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| Title | Author | Subject | Description | Date | ||
|---|---|---|---|---|---|---|
| 1 |  | The fabrication and characterization of aluminum and magnesium nanoparticles | Swartz, Mark Michel | Aluminum; Magnesium; Nanoparticles; Plasmonics | Plasmonics, the study of light metal interactions, has shown great potential in the fields of spectroscopy, catalysis, medicine, and photovoltaics. There is significant interest in the design of metal nanoparticles that interact with specific wavelengths of light. By changing the size, shape, and me... | 2017 |
| 2 |  | Nanoparticle optical notch filters | Kasinadhuni, Pradeep Kumar | Blepharospasm; Localized surface plasmon resonance; Mie scattering theory; Migraine headaches; Migraines; Nanoparticles | Developing novel light blocking products involves the design of a nanoparticle optical notch filter, working on the principle of localized surface plasmon resonance (LSPR). These light blocking products can be used in many applications. One such application is to naturally reduce migraine headaches ... | 2013-05 |
| 3 |  | Mass recoveries in nano to microparticle analysis of environmental samples via flow field flow fractionation-inductively-coupled plasma mass spectometry | Manangon, Lucia Eliana | Field flow fractionation; ICP-MS; Microparticles; Nanoparticles | In this study, mass loss mechanisms were examined during analysis of environmental samples by flow field flow fractionation (FlFFF) coupled to inductively-coupled plasma mass spectrometry (ICP-MS). Elemental compositions of particle size fractions across the range from 10 nm to <10 μm were determin... | 2013-08 |
| 4 |  | High resolution separations of nanoparticles with improved electrical and magnetic field flow fractionation | Tasci, Tonguc Onur | Chromotography; Electrical Filed Flow Fractionation; Field Flow Fractionation; Fractionation; Nanoparticles; Separation | Electrical and Magnetic Field Flow Fractionation (ElFFF, MFFF) methods are two rapidly developing separation and characterization techniques using electrical and magnetic fields that have not been regularly applied to nanoparticle fractionation, separation, and characterization. Currently, several l... | 2013-05 |
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