Advanced Multifunctional Graphene-Based Paper for Thermal Management and De-icing Applications

Al Lami, Ali Abdulkareem Muhsan

January 2021

No description available.

Materials Science

Interactions of Gas Particles with Graphene during Compressible Flow Exfoliation: A Molecular Dynamics Simulations Study

Ahmed, Shafkat

14 December 2020

No description available.

Mechanical Engineering

Materials Science

Nanoscience

2D layered materials

nano materials

graphene

compressible flow

exfoliation

molecular dynamics

gas

mechanism

COLLOIDAL INTERACTIONS AND STABILITY IN PROCESSING, FORMATION AND PROPERTIES OF INORGANIC-ORGANIC NANOCOMPOSITES

Alhassan, Saeed M.

04 May 2011

No description available.

Chemical Engineering

clay

graphene

graphene oxide

aerogel

laponite

turbulence

exfoliation

colloidal interactions

DLVO theory

colloidal stability

nanocomposites

Multifunctional Carbon Foams by Emulsion Templating : Synthesis, Microstructure, and 3D Li-ion Microbatteries

Asfaw, Habtom Desta

January 2017

Carbon foams are among the existing electrode designs proposed for use in 3D Li-ion microbatteries. For such electrodes to find applications in practical microbatteries, however, their void sizes, specific surface areas and pore volumes need be optimized. This thesis concerns the synthesis of highly porous carbon foams and their multifunctional applications in 3D microbatteries. The carbon foams are derived from polymers that are obtained by polymerizing high internal phase water-in-oil emulsions (HIPEs). In general, the carbonization of the sulfonated polymers yielded hierarchically porous structures with void sizes ranging from 2 to 35 µm and a BET specific surface area as high as 630 m2 g-1. Thermogravimetric and spectroscopic evidence indicated that the sulfonic acid groups, introduced during sulfonation, transformed above 250 oC to thioether (-C-S-) crosslinks which were responsible for the thermal stability and charring tendency of the polymer precursors. Depending on the preparation of the HIPEs, the specific surface areas and void-size distributions were observed to vary considerably. In addition, the pyrolysis temperature could also affect the microstructures, the degree of graphitization, and the surface chemistry of the carbon foams. Various potential applications were explored for the bespoke carbon foams. First, their use as freestanding active materials in 3D microbatteries was studied. The carbon foams obtained at 700 to 1500 oC suffered from significant irreversible capacity loss during the initial discharge. In an effort to alleviate this drawback, the pyrolysis temperature was raised to 2200 oC. The resulting carbon foams were observed to deliver high, stable areal capacities over several cycles. Secondly, the possibility of using these structures as 3D current collectors for various active materials was investigated in-depth. As a proof-of-concept demonstration, positive active materials like polyaniline and LiFePO4 were deposited on the 3D architectures by means of electrodeposition and sol-gel approach, respectively. In both cases, the composite electrodes exhibited reasonably high cyclability and rate performance at different current densities. The syntheses of niobium and molybdenum oxides and their potential application as electrodes in microbatteries were also studied. In such applications, the carbon foams served dual purposes as 3D scaffolds and as reducing reactants in the carbothermal reduction process. Finally, a facile method of coating carbon substrates with oxide nanosheets was developed. The approach involved the exfoliation of crystalline VO2 to prepare dispersions of hydrated V2O5, which were subsequently cast onto CNT paper to form oxide films of different thicknesses.

