Application of vertically aligned arrays of metal-oxide nanowires in heterojunction photovoltaics

Ladan, Muhammad Bello

January 2020

Philosophiae Doctor - PhD / The commercial need to improve the performance of low-cost organic solar cells has led to the idea for this research. The study discusses the synthesis of one dimensional TiO2 and ZnO nanowire arrays synthesised using a hydrothermal autoclave method and their application in bulk heterojunction inverted organic solar cells. Previous literature has shown that the precise manipulation, positioning and assembly of 1D nanostructures remain one of the greatest challenges in the field of nanotechnology, with much of the difficulty arising primarily from the lack of size and scale of the materials as well as the inability to visualise the nanostructures. In particular, one dimensional metal-oxides such as TiO2, ZnO and Fe2O3 have emerged as attractive alternatives to traditional semiconductor structures such as Si and GaAs as they are simple and inexpensive to manufacture, with research showing that application of ZnO nano-cones yield efficiencies of 8.4%, which is very attractive given the scope that exists in optimising the metal-oxide architecture. Much is still to be learned from the precise structural features of these materials and their influence on device performance. In this regard, this work largely focuses on this aspect of metal-oxide nanowires prior their application in organic solar cells.

TiO2 and ZnO Nanowires

Iron (Fe), Nitrogen gas (N2)

Organic solar cells

Photovoltaics

Hydrothermal synthesis

TiO2/Cu2O composite based on TiO2 NTPC photoanode for photoelectrochemical (PEC) water splitting under visible light

Shi, Le

05 1900

Water splitting through photoelectrochemical reaction is widely regarded as a major method to generate H2 , a promising source of renewable energy to deal with the energy crisis faced up to human being. Efficient exploitation of visible light in practice of water splitting with pure TiO2 material, one of the most popular semiconductor material used for photoelectrochemical water splitting, is still challenging. One dimensional TiO2 nanotubes is highly desired with its less recombination with the short distance for charge carrier diffusion and light-scattering properties. This work is based on TiO2 NTPC electrode by the optimized two-step anodization method from our group. A highly crystalized p-type Cu2O layer was deposited by optimized pulse potentiostatic electrochemical deposition onto TiO2 nanotubes to enhance the visible light absorption of a pure p-type TiO2 substrate and to build a p-n junction at the interface to improve the PEC performance. However, because of the real photocurrent of Cu2O is far away from its theoretical limit and also poor stability in the aqueous environment, a design of rGO medium layer was added between TiO2 nanotube and Cu2O layer to enhance the photogenerated electrons and holes separation, extend charge carrier diffusion length (in comparison with those of conventional pure TiO2 or Cu2O materials) which could significantly increase photocurrent to 0.65 mA/cm2 under visible light illumination (>420 nm) and also largely improve the stability of Cu2O layer, finally lead to an enhancement of water splitting performance.

TiO2 Nanotube

Photoic Crystal Layer

PEC water splitting

Pulsed Voltage Deposition

Visible Light

Reduced graphene oxide

Optimization of a Ball-Milled Photocatalyst for Wastewater Treatment Through Use of an Orthogonal-Array Experimental Design

