Nano-Catalyst Synthesized by Flame Spray Pyrolysis (FSP) for Visible Light Photocatalysis

Inturi, Siva Nagi Reddy

January 2017

No description available.

Chemical Engineering

Visible-Light Photocatalysis

Flame spray Pyrolysis

Doped-Titania

Photodegradation

Volatile Organic Compounds

Secondary Metal Contamination

Design and development of a new generation of UV-visible-light-driven nanosized codoped titanium dioxide photocatalysts and biocides/sporocides, and environmental applications

Hamal, Dambar B.

January 1900

Doctor of Philosophy / Department of Chemistry / Kenneth J. Klabunde / For solar environmental remediation, a new generation of nanosized (< 10 nm) titanium dioxide photocatalysts codoped with metals and nonmetals, or metals only were prepared by the xero-gel and aero-gel methods. For silver or cobalt-based xero-gel titanium dioxide photocatalysts, photoactivities tests revealed that codoping of titanium dioxide with a metal (1% Ag or 2% Co) and nonmetals (carbon and sulfur) is necessary to achieve high-activities for acetaldehyde degradation under visible light (wavelength > 420 nm). It was concluded that high visible-light-activities for acetaldehyde degradation over codoped titanium dioxide were attributed to an interplay of anatase crystallinity, high-surface area, reduced band-gap (< 3.0 eV), uniform dispersion of doped metal ions, and suppressed recombination rate of photogenerated electron-hole pairs. Moreover, the nature and amount of codoped metals play a significant role in visible-light-induced photocatalysis. Metals (Al, Ga, and In) doped/codoped titanium dioxide photocatalysts were prepared by the aero-gel method. The photocatalytic studies showed that activities of metal doped/codoped photocatalysts under UV light (wavelength < 400 nm) were found to be dependent on pollutants. Indium demonstrated beneficial effects in both textural and photocatalytic properties. Gallium and indium codoped titanium dioxide photocatalysts displayed even better performance in the CO oxidation reaction under UV light. Notably, titanium dioxide codoped with Ga, In, and Pt, exhibited unique photoactivities for the CO oxidation under both UV and visible light irradiation, indicating that this system could have promise for the water-gas shift reaction for hydrogen production. Silver-based nanostructured titanium dioxide samples were developed for killing human pathogens (Escherichia coli cells and Bacillus subtilis spores). Biocidal tests revealed that silver, carbon, and sulfur codoped titanium dioxide nanoparticles (< 10 nm) possess very strong antimicrobial actions on both E. coli (logarithmic kill > 8) and B. subtilis spores (logarithmic kill > 5) for 30 minute exposures in dark conditions compared with Degussa P25. It was believed that the carbon and sulfur codoped titanium dioxide support and Ag species acted synergistically during deactivation of both E. coli and B. subtilis spores. Thus, titanium dioxide codoped with silver, carbon, sulfur can serve as a multifunctional generic biocide and a visible- light-active photocatalyst.

Nanosized Titanium Dioxide

Visible-light-active photocatalyst

Biocide-Sporocide

Codoped Titania

Photooxidation

Environmental applications

Chemistry, Inorganic (0488)

Engineering, Materials Science (0794)

Environmental Sciences (0768)

Visible light communications with single-photon avalanche diodes

Alsolami, Ibrahim

January 2014

This thesis explores the use of single-photon avalanche diodes (SPADs) for visible light communications (VLC). The high sensitivity of SPADs can potentially enhance the performance of VLC receivers. However, a SPAD-based system has challenges that need to be addressed before it can be considered as a viable option for VLC. The first challenge is the susceptibility of SPAD-based receivers to variations in ambient light. The high sensitivity of SPADs is advantageous for signal detection, but also makes SPADs vulnerable to variations in ambient light. In this thesis, the performance of a SPAD-based receiver is investigated under changing lighting conditions. Analytical expressions to quantify performance are derived, and an experiment is conducted to gain further understanding of system performance. It is shown that a SPAD-based receiver is highly sensitive to illumination changes when on-off keying (OOK) is employed, and that pulse-position modulation (PPM) is a preferred modulation scheme as it is more robust. The second challenge is broadcasting to SPAD-based receivers with different capabilities. A traditional broadcasting scheme is time-sharing, whereby a transmitter sends data to receivers in an alternating manner. Broadcasting to SPAD-based receivers is challenging as receivers may have diverse capabilities. In this thesis, a new multiresolution modulation scheme is proposed, which can potentially improve system performance over the traditional timesharing approach. The performance of the proposed scheme is analyzed, and a proof-of-concept experiment is performed to demonstrate its viability.