Battery

Carbon

Electrochemical

Electrodeposition

Emulsion

Energy

Exfoliation

Foam

Lithium

Microbattery

Multifunctional

Nanoparticles

Polyaniline

Polymer

Power

Sol-gel

Storage

Structured

Three-dimensional

Liquid Exfoliation of Molybdenum Disulfide for Inkjet Printing

Forsberg, Viviane

January 2016

Since the discovery of graphene, substantial effort has been put toward the synthesis and production of 2D materials. Developing scalable methods for the production of high-quality exfoliated nanosheets has proved a significant challenge. To date, the most promising scalable method for achieving these materials is through the liquid-based exfoliation (LBE) of nanosheetsin solvents. Thin films of nanosheets in dispersion can be modified with additives to produce 2D inks for printed electronics using inkjet printing. This is the most promising method for the deposition of such materials onto any substrate on an industrial production level. Although well-developed metallic and organic printed electronic inks exist on the market, there is still a need to improve or develop new inks based on semiconductor materials such as transition metal dichalcogenides (TMDs) that are stable, have good jetting conditions and deliver good printing quality.The inertness and mechanical properties of layered materials such as molybdenum disulfide (MoS2) make them ideally suited for printed electronics and solution processing. In addition,the high electron mobility of the layered semiconductors, make them a candidate to become a high-performance semiconductor material in printed electronics. Together, these features make MoS2 a simple and robust material with good semiconducting properties that is also suitable for solution coating and printing. It is also environmentally safe.The method described in this thesis could be easily employed to exfoliate many types of 2D materials in liquids. It consists of two exfoliation steps, one based on mechanical exfoliation of the bulk powder utilizing sand paper, and the other inthe liquid dispersion, using probe sonication to liquid-exfoliate the nanosheets. The dispersions, which were prepared in surfactant solution, were decanted, and the supernatant was collected and used for printing tests performed with a Dimatix inkjetprinter. The printing test shows that it is possible to use the MoS2 dispersion as a printed electronics inkjet ink and that optimization for specific printer and substrate combinations should be performed. There should also be advances in ink development, which would improve the drop formation and break-off at the inkjet printing nozzles, the ink jetting and, consequently, the printing quality. / Sedan upptäckten av grafen har mycket arbete lagts på framställning och produktion av 2D-material. En viktig uppgift har varit att ta fram skalbara metoder för produktion av högkvalitativa  nanosheets via exfoliering. Den mest lovande skalbarametoden hittills har varit vätskebaserad exfoliering av nanosheets i lösningsmedel. Tunna filmer av nanosheets i dispersion kan anpassas med hjälp av tillsatser och användas för tillverkning av halvledare strukturer med inkjet-skrivare, vilket är den mest lovande metoden för på en industriell produktions nivå beläggaden typen av material på substrat. Även om det finns välutvecklade metalliska och organiskabläck för tryckt elektronik, så finns det fortfarande ett behov av att förbättra eller utveckla nya bläck baserade på halvledarmaterial som t.ex. TMD, som är stabila, har goda bestryknings  egenskaper och ger bra tryckkvalitet. Den inerta naturen tillsammans med de mekaniska egenskaperna som finns hosskiktade material, som t.ex. molybdendisulfid (MoS2), gör demlämpliga för flexibel elektronik och bearbetning i lösning. Dessutom gör den höga elektronmobiliteten i dessa 2D-halvledaredem till en stark kandidat som halvledarmaterial inom trycktelektronik. Det betyder att MoS2 är ett enkelt och robust material med goda halvledaregenskaper som är lämpligt för bestrykning från lösning och tryck, och är miljömässigt säker.Den metod som beskrivs här kan med fördel användas föratt exfoliera alla typer av 2D-material i lösning. Exfolieringensker i två steg; först mekanisk exfoliering av torr bulk med sandpapper, därefter används ultraljudsbehandling i lösning för att exfoliera nanosheets. De dispersioner som framställts i lösning med surfaktanter dekanterades och det övre skiktetanvändes i trycktester med en Dimatix inkjet-skrivare.Tryckprovet visar att det är möjligt att använda MoS2 -dispersion som ett inkjet-bläck och att optimering för särskildaskrivar- och substratkombinationer borde göras, såsom förbättringav bläcksammansättningen med avseende på droppbildning och break-off vid skrivarmunstycket, vilket i sin tur skulleförbättra tryckkvaliteten. / KM2 / Paper Solar Cells

MoS2

Exfoliation

Inkjet Printing

2D materials

Environmental Friendly

TMD

thin films

industrial printing

2D inks

printed electronics

thin films carrier mobility

large-area electronics

graphene analogues

solar cells

Investigação dos processos de intercalação e esfoliação de hexaniobato lamelar e preparação de materiais híbridos com biopolímeros / Investigation of the intercalation and exfoliation processes of layered hexaniobate and preparation of hybrid materials with biopolymers