Ridder, Bradley J

31 March 2010

The effects of various catalyst synthesis parameters on the photocatalytic degradation kinetics of aqueous methyl orange dye are presented. The four factors investigated were: i) InVO4 concentration, ii) nickel concentration, iii) InVO4 calcination temperature, and iv) ballmilling time. Three levels were used for each factor. Due to the large number of possible experiments in a full factorial experiment, an orthogonal-array experimental design was used. UV-vis spectrophotometry was used to measure the dye concentration. The results show that nickel concentration was a significant parameter, with 90% confidence. The relative ranking of importance of the parameters was nickel concentration > InVO4 concentration > InVO4 calcination temperature > milling time. The results of the orthogonal array testing were used to make samples of theoretically slowest and fastest catalysts. Curiously, the predicted-slowest catalyst was the fastest overall, though both samples were faster than the previous set. The only difference between the slowest and fastest catalysts was the milling time, with the longer-milled catalyst being more reactive. From this result, we hypothesize that there is an interaction effect between nickel concentration and milling time. The slowest and fastest catalysts were characterized using energy-dispersive spectroscopy (EDS), scanning electron microscopy (SEM), x-ray powder diffractometry (XRD), BET surface area analysis, and diffuse-reflectance spectroscopy (DRS). The characterization results show that the fastest catalyst had a lower band gap than the slowest one, as well as a slightly greater pore volume and average pore diameter. The results indicate that fast kinetics are achieved with low amounts of nickel and a long ball milling time. Under the levels tested, InVO4 concentration and the calcination temperature of the InVO4 precursor were not significant.

indium vanadate

InVO4

titania

TiO2

amorphous precursor

methyl orange

Taguchi methods

American Studies

Arts and Humanities

Sol-gel Synthesis and Photocatalytic Characterization of Immobilized TiO2 Films

Liao, Haidong

January 2009

Contamination of surface and ground water from industrial wastes and anthropogenic activities represents one of the greatest challenges to the sustainable development of human society. Heterogeneous photocatalysis, a kind of advanced oxidation process characterized by the production of highly oxidative hydroxyl radicals, is a relatively novel subject with tremendous potential in water treatment applications.     The purpose of this research was first to develop feasible hydroxyl radical detection methods, which can be used to evaluate efficiency of photocatalytic process, and second to prepare immobilized TiO2 films with high photocatalytic activities by the sol gel method.     The feasibility of Indigo carmine and phthalic hydrazide as OH-radical probes was investigated. The organic dye Indigo carmine absorbs visual light strongly at 610 nm and its destruction can be monitored conveniently in a spectrophotometer. Results showed that both ·OH and HO2· can bleach Indigo carmine, and the bleaching yield of ·OH was pH independent. The photocatalytic dye bleaching in black light UV illuminated Degussa P25 TiO2 aerated suspensions was then investigated. A strong pH dependency of the bleaching yield was found.  This implies that the quantum yield of OH radical at pH 3 is one fourth compared to that at pH 10. The reaction of the OH radical with phthalic hydrazide will form strongly chemiluminescent 3-hydroxyphthalic hydrazide. Using the more specific phthalic hydrazide as OH radical probe, an even stronger pH dependent quantum yield of OH radical was found. At pH 10 the quantum yield reached the same magnitude as that obtained by using Indigo carmine, whereas the quantum yields at acidic pH were close to zero. However it was found that the addition of phosphate and fluoride anions can substantially enhance the OH radical yield at acidic pH by blocking the adsorption of phthalic hydrazide onto the TiO2 surfaces. Hence the adsorption of phthalic hydrazide to TiO2 is an important factor to consider when this method is used.     Photocatalytic TiO2 films coated on metal plates were prepared by a sol gel method using titanium isopropoxide as TiO2 precursor and isopropanol as solvent. The photocatalytic activity of the obtained films was evaluated by bleaching of indigo carmine at pH 9 under black light UV irradiation. The effect of the molar ratio of isopropanol, water and hydrochloric acid to titanium isopropoxide was studied. It was also shown that the activities of TiO2 films are considerably influenced by calcination temperature, coating cycles and the supporting materials. / Förorening av yt- och grundvatten från industrier och humana aktiviteter utgör en av de största utmaningarna för en hållbar utveckling av det mänskliga samhället. Heterogen fotokatalys, en slags avancerad oxidations process som kännetecknas av att starkt oxidativa hydroxylradikaler produceras, är en relativt ny teknik med stor potential för vattenrening.     Ett syfte med detta licentiatarbete var först att utveckla och genomföra olika metoder för att detektera bildningen av hydroxylradikaler såväl i laboratoriet som i tekniska miljöer. Det andra syftet med arbetet var att syntetisera immobiliserade TiO2 filmer med hög fotokatalytisk effektivitet med en sol-gel metod.     Möjligheten att använda indigokarmin och ftalhydrazid som OH-radikalprob undersöktes. Det organiska färgämnet indigokarmin absorberar synligt ljus starkt vid 610 nm vilket gör att dess nedbrytning lätt kan följas i en spektrofotometer. Resultaten av gammaradiolys visade att båda •OH och HO2• kan bleka indigokarmin och att den blekning som härrör från •OH var oberoende av pH. Fotokatalytisk blekning av indigokarmin med blacklight UV bestrålning av  Degussa P25 TiO2 suspensioner undersöktes sedan. Ett starkt pH-beroende av blekningsutbytet erhölls vilket tolkas som att kvantutbytet av OH-radikaler vid pH 3 är en fjärdedel jämfört med det vid pH 10.     När ftalhydrazid reagerar med OH-radikaler bildas starkt kemiluminiscent 3-hydroxy-ftalhydrazid. Med denna  specifika OH-radikalprob, erhölls ett ännu starkare pH beroende. Vid pH 10 var kvantutbytet i paritet med det som erhölls med indigokarmin, medan kvantutbytet vid lågt pH var nära noll. Tillsats av fosfat-  och fluoridjoner visade sig avsevärt öka OH-radikalutbytet vid lågt pH-värde genom att blockera adsorption av ftalhydrazid på TiO2 ytorna. Adsorptionen av ftalhydrazid på TiO2 är således en viktig faktor när denna metod används.     Fotokatalytiskt verksamma TiO2-filmer på metallplattor framställdes med sol-gel metoden med titan-isopropoxide som TiO2-prekursor och isopropanol som lösningsmedel. Den fotokatalytiska aktiviteten av TiO2-belagda plattor utvärderades genom blekning av indigokarmin vid pH 9 under blacklight UV-bestrålning. Effekten av olika proportioner mellan isopropanol, vatten och saltsyra till titan isopropoxide undersöktes. Det visade sig att denfotokatalytiska aktiviteten av TiO2-plattorna i hög grad påverkades av kalcineringstemperatur, beläggningscykler och materialet i plattorna.

Chemical Sciences

Kemi

Chemical Process Engineering

Kemiska processer

Functionalized multiwall carbon nanotubes for electronic and magnetic applications

Oke, James Ayodele

11 1900

In this work, SiO2, MWCNTs, MWCNTs:SiO2, MWCNTs-TiO2, and MWCNTs:TiO2:SiO2 nanomaterials were synthesized and characterized by the use of different techniques to ascertain novelty of the nanomaterials and also to establish their suitability for several electrical, electronic and magnetic based device applications. The results, in general, indicate that the nanocomposites were well prepared and the properties of MWCNTs can be tuned by introducing SiO2, TiO2, and a composite of SiO2 and TiO2 in its matrix. This tunability of properties leading to the suitability of the material for various applications has been explained in this work. / Physics

SiO2

TiO2

MWCNTs

MWCNTs:SiO2

MWCNTs:TiO2:SiO2

Composites

Synthesis

Characterization

Electrical

Electronic

Magnetic

TiO2 based photocatalysts for environmental remediation reactions

Amorós-Pérez, Ana

12 April 2019

Esta tesis doctoral se ha centrado en la preparación de fotocatalizadores nanoestructurados basados en TiO2 modificados con metales de transición o carbón activado para su aplicación en reacciones de interés medioambiental, concretamente, en la eliminación de tres contaminantes: ácido acético y diurón, en fase acuosa, y propeno en fase gas. Se ha estudiado la influencia de las propiedades fisicoquímicas (porosidad, cristalinidad, composición química, propiedades electrónicas) de cada material en su actividad fotocatalítica.

Fotocatálisis heterogénea

TiO2

Metales de transición

Cobre

Carbón activado

Ácido acético

Propeno

Diurón

Química Inorgánica

Catalizadores micro- y nanoestructurados para la oxidación de hidrocarburos y producción de hidrógeno

Fernández-Catalá, Javier

20 March 2020

La presente Tesis Doctoral consiste en el diseño y preparación de materiales basados en óxido de titanio y titanosilicatos para su aplicación en diversas reacciones catalíticas tanto desde un aspecto medioambiental como para la síntesis de compuestos de interés industrial, concretamente se estudiaron la fotooxidación de propeno, la oxidación selectiva de propileno y la descomposición de amino borano. Respecto al desarrollo y preparación de los materiales se ha analizado la influencia de las condiciones de preparación de los catalizadores y fotocatalizadores en las propiedades más importantes de los mismos (porosidad, la cristalinidad, la química superficial y composición química, entre otros) que pudieran tener influencia en su actividad catalítica.

Síntesis de materiales

TiO2

Titanosilicatos

Materiales compuestos

Nanopartículas

Oxidación

Propreno

Producción de Hidrógeno

Química Inorgánica

Density functional tightbinding studies of Tio2 polymorphs

Gandamipfa, Mulatedzi

January 2020

Thesis (Ph. D. (Physics)) -- University of Limpopo, 2020 / Titanium dioxide is among the most abundant materials and it has many of interesting physical and chemical properties (i.e., low density, high thermal and mechanical strength, insensitivity to corrosion) that make it a compound of choice for electrodes materials in energy storage. There are, however, limitations on the theoretical side to using the main electronic structure theories such as Hartree-Fock (HF) or density functional (DFT) especially for large periodic and molecular systems. The aim of the theses is to develop a new, widely transferable, self-consistent density functional tight binding SCC-DFTB data base of TiO2, which could be applied in energy storage anodes with a large number of atoms. The TiO2, LiTiO2 and NaTiO2 potentials were derived following the SCC-DFTB parameterization procedure; where the generalized gradient approximation (GGA) and local density approximation (LDA) exchange-correlation functional were employed yielding Slater-Koster DFTB parameters. The results of derived parameters were validated by being compared with those of the bulk rutile and brookite polymorphs. The structural lattice parameters and electronic properties, such as the bandgaps were well reproduced. Most mechanical properties were close to those in literature, except mainly for C33 which tended to be underestimated due to the choice of exchange-correlation functional. The variation of the bulk lattice parameter and volume with lithiation and sodiation were predicted and compared reasonably with those in literature. The newly derived DFTB parameters were further used to calculate bulk properties of the anatase, which is chemically more stable than other polymorphs. Generally, the accuracy of the lattice structural, electronic and mechanical properties of the bulk anantase were consistent with those of the rutile and brookite polymorphs. Furthermore, nanostructures consisting of a large number of atoms, which extend beyond the normal scope of the conventional DFT calculations, were modelled both structurally and electronically. Structural variations with lithiation was consistent with experimental and sodiation tends to enhance volume expansion than lithiation. Anatase TiO2 and LiTO2 nanotubes of various diameters were generated using NanoWrap builder within MedeA® software. Its outstanding resistance to expansion during lithium insertion and larger surface area make the TiO2 nanotube a promising candidate for rechargeable lithium ion batteries. The outcomes of this study will be beneficial to future development of TiO2 nanotube and other nanostructures. Lastly, our DFTB Slater-Koster potentials were applied to recently discovered trigonal bipyramid (TB), i.e. TiO2 (TB)-I and TiO2 (TB)-II polymorphs, which have enormous 1- D channels that provide suitable pathways for mobile ion transport. All structural, electronic properties were consistent with those in literature and all elastic properties agreed excellently with those that were calculated using DFT methods. Finally, the bulk structures of the two polymorphs, were lithiated and sodiated versions and electronic and structural properties were studied, together with the lithiated versions of associated nanostructures consisting of a large number of atoms. Generally, the TiO2 (TB)-I structure was found to be mechanically, energetically more stable and ductile than TiO2 (TB)-II. Hence, it will be beneficial to use TiO2 (TB)-I as an anode material for sodium ion batteries (SIB), due to its unique ductility and larger 1D channels. / National Research Fund (NRF), the Department of Science and Innovation (DSI) Energy Storage Research Development and Innovation initiative and Materials Modeling Centre