621.382

Photocatalytic oxidation of volatile organic compounds for indoor air applications

Bayless, Lynette Vera

January 1900

Master of Science / Department of Chemical Engineering / Larry E. Erickson / Photocatalytic oxidation (PCO) is a promising and emerging technique in controlling indoor air contaminants, including volatile organic compounds (VOCs). It has broad air cleaning and deodorization applications in indoor environments ranging from residential and office buildings to healthcare and nursing facilities as well as spacecrafts, aircraft cabins and clean rooms in the agricultural and food industry. Numerous studies have been conducted to improve the effectiveness and performance of this technology. These include development of new configurations, energy-efficient catalysts and other parameters to control the process. However, only limited research has been conducted under realistic indoor environmental conditions. One of the most recent developments in photocatalysis is the synthesis of 2% C- and V-doped TiO[subscript]2, which is active under both dark and visible light conditions. However, like most research conducted in photocatalysis, the study on the reactivity of this catalyst has been performed only under laboratory conditions. This study investigated the possible application of the novel C and V co-doped TiO[subscript]2 in cleaning indoor air. Mathematical modeling and simulation techniques were employed to assess the potential use of some of the promising systems that utilize the catalyst (i.e., packed bed and thin films) as well as the effect of mass transfer limitations in the degradation of acetaldehyde, one of the VOCs that can be found in offices, residential buildings and other facilities.

Indoor air cleaning

Modeling and simulation

Photocatalytic oxidation

Rate limitations

Visible light active

Volatile organic compounds

Engineering, Chemical (0542)

Engineering, Environmental (0775)

Environmental Sciences (0768)

Infrared and visible wireless optical technology for body sensor connectivity / Technologie optique sans fil infrarouge et visible pour la connectivité de capteurs corporels

Hoang, Thai Bang

11 July 2019

Cette thèse est axée sur le domaine de la communication optique sans fil en intérieur pour la surveillance de la santé basée sur des capteurs corporels. L’état de l'art des communications optique sans fil dans les domaines infrarouge, visible et UV ainsi que l'analyse des systèmes liés à la santé utilisant cette technologie ont été fournis. Cela a permis de définir les objectifs et l'orientation de cette thèse. Nous avons étudié l'utilisation de la technologie infrarouge pour la transmission de données entre un capteur porté par un patient et des récepteurs situés aux coins d'un panneau d'éclairage central au plafond de l'environnement. Un lien en visible a été utilisé pour la transmission de données du luminaire vers le patient portant un smartphone équipé d'un décodeur. Les principaux défis étaient la robustesse des liens infrarouge et visible en ce qui concerne la mobilité du patient et l'impact du corps de l'utilisateur en raison de l'emplacement du capteur. Les simulations de canaux réalisées grâce à la technique de Ray-Tracing associée à la méthode de Monte-Carlo ont permis de déterminer le gain de canal qui est le paramètre principal représentant la performance. En raison de la mobilité du patient, l'analyse a été réalisée de manière statistique et en tenant compte de différents emplacements du capteur sur le corps, de la cheville à l'épaule. Les paramètres physiques et géométriques optimaux relatifs aux émetteurs et aux récepteurs afin de garantir les meilleures performances ont été déduites. Il a été démontré qu’il est essentiel de modéliser la présence du corps pour les deux liaisons montante et descendante. Les performances globales du système ont mis en évidence le potentiel des transmissions sans fil entièrement optiques pour la surveillance médicale basée sur des capteurs corporels. Cela a été en partie confirmé par des expérimentations menées à partir de prototypes de capteur communicant en infrarouge et de produits commerciaux pour la liaison en visible. / This thesis is focused on the field of indoor optical wireless communication for health monitoring based on body sensors. The state of the art of optical wireless in the infrared, visible and UV domains as well as the analysis of health related systems using this technology have been provided. This helped to define the objectives and orientations of this thesis. We have studied the use of infrared technology for data transmission between a sensor worn by a patient and receivers located at the corners of a central lighting panel at the ceiling of the environment. A link in visible was used for the transmission of data from the luminaire to the patient carrying a smartphone equipped with a decoder. The main challenges were the robustness of the infrared and visible links with regard to patient mobility and the impact of the user's body due to the location of the sensor. The channel simulations performed using the Ray-Tracing technique associated with the Monte-Carlo method allowed determining the channel gain, which is the main parameter representing the performance. Due to the patient mobility, the analysis was performed statistically and taking into account different locations of the sensor on the body, from the ankle to the shoulder. The optimal physical and geometrical parameters for transmitters and receivers to ensure the best performance have been deduced. It has been shown that it is essential to model the presence of the body for both uplink and downlink. The overall performance of the system has highlighted the potential of fully optical wireless transmissions for medical surveillance based on body sensors. This has been partly confirmed by experiments carried out from infrared communicating sensor prototypes and commercial products for the visible link.

