Optofluidic thin-film sensors prepared by Oblique Angle Deposition Manuel Oliva Ramírez Instituto de Ciencia de Materiales de Sevilla (US-CSIC) Universidad de Sevilla PhD thesis, 2016 Optofluidic thin-film sensors prepared by Oblique Angle Deposition A dissertation submitted for the degree of Philosophiæ Doctor (PhD) Memoria presentada para optar al grado de Doctor por la Universidad de Sevilla Seville, January 2016 Manuel Oliva Ramírez Directed by: Pr. Agustín Rodríguez González- Dr. Francisco Yubero Valencia Elipe Investigador Científico CSIC Instituto de Ciencia de Materiales Profesor de Investigación CSIC de Sevilla Instituto de Ciencia de Materiales (CSIC-Universidad de Sevilla) de Sevilla (CSIC-Universidad de Sevilla) Tutor: Pr. Alfonso Caballero Martínez Catedrático Universidad de Sevilla Dpt. Química Inorgánica (Universidad de Sevilla) Index Chapter 1 Introduction ..................................................................................................................................... 9 1.1 Preparation of Oblique Angle Deposition (OAD) thin films. .......................... 11 1.1.1. Geometry of the deposition process and shadowing effects. .............. 12 1.1.2 Microstructure and Sculptured thin films. ................................................... 14 1.2. Porosity and optical properties of OAD Thin Films. ........................................ 16 1.3. Optofluidics. ...................................................................................................................... 18 1.3.1. Optofluidic Refractive Index (RI) sensors. .................................................. 19 1.3.2. Optofluidic planar RI structures prepared by OAD of thin films........ 21 1.4. Objectives .......................................................................................................................... 23 1.5. Scheme of the thesis. ..................................................................................................... 24 1.6. References ......................................................................................................................... 25 Chapter 2 Liquids Analysis with Optofluidic Bragg Microcavities ............................................... 33 2. 1. Introduction..................................................................................................................... 35 2. 2. Experimental and Methods ....................................................................................... 37 2. 3. Results and Discussion ................................................................................................ 38 2. 3. 1. Microstructure and optical properties of Bragg microcavities prepared by GLAD ............................................................................................................. 38 2. 3. 2. Optofluidic response of microcavities......................................................... 41 2. 3. 3. Optofluidic analysis of liquid solutions by means of GLAD microcavities ........................................................................................................................ 45 2. 4. Conclusions ...................................................................................................................... 50 2. 5. References ........................................................................................................................ 51 Chapter 3 Optofluidic Modulation of Self-associated Nanostructural Units Forming Planar Bragg Microcavities .................................................................................................................... 55 3.1. Introduction ...................................................................................................................... 56 3.2. Experimental and Methods ........................................................................................ 57 3.2.1. Fabrication of BMs and optofluidic devices. ............................................... 57 3.2.2. Characterization of BMs ...................................................................................... 57 3.2.3. Simulation of the optical response and polarization dependence .... 58 3. 3. Results and Discussion ................................................................................................ 59 3.3.1. Morphology and bundling association .......................................................... 59 3.3.2. Polarization activity of planar BMs ................................................................ 63 3.3.3. BM thin films as wave retarders ...................................................................... 65 3.3.4. Optofluidic behaviour of polarization active BMs .................................... 70 3.3.5. Polarization activity and fence-bundling association ............................. 73 3.4. Conclusions ....................................................................................................................... 73 3.5. References ......................................................................................................................... 74 Chapter 4 Optofluidic analysis with polarization active Bragg Microcavities prepared by Oblique Angle Deposition......................................................................................................... 77 4.1. Introduction ...................................................................................................................... 79 4.2. Experimental and Methods ........................................................................................ 81 4.3. Results and Discussion ................................................................................................. 83 4.3.1. Optofluidic behavior of nanostructured Bragg Microcavities ............. 83 4.3.2. Liquid analysis by monitoring changes in the optical spectra of BMs. ................................................................................................................................................... 84 4.3.3. Liquid analysis by monitoring changes in the optical activity of BM. ................................................................................................................................................... 89 4.4. Conclusions ....................................................................................................................... 90 4.5. References ......................................................................................................................... 91 Chapter 5 Anomalous Giant Absorption of Dye solutions infiltrated in Planar Bragg Microcavities ................................................................................................................................. 95 5.1. Introduction ...................................................................................................................... 97 5.2. Experimental and Methods ........................................................................................ 97 5.2.1. Materials and characterization and analysis procedures. .................... 97 5.2.2. Simulation analysis ............................................................................................... 99 5.3. Results .............................................................................................................................. 100 5.3.1. Liquid infiltration of Bragg microcavities with two or more resonant peaks. ................................................................................................................................... 100 5.4. Discussion and Conclusions .................................................................................... 111 5.5 References. ...................................................................................................................... 115 Chapter 6 General conclusions ................................................................................................................. 119 Chapter 7 Resumen en español. ............................................................................................................... 123 7.1. Análisis de líquidos con Microcavidades de Bragg Optofluídicas. .......... 125 7.2. Modulación Optofluídica de unidades nanoestructurales autoasociadas formando microcavidades de Bragg planas. ............................................................. 131 7.3. Análisis Optofluídico con Microcavidades de Bragg ópticamente activas preparadas por Deposición a Ángulo Oblicuo. ........................................................ 136 7.4. Absorción colosal anómala de colorantes infiltrados en Microcavidades de Bragg Planas. ................................................................................................................... 140 7.5. Referencias. .................................................................................................................... 146 Chapter 1 Introduction