Shiguihara, Ana Lucia

01 September 2010

A presente tese tem como objetivo principal a investigação do processo de intercalação e esfoliação do hexaniobato lamelar em soluções de hidróxidos de tetraalquilamônios e, também, do emprego das partículas do niobato na preparação de materiais híbridos com polissacarídeos. O material de composição H2K2Nb6O17 foi suspenso em soluções aquosas contendo diferentes concentrações dos hidróxidos de tetrametilamônio (TMA+), tetraetilamônio (TEA+) e tetrapropilamônio (TPA+). Após o tempo de reação foram separadas duas frações: o sólido depositado no recipiente e o sobrenadante turvo contendo as partículas não depositadas de características coloidais. Os resultados de difratometria de raios X, análise termogravimétrica, análise elementar, espectroscopia vibracional no infravermelho e Raman mostram que o processo de intercalação é promovido segundo a ordem: TMA+ > TEA+ > TPA+, isto é, a intercalação é facilitada para íons pouco volumosos. Já o processo de esfoliação do hexaniobato é promovido na ordem inversa: TPA+ » TEA+ > TMA+, ou seja, quanto mais volumoso o íon tetraalquilamônio, maior a extensão do processo de separação das lamelas. A formação das partículas cilíndricas, presentes em maior quantidade nas amostras tratadas com soluções de TPA+ e TBA+, é favorecida pelo aumento do tamanho da cadeia carbônica e da concentração das soluções do hidróxido. Além dos processos de intercalação ou esfoliação, observou-se o processo de formação de gel na etapa de remoção de eletrólitos na lavagem dos sólidos depositados. O entumescimento das lamelas empilhadas de hexaniobato é favorecido para amostras intercaladas com íons TEA+; possivelmente esses íons possuem a melhor relação entre hidrofilicidade e tamanho, promovendo a formação de gel. O composto contendo íons TEA+ intercalados no hexaniobato ácido foi empregado na preparação de material híbrido contendo o polissacarídeo quitosana intercalado na matriz inorgânica, com o objetivo de modificar a superfície do hexaniobato para promover a compatibilização com o amido e a formação de nanocompósitos. Filmes de amido desestruturado contendo partículas de hexaniobato foram preparados por casting. Para alcançar alto grau de dispersão da partícula inorgânica no polímero, três tipos de partículas de hexaniobato foram empregadas: (i) partículas esfoliadas com n-butilamina, (ii) partículas altamente hidratadas de TEA+-hexaniobato e (iii) partículas modificadas pela intercalação com quitosana. As técnicas de difratometria de raios X, análise termogravimétrica acoplada à espectrometria de massa, espectroscopia vibracional no infravermelho e microscopia eletrônica de varredura sugerem que nos filmes transparentes e flexíveis obtidos, a matriz lamelar se encontra preferencialmente na forma intercalada. Os resultados preliminares de análise dinâmico-mecânica sugerem a seguinte tendência no comportamento mecânico dos filmes: a adição do hexaniobato torna os filmes de amido mecanicamente mais resistentes e as amostras sem o plastificante glicerol apresentam maior resistência e menor deformação que aquelas com glicerol. / The main aim of this Thesis is the investigation of intercalation and exfoliation processes occurring when the layered material H2K2Nb6O17 is suspended in alkaline solutions containing tetramethylammonium (TMA+), tetraethylammonium (TEA+) or tetrapropylammonium (TPA+) cations, as well as the employment of the hexaniobate particles in the preparation of hybrid materials with polysaccharides. After the reaction using different concentrations of the tetraalkylammonium hydroxide solutions, two fractions were separated: the deposited solid (i.e. the sediment at bottom of the flasks) and the opaque supernatant containing particles with colloidal characteristics. Experimental data from X-ray diffractometry (XRD), mass spectrometry coupled thermogravimetric analyses (TG-MS), elemental analysis, vibrational infrared (IR) and Raman spectroscopies show that intercalation reaction is promoted in the order TMA+ > TEA+ > TPA+ while exfoliation process is facilitated in the inverse order: TPA+ » TEA+ > TMA+. Development of particles with stick-like shapes is observed when H2K2Nb6O17 is kept mainly in the solutions containing the larger TPA+ and TBA+ ions. Samples containing intercalated TEA+ ions form a gel-like system when washed to remove the non-intercalated ions dissolved in water. Experimental data suggest that the gel phase constituted by long-range swelled particles. This fact was interpreted as a consequence of the intermediate characteristics (surface polarity and ion radius) of the TEA+ ions compared to the others ions investigated in this study. The hexaniobate material intercalated with TEA+ ions was used to prepare a hybrid material having the chitosan polymer intercalated into the inorganic matrix in order to compatibilize the hexaniobate particles with starch and a nanocomposite formation. The study of the films of starch-niobate showed that the matrix is in the intercalation form preferentially, even using different exfoliation agents and modification species (n-butylamine, TEAOH and chitosan). Films of destructured starch having hexaniobate particles were prepared by casting method. In order to reach a high level of inorganic particles dispersed in the polymer, three kinds of hexaniobate particles were used: (i) particles exfoliated with n-butylamine, (ii) hydrated particles of TEA+-hexaniobate and (iii) hexaniobate particles intercalated with chitosan. XRD, TG-MS, IR, and scanning electron microscopy (SEM) techniques suggest that hexaniobate particles are mainly in the intercalated form in the transparent and flexible obtained starch films. Preliminary dynamic mechanical analysis data indicate the following general tendency in the mechanic characteristics of the films: niobate particles make the starch films more resistant and the samples without the glycerol plasticizer present higher resistance and lower deformation than the films with glycerol.

Amido

Biopolímeros

Biopolymers

Composites

Compósitos

Esfoliação

Exfoliation

Hexaniobato lamelar

Hidróxido de teraalquilamônio

Intercalação

Intercalation

Intercalation Chemistry

Layered hexaniobate

Química de intercalação

Starch

Tetraalkylammonium hydroxide

Two-dimensional material inks and composites for printed electronics and energy

Carey, Tian

January 2018

This thesis explores the application of two-dimensional (2D) materials such as graphene and single layer hexagonal boron nitride (h-BN) which are produced by liquid phase exfoliation for use in printed electronics and energy composite applications. In Chapter 2 I give a broad overview of the electrical, mechanical and optical properties of 2D materials among other nanomaterials that were used in the thesis such as carbon nanotubes and conductive polymers. Additionally I review the techniques and theory behind the exfoliation and dispersion of functional layered materials. In Chapter 3 I present the coating and printing techniques which were used in this thesis along with the experimental techniques and methods which I use to characterise my inks, films and devices. Chapter 4 is the first experimental chapter of the thesis and demonstrates the printing of 2D material heterostructures to create fully printed dieletrically gated field effect transistors with 2D materials on textile and polymer substrates. In this chapter I also demonstrate reprogrammable volatile memory, p and n type inverters, complementary inverters, and logic gates which pave the way to fully printed integrated circuits, operational at room temperature and pressure with 2D materials processed in liquid. In Chapter 5, I review spray coating (a highly industrial scalable printing technique), in terms of the optimisation of its parameters to achieve thin films of nanomaterials on three-dimensional (3D) surfaces. I then demonstrate that it is possible to create large area (∼750 cm2) transparent conducting films around curved surfaces with spray coating enabling a semi-transparent (around 360°) spherical touch sensor for interactive devices. Chapter 6 explores printed photonics for applications in terahertz (THz) frequencies. Here I demonstrate the feasibility of liquid phase exfoliated graphene to create THz saturable absorbers (SAs) which could enable many applications in THz frequencies such as tomography or time-resolved spectroscopy that require mode-locked (i.e. enabling a train of short pulses to be derived from continuous-wave operation) THz pulses. I also demonstrate that these SAs can be inkjet printed on demand providing unprecedented compactness in a quantum cascade laser system. Finally in Chapter 7, I look at the application of graphene in microbial fuel cells (MFC). I demonstrate that enhanced MFC output arises from the interplay of the improved surface area, enhanced conductivity, and catalytic surface groups of a graphene based electrode. As a final step graphene based anodes and cathodes which were entirely platinum free were combined to create an environmentally sustainable energy source.

