This decommissioned ERA site remains active temporarily to support our final migration steps to https://ualberta.scholaris.ca, ERA's new home. All new collections and items, including Spring 2025 theses, are at that site. For assistance, please contact erahelp@ualberta.ca.
Search
Skip to Search Results- 1Deutsch, Kelsey C
- 1Glockzin, Brayden D.
- 1Gonzalez, Christina M.
- 1Hossain, Md Asjad
- 1Kelly, Joel Alexander
- 1Mertoglu, Cemre
-
Fall 2022
Silicon nanoparticles have sparked researchers’ interest as a biologically compatible and abundant quantum dot alternative. Doped silicon nanoparticles (SiNPs) offer unique optical and electronic properties that are not observed for intrinsic Si. These advantageous properties can be applied...
-
Fall 2024
Mesoporous silica nanoparticles (MSNPs) are used in catalysis, drug delivery, controlled drug release, imaging and biosensing applications due to their stability, high pore volumes, large surface area and non-toxicity. Although MSNPs have many advantages in biological applications, they lack...
-
Spring 2019
Silicon nanocrystals (SiNCs) are a biocompatible and elemental abundant sub-class of quantum dots. Since SiNCs were prepared, many efforts have been made to get a tunable size and rich surface chemistry that greatly expanded their applications from electronic devices to target treatments. Among...
-
Spring 2017
Silicon nanocrystals (SiNCs) have been explored as active materials in a variety of prototype applications including photovoltaics, electronics, photonics, and sensors based on their optical and electronic properties. Using SiNCs are appealing because their source material (i.e., silicon) is...