Open Access. Powered by Scholars. Published by Universities.®

Nanoscience and Nanotechnology Commons

Open Access. Powered by Scholars. Published by Universities.®

Articles 1 - 6 of 6

Full-Text Articles in Nanoscience and Nanotechnology

Effect Of Nanoparticle Additives On The Tribological Behavior Of Oil Under Boundary Lubrication, Yosef Jazaa Jan 2018

Effect Of Nanoparticle Additives On The Tribological Behavior Of Oil Under Boundary Lubrication, Yosef Jazaa

Graduate Theses and Dissertations

In this study, three different nanoparticles (CuO, WC, WS2) of comparable nominal diameter, were added to a Polyalphaolefin (PAO) base oil to evaluate tribological response in the boundary lubrication regime. The concentration of particles was fixed at 1% by weight for this study and different surfactants (Oleic acid, polyisobutylene succinimide) and dispersion methods were employed to determine the impact on agglomeration and the observed tribological response. The results showed that of the methods studied, adding 10 % Oleic acid (OA) while sonicating the particles for 30 minutes reduced the agglomeration the most and adding 1% Oleic acid while sonicating the particles ...


Macromolecular Soft Templates For Synthesis And Self-Assembly Of Functional Nanomaterials, Srikanth Nayak Jan 2018

Macromolecular Soft Templates For Synthesis And Self-Assembly Of Functional Nanomaterials, Srikanth Nayak

Graduate Theses and Dissertations

Nanostructured composite materials made of organic matrices and inorganic nanoparticles (NPs) represent the new paradigm of functional hybrid materials. This dissertation is focused on the synthesis and self-assembly of NPs within organic matrices which act as templates, targeting the formation of use-inspired structures. Particularly, self-assembly of macromolecules such as proteins and polymers, and polymer-functionalized NPs is utilized to create ordered assemblies of NPs. Inspired by the formation of chains of magnetic NPs in a group of bacteria referred to as Magnetotactic bacteria, we used Mms6, a biomineralization protein, as a template towards the formation of self-assembled arrays of magnetic NPs ...


Bottom-Up Approach To Fabricate Nanostructured Thin Films From Colloidal Nanocrystal Precursors, Santosh Shaw Jan 2017

Bottom-Up Approach To Fabricate Nanostructured Thin Films From Colloidal Nanocrystal Precursors, Santosh Shaw

Graduate Theses and Dissertations

Control over microstructures at the nanoscale (<100nm) still seems challenging due to, among other things, the stochastic nature of nucleation in the bulk phase. The densification of assemblies of ligand-capped nanocrystals (colloidal nanocrystal assemblies, CNAs) could bypass this challenge that limits our control over the nanostructure and, therefore, the properties of materials. However, the removal of the ligands and the cracking that follows it are the two critical hurdles that have been stymieing this approach.

We show that low-pressure plasma processing can effectively remove ligands from CNAs (down to 0.6 at.% of carbon which can be accounted for adventitious carbon) without harming the properties of the inorganic cores of the nanoparticles and the structure of CNAs. The cracking of CNAs is correlated with the structure of the CNAs, which can be controlled and easily predicted by Hansen solubility parameters of solvent in which the nanoparticles are dispersed. While a fully solvated ligand shell leads to the formation of close-packed ordered CNAs – which cracked after self-assembly or ligand removal ...


Design Of Novel Nano-Carriers For Multi-Enzyme Co-Localization, Feng Jia Jan 2013

Design Of Novel Nano-Carriers For Multi-Enzyme Co-Localization, Feng Jia

Graduate Theses and Dissertations

The widely existing MECs in Nature have inspired researchers to design synthetic analogs to promote the overall catalytic efficiency in vitro by co-localizing multiple enzymes to mimic the MECs' unique functionalities. A number of efforts have been devoted to designing synthetic MECs in the past couples of decades. This thesis work has focused on developing novel strategies based on enzyme immobilization to design nano-carriers for multi-enzyme co-localization to realize kinetics enhancement and strong control of spatial arrangement of the enzymes. Three distinct approaches have been designed using different attachment methods and platforms.

First, the multifunctional polystyrene nanoparticles were designed for ...


Plasmonics Based Micro/Nano Manufacturing, Quincy Jay Garner Jan 2013

Plasmonics Based Micro/Nano Manufacturing, Quincy Jay Garner

Graduate Theses and Dissertations

Since the advent of the Information Age, there has been an ever growing demand to continually shrink and reduce the cost of semiconductor products. To meet this demand, a great amount of research has been done to improve our current micro/nano manufacturing processes and develop the next generation of semiconductor fabrication techniques. High throughput, low cost, smaller features, high repeatability, and the simplification of the manufacturing processes are all targets that researchers continually strive for. To this day, there are no perfect systems capable of simultaneously achieving all of these targets. For this reason, much research time is spent ...


Design And Evaluation Of "Pathogen-Mimicking" Polyanhydride Delivery Platforms For Drug And Vaccine Applications, Yashdeep Phanse Jan 2012

Design And Evaluation Of "Pathogen-Mimicking" Polyanhydride Delivery Platforms For Drug And Vaccine Applications, Yashdeep Phanse

Graduate Theses and Dissertations

Vaccines and antibiotics have had a profound impact on human and animal health in the last century. Despite their success, there are several disadvantages associated with current regimens, including multiple immunizations that result in poor patient compliance, high reactogenicity, unpleasant side effects, and poor efficacy against intracellular pathogens. In this regard, innovative delivery platforms can facilitate the development of effective single-dose treatment regimens to control emerging and re-emerging infectious diseases. The work presented in this dissertation describes how rational design principles can be successfully employed to develop targeted polyanhydride platforms for drug and vaccine delivery. Initial studies sought to define ...