Investigação dos processos de intercalação e esfoliação de hexaniobato lamelar e preparação de materiais híbridos com biopolímeros / Investigation of the intercalation and exfoliation processes of layered hexaniobate and preparation of hybrid materials with biopolymers

Ana Lucia Shiguihara

01 September 2010

A presente tese tem como objetivo principal a investigação do processo de intercalação e esfoliação do hexaniobato lamelar em soluções de hidróxidos de tetraalquilamônios e, também, do emprego das partículas do niobato na preparação de materiais híbridos com polissacarídeos. O material de composição H2K2Nb6O17 foi suspenso em soluções aquosas contendo diferentes concentrações dos hidróxidos de tetrametilamônio (TMA+), tetraetilamônio (TEA+) e tetrapropilamônio (TPA+). Após o tempo de reação foram separadas duas frações: o sólido depositado no recipiente e o sobrenadante turvo contendo as partículas não depositadas de características coloidais. Os resultados de difratometria de raios X, análise termogravimétrica, análise elementar, espectroscopia vibracional no infravermelho e Raman mostram que o processo de intercalação é promovido segundo a ordem: TMA+ > TEA+ > TPA+, isto é, a intercalação é facilitada para íons pouco volumosos. Já o processo de esfoliação do hexaniobato é promovido na ordem inversa: TPA+ » TEA+ > TMA+, ou seja, quanto mais volumoso o íon tetraalquilamônio, maior a extensão do processo de separação das lamelas. A formação das partículas cilíndricas, presentes em maior quantidade nas amostras tratadas com soluções de TPA+ e TBA+, é favorecida pelo aumento do tamanho da cadeia carbônica e da concentração das soluções do hidróxido. Além dos processos de intercalação ou esfoliação, observou-se o processo de formação de gel na etapa de remoção de eletrólitos na lavagem dos sólidos depositados. O entumescimento das lamelas empilhadas de hexaniobato é favorecido para amostras intercaladas com íons TEA+; possivelmente esses íons possuem a melhor relação entre hidrofilicidade e tamanho, promovendo a formação de gel. O composto contendo íons TEA+ intercalados no hexaniobato ácido foi empregado na preparação de material híbrido contendo o polissacarídeo quitosana intercalado na matriz inorgânica, com o objetivo de modificar a superfície do hexaniobato para promover a compatibilização com o amido e a formação de nanocompósitos. Filmes de amido desestruturado contendo partículas de hexaniobato foram preparados por casting. Para alcançar alto grau de dispersão da partícula inorgânica no polímero, três tipos de partículas de hexaniobato foram empregadas: (i) partículas esfoliadas com n-butilamina, (ii) partículas altamente hidratadas de TEA+-hexaniobato e (iii) partículas modificadas pela intercalação com quitosana. As técnicas de difratometria de raios X, análise termogravimétrica acoplada à espectrometria de massa, espectroscopia vibracional no infravermelho e microscopia eletrônica de varredura sugerem que nos filmes transparentes e flexíveis obtidos, a matriz lamelar se encontra preferencialmente na forma intercalada. Os resultados preliminares de análise dinâmico-mecânica sugerem a seguinte tendência no comportamento mecânico dos filmes: a adição do hexaniobato torna os filmes de amido mecanicamente mais resistentes e as amostras sem o plastificante glicerol apresentam maior resistência e menor deformação que aquelas com glicerol. / The main aim of this Thesis is the investigation of intercalation and exfoliation processes occurring when the layered material H2K2Nb6O17 is suspended in alkaline solutions containing tetramethylammonium (TMA+), tetraethylammonium (TEA+) or tetrapropylammonium (TPA+) cations, as well as the employment of the hexaniobate particles in the preparation of hybrid materials with polysaccharides. After the reaction using different concentrations of the tetraalkylammonium hydroxide solutions, two fractions were separated: the deposited solid (i.e. the sediment at bottom of the flasks) and the opaque supernatant containing particles with colloidal characteristics. Experimental data from X-ray diffractometry (XRD), mass spectrometry coupled thermogravimetric analyses (TG-MS), elemental analysis, vibrational infrared (IR) and Raman spectroscopies show that intercalation reaction is promoted in the order TMA+ > TEA+ > TPA+ while exfoliation process is facilitated in the inverse order: TPA+ » TEA+ > TMA+. Development of particles with stick-like shapes is observed when H2K2Nb6O17 is kept mainly in the solutions containing the larger TPA+ and TBA+ ions. Samples containing intercalated TEA+ ions form a gel-like system when washed to remove the non-intercalated ions dissolved in water. Experimental data suggest that the gel phase constituted by long-range swelled particles. This fact was interpreted as a consequence of the intermediate characteristics (surface polarity and ion radius) of the TEA+ ions compared to the others ions investigated in this study. The hexaniobate material intercalated with TEA+ ions was used to prepare a hybrid material having the chitosan polymer intercalated into the inorganic matrix in order to compatibilize the hexaniobate particles with starch and a nanocomposite formation. The study of the films of starch-niobate showed that the matrix is in the intercalation form preferentially, even using different exfoliation agents and modification species (n-butylamine, TEAOH and chitosan). Films of destructured starch having hexaniobate particles were prepared by casting method. In order to reach a high level of inorganic particles dispersed in the polymer, three kinds of hexaniobate particles were used: (i) particles exfoliated with n-butylamine, (ii) hydrated particles of TEA+-hexaniobate and (iii) hexaniobate particles intercalated with chitosan. XRD, TG-MS, IR, and scanning electron microscopy (SEM) techniques suggest that hexaniobate particles are mainly in the intercalated form in the transparent and flexible obtained starch films. Preliminary dynamic mechanical analysis data indicate the following general tendency in the mechanic characteristics of the films: niobate particles make the starch films more resistant and the samples without the glycerol plasticizer present higher resistance and lower deformation than the films with glycerol.

