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Sheryl H. Ehrman
Researcher at San Jose State University
Publications - 100
Citations - 3730
Sheryl H. Ehrman is an academic researcher from San Jose State University. The author has contributed to research in topics: Nanoparticle & Particle. The author has an hindex of 30, co-authored 100 publications receiving 3247 citations. Previous affiliations of Sheryl H. Ehrman include University of California, Los Angeles & DuPont.
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Infectious virus in exhaled breath of symptomatic seasonal influenza cases from a college community
Jing Yan,Michael Grantham,Jovan Pantelic,P. Jacob Bueno de Mesquita,Barbara Albert,Fengjie Liu,Sheryl H. Ehrman,Donald K. Milton +7 more
TL;DR: It is shown that sneezing is rare and not important for—and that coughing is not required for—influenza virus aerosolization, and that upper and lower airway infection are independent and that fine-particle exhaled aerosols reflect infection in the lung.
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Graphene‐Bonded and ‐Encapsulated Si Nanoparticles for Lithium Ion Battery Anodes
TL;DR: Graphene-encapsulated Si anode with Si nanoparticles bonded and wrapped by graphene is synthesized by a one-step aerosol spraying of surface-modifiedSi nanoparticles and graphene oxide suspension, making this material very promising for lithium ion batteries.
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Evaluation of the microbial growth response to inorganic nanoparticles
TL;DR: Experiments to test silica, silica/iron oxide, and gold nanoparticles for their effects on the growth and activity of Escherichia coli showed that the growth of E. coli in media containing the nanoparticles indicated no overt signs of toxicity.
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Magnetic iron oxide nanoparticles for biorecognition: evaluation of surface coverage and activity.
TL;DR: Results show that surface coverage can be stoichiometrically adjusted with saturated surface coverage occurring at approximately 36% of the theoretical limit and that the immobilized antibodies retain approximately 50% of their binding capacity at surface-saturated levels.
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Characteristics of SiO2/TiO2 nanocomposite particles formed in a premixed flat flame
TL;DR: In this article, a premixed flat flame aerosol was generated from three sets of precursors: SiO 2 /TiO 2, SiBr 4 /TiCl 4, SiCl 4 / TiCl 4, and hexamethyl disiloxane (HMDS)/TiCl4.