Titanium dioxide

TB

Hartree-Fock

Anatase TiO2

Lithium ion

Titanium dioxide

Lithium

Entwicklung und Optimierung eines transparenten elektrochromen Displays zur Darstellung hochaufgelöster Piktogramme

Möller, Martin

05 September 2007

In der vorliegenden Arbeit wird erstmals ein transparentes elektrochromes Display (ECD) höchster Auflösung (720 dpi) beschrieben. Die Entwicklung erforderte grundlegende Arbeiten an den einzelnen Komponenten, insbesondere (i) an der Arbeitselektrode und (ii) an der Gegenelektrode.Die Arbeitselektrode des ECD enthält ein digital festgelegtes elektrochromes Bild, welches mit Hilfe der Ink-Jet-Technik nach verschiedenen Methoden übertragen wurde. Der Druck eines Bildpositivs mit elektrochromer Tinte (Viologen) auf eine mit mesoporösem TiO2 beschichtete Glaselektrode lieferte dabei die besten Ergebnisse. Mit verschiedenen Elektrochromophoren konnten Mehrfarbendrucke erzeugt werden. Als Problem trat dabei auf, daß das Bild in einem ECD nach vier Monaten Lagerung unscharf wird. Die Lösung bestand darin, einen Viologenvorläufer zu drucken, der in einer anschließenden kaskadenartigen Synthese quervernetzt wurde. Zur weiteren Optimierung der Parameter (i) berflächenkonzentration der Viologenzentren, (ii) Stabilität gegenüber polaren Lösemitteln und (iii) Pimerisierungsgrad, wurden erstmals auch kombinatorische Experimente mit einem Ink-Jet Drucker durchgeführt. Ein weiteres Thema dieser Arbeit ist die Entwicklung transparenter Gegenelektroden, welche auf dem Prinzip der Lithiumioneninterkalation in CeO2 basieren. Dazu wurde ein bereits bekannter Typ von CeO2-TiO2-Mischoxidelektroden weiterentwickelt. Ein in dieser Arbeit neu entwickelter Typ einer Gegenelektrode mit verbesserter Kinetik besteht aus einem Zweiphasenoxidgemisch, mit CeO2 auf der inneren Oberfläche einer mesoporösen, antimondotierten SnO2-Schicht (ATO). Aus den Einzelkomponenten wurden verschiedene ECDs zusammengesetzt.

Elektrochromie

Nanokristallit

TiO2

ATO

CeO2

Viologen

Kombinatorik

35.14 - Elektrochemie

30 - Chemie

ddc:540

Development of novel hybrid catalysis for carbon-carbon couplings by titanium oxide photocatalyst and metal cocatalyst / 酸化チタン光触媒と金属助触媒による炭素－炭素結合形成のための新規ハイブリッド触媒の開発

Akanksha, Tyagi

26 March 2018

京都大学 / 0048 / 新制・課程博士 / 博士(人間・環境学) / 甲第21178号 / 人博第850号 / 新制||人||203(附属図書館) / 29||人博||850(吉田南総合図書館) / 京都大学大学院人間・環境学研究科相関環境学専攻 / (主査)教授 吉田 寿雄, 教授 内本 喜晴, 教授 田部 勢津久 / 学位規則第4条第1項該当 / Doctor of Human and Environmental Studies / Kyoto University / DFAM

Heterogeneous photocatalysis

TiO2

Titanium oxide

Bifunctional catalysts

Organic synthesis

Green chemistry

Photocatalyst

361