Amido

Biopolímeros

Compósitos

Esfoliação

Hexaniobato lamelar

Hidróxido de teraalquilamônio

Intercalação

Química de intercalação

Biopolymers

Composites

Exfoliation

Intercalation

Intercalation Chemistry

Layered hexaniobate

Starch

Tetraalkylammonium hydroxide

Nanocomposites à matrice élastomère à base de charges lamellaires synthétiques alpha-ZrP : influence de la modification des charges sur les propriétés mécaniques et barrière aux gaz

Dal Pont, Kévin

06 June 2011

Ce travail concerne l'étude des modifications de nanocharges lamellaires synthétiques (α-ZrP) et de leur influence sur les propriétés mécaniques et barrière aux gaz de nanocomposites à matrice élastomère (SBR). Cette étude s'inscrit dans le cadre de l'amélioration de l'étanchéité des pneumatiques. L'une des originalités de ce travail a résidé dans l'introduction des nanocharges hydrophiles par le biais d'une dispersion aqueuse (slurry), dans la matrice SBR hydrophobe. La première phase de ce travail a consisté à entreprendre plusieurs types de modification des nanocharges afin d'étudier les mécanismes d'intercalation et/ou d'exfoliation des ces dernières dans le slurry. Ces différentes familles de charges modifiées ont été utilisées pour réaliser des nanocomposites selon différentes voies de mise en oeuvre : principalement solvant et latex. Nous avons ensuite étudié l'influence, (i) de la nature des intercalants, (ii) des distances interfoliaires initiales des nanocharges et (iii) des procédés de mise en oeuvre des nanocomposites, sur la morphologie et les propriétés finales des matériaux. Cette étude a montré la synergie de ces trois paramètres et mis en évidence l'importance du contrôle des interactions charges modifiées/matrice sur les propriétés de transport de gaz. Parmi l'ensemble des matériaux synthétisés, nous avons pu mettre en avant une formulation, permettant d'atteindre des propriétés mécaniques et barrière intéressantes. Cette formulation, en voie latex, est basée sur l'utilisation de la charge modifiée aminosilane et de l'agent de couplage Si69

[SPI:OTHER] Engineering Sciences/Other

Nanocharge synthétique lamellaire

Phosphate de zirconium (α-ZrP)

Intercalation

Exfoliation

Caoutchouc de styrène butadiène (SBR)

Nanocomposite

Traction

Propriétés barrière aux gaz

[en] VISIBLE LIGHT SENSITIVE MESOPOROUS NANOHYBRID, PREPARED FROM LEPIDOCROCITE-LIKE FERRITITANATE COUPLED TO A CHARGE TRANSFER COMPLEX AND ITS APPLICATION IN PHOTOCATALYTIC CONVERSION OF A POLLUTANT GAS / [pt] NANOHÍBRIDO MESOPOROSO SENSÍVEL À LUZ VISÍVEL PREPARADO A PARTIR DE FERRITITANATO DO TIPO LEPIDOCROCITA ACOPLADO A UM COMPLEXO DE TRANSFERÊNCIA DE CARGA E EMPREGADO NA CONVERSÃO FOTOCATALÍTICA DE UM GÁS POLUENTE

NYDIA MARGARITA HABRAN ESTEBAN

22 May 2018

[pt] O foco do presente estudo é desenvolvimento de uma heteroestrutura de dois semicondutores com capacidade de reduzir a taxa de recombinação elétron/buraco mediante uma intensa separação de carga, e ao mesmo tempo sendo sensível ao espectro de luz visível. A separação de carga estaria sendo alcançada por meio da injeção de elétrons livres dentro da banda de condução (BC) do TiO2 na forma de anatásio, provenientes do orbital molecular mais alto ocupado (HOMO) da acetilacetona (Acac), ligada às partículas de anatásio, seguida da sua injeção dentro dos orbitais d desocupados do Fe3+ localizados dentro da banda de energia proibida das nanofolhas de ferrititanatos. Ao mesmo tempo a absorção da luz visível poderia ser assegurada através das nanofolhas de ferrititanatos, considerando-se a interação dos níveis energéticos do Fe3+ com a luz e as bandas de valência e condução, bem como pela formação de complexo de transferência de carga (CTC), entre as nanopartículas de anatásio e Acac. Os nanohíbridos mesoporosos (as heteroestruturas) são produzidos pelas diferentes rotas de junção de nanofolhas de ferrititanato, obtidas da areia mineral ilmenítica e posteriormente esfoliadas, com nanopartículas de TiO2 modificadas com acetilacetona, estes útlimos formando CTC. As técnicas de caraterização empregadas tais como adsorção-dessorção de N2, espectroscopia de emissão de fotoluminescência (PL) e espectroscopia de refletância difusa (DRS), entre outras, confirmaram a formação das heteroestruturas mesoporosas sensíveis à luz visível e com forte mecanismo de separação de cargas. A fotodegradação do gás poluente NO no espectro de luz-visível por meio de vários nanohíbridos mesoporosos (fotocatalisadores) mostrou-se bem sucedida, exibindo uma eficiência até 7 vezes superior em comparação à atividade do material fotocatalítico padrão TiO2 (P-25 da Degussa). / [en] This work focues on the development of a heterostructure composed by two semiconductors, capable to decrease the electron/hole recombination rate through a robust charge separation, and at the same time, this nanohybrid is sensitive to visible light spectrum. The charge separation is achieved by the injection of free electrons within the conduction band (BC) of TiO2 in anatase form, which come from the highest-occupied-molecular-orbital (HOMO) of acetylacetone (Acac), linked to the anatase nanoparticles, followed by the injection into unoccupied Fe3+ d-orbital within band-gap energy of the ferrititanate nanosheets. Additionally, the absorption of visible light could be assured by ferrititanate nanosheets, considering the interaction of the energy levels of Fe3+ with visible light and the valence and conduction bands, as well as, the formation of the charge transfer complex (CTC), between the anatase nanoparticles and Acac. The mesoporous nanohybrids (called also as heterostructures) were produced by different routes of junction of two components: i) ferrititanate nanosheets, which were synthesized from ilmenite mineral sands, and then they were exfoliated into single layers and ii) TiO2 nanoparticles, modified with Acac, which formed the CTC. The characterization techniques, such as N2 adsorption-desorption, photoluminescence emission spectroscopy (PL) and diffuse reflectance spectroscopy (DRS), and so on, confirmed the formation of the mesoporous heterostructures sensitive to visible light and with a robust mechanism of charge separation. The photodegradation of NO pollutant gas within the visible light spectrum through several mesoporous nanohybrids (photocatalysts) demonstrated being well succeeded, exhibiting an efficiency more than seven times higher than the activity benchmark TiO2 (Degussa P-25) photocatalyst.

[pt] TIO2

[en] TIO2

[pt] ESFOLIACAO

[en] EXFOLIATION

[pt] HETEROESTRUTURAS

[en] HETEROSTRUTURES

[pt] REMEDIACAO AMBIENTAL

[en] ENVIROMENTAL REMEDIATION

[pt] ESTRUTURAS EM CAMADAS

[en] LAYERED CRYSTAL STRUCTURE