gilmour, R. Vann, H. Zender, J. Subtelny

    NMR spectroscopic and thermodynamic studies of the etherate and the a, a', and γ phases of AlH3

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    Aluminum hydride (alane; AlH3) has been identified as a leading hydrogen storage material by the US Department of Energy. With a high gravimetric hydrogen capacity of 10.1 wt.%, and a hydrogen density of 1.48 g/cm3, AlH3 decomposes cleanly to its elements above 60 °C with no side reactions. This study explores in detail the thermodynamic and spectroscopic properties of AlH3; in particular the α, α′ and γ polymorphs, of which α′-AlH3 is reported for the first time, free from traces of other polymorphs or side products. Thermal analysis of α-, α′-, and γ-AlH3 has been conducted, using DSC and TGA methods, and the results obtained compared with each other and with literature data. All three polymorphs were investigated by 1H MAS-NMR spectroscopy for the first time, and their 27Al MAS-NMR spectra were also measured and compared with literature values. AlH3·nEt2O has also been studied by 1H and 27Al MAS-NMR spectroscopy and DSC and TGA methods, and an accurate decomposition pathway has been established for this adduct
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