Communication optique sans fil

Infrarouge

Visible

Surveillance en santé

Capteur corporel

Optical wireless communication

Infrared

Visible Light communication

Healthcare monitoring

Body sensor

621.382 7

Investigação de reações fotoinduzidas sob luz visível em filmes mesoporosos de TiO2 puros e modificados com nanopartículas de ouro via espectrometria de massas / Investigation of photoinduced reactions under visible light in pure mesoporous TiO2 films and modified with gold nanoparticles via mass spectrometry

Souza, Diego Holanda Pereira de

18 October 2018

A titânia (TiO2) é um material amplamente estudado devido ao seu baixo teor de toxicidade, alta disponibilidade e por apresentar propriedades que permitem ser utilizado em uma variedade de aplicações fotocatalíticas. Sua atividade fotocatalítica frente à degradação de poluentes orgânicos, por exemplo, pode ser melhorada quando se prepara uma mistura de fases desse material, como o TiO2 P-25 apresenta. Entretanto, seu elevado valor de band gap lhe permite ser utilizado apenas quando incidido com radiação eletromagnética de alta energia (&#955;< 390 nm). O presente trabalho demonstra que quando TiO2 P-25 é sintetizado em forma de filmes mesoporosos, seu band gap é reduzido e passa a apresentar atividade fotocatalítica sob incidência de luz visível. Essa redução é atribuída ao tratamento térmico que é aplicado no processo de preparo do material. Para comprovar sua atividade na ausência de radiação UV, um estudo foi conduzido a partir da análise da taxa de fotodegradação das moléculas 2-naftol, alaranjado de metila e 2,4,6-trimercapto- 1,3,5-triazina por espectrometria de massas utilizando o composto hexafluorofosfato de amônio como padrão interno. A metodologia desenvolvida pode também ser aplicada para conduzir outros ensaios semi-quantitativos por espectrometria de massas. Foi observado que os filmes de TiO2 promovem fodo-oxidação de 2-naftol sob incidência de luz visível e na presença de gás oxigênio após 6 horas de reação. A fotodegradação do alaranjado de metila e do 2,4,6-trimercapto-1,3,5-triazina também foi confirmada, entretanto em uma taxa mais lenta. O processo também foi observado pela identificação de um subproduto da foto-oxidação do alaranjado de metila no espectro de massas e a partir do decaimento do seu pico de absorção em 468 nm por espectrofotometria no UV-Vis. Foi observado também que a titânia pode ter sua atividade fotocatalítica reduzida ao elevar o pH do meio. Além disso, foram produzidos filmes de titânia modificados com nanopartículas de ouro a partir da utilização de ácido tioglicólico como mediador e por drop casting. Os dois métodosformaram filmes homogêneos de nanopartículas de ouro sobre o TiO2, e estes foram utilