Graduation Semester and Year
2018
Language
English
Document Type
Dissertation
Degree Name
Doctor of Philosophy in Materials Science and Engineering
Department
Materials Science and Engineering
First Advisor
Pranesh B Aswath
Abstract
Silica is used in various industries, ranging from automobile industry for tires to semiconductor industry, paints and coatings, biomedical devices & applications to food & drug industry. The current processing techniques for precipitated silica involve harsh conditions like high temperature and extreme pH conditions. Nature already has highly evolved production techniques for silica. They run at physiological conditions and exhibit intricate control over the synthesis, leading to very pure and ornate siliceous structures. These structures exhibit organized architecture at scales as small as nano-dimensions. The proposed research work is a step, towards development of new techniques that bio-mimic the silica production where they can be scaled up for industrial productions. Also the products obtained can be easily integrated into its potential applications, specifically bone tissue engineering has been targeted in this study. For this the investigators have first gone through an extensive and defined literature study. On basis of this they select the best material alternatives to mimic the biosilica silicification process. These techniques replace the need to use raw materials harvested from the natural marine species and thus avoid disturbing the marine ecology. They optimize the parameters to achieve steady state nucleation, growth and precipitation. These precipitates are extensively analysed for understanding mechanism of the process and the effect of the parameters on the final precipitate. Techniques like SEM, EDX, IR spectroscopy methods, crystalline-amorphous phase studies with XRD, and chemical environment at molecular level via XANES are employed. Applicability of the product in biomedical applications is tested by exploring its potential as composite material in scaffolds for bone tissue engineering. The basic biocompatibility of the material is tested using them as composites with fibroin and making 2D test structures viz. films. The material and biological properties of these created particles are compared with natural spicules obtained from Tethya aurantia, which were primarily characterized to gather the knowledge of the material that is bio-mimicked. This study is pursued with view that successful generation of silica particles will contribute to greener, smarter and faster technique of production of silica and other alkoxides that have similar precipitation techniques currently being employed. It will also present us with a potential replacement biomaterial for bone tissue engineering.
Keywords
Biosilica, Marine sponges, Amorphous SiON, TEOS green synthesis, Bone Tissue engineering
Disciplines
Engineering | Materials Science and Engineering
License
This work is licensed under a Creative Commons Attribution-NonCommercial-Share Alike 4.0 International License.
Recommended Citation
Shah, Ami Atul, "Nature Inspired Technology: A New Process For Silicification based on Marine Sponges" (2018). Material Science and Engineering Dissertations. 121.
https://mavmatrix.uta.edu/materialscieng_dissertations/121
Comments
Degree granted by The University of Texas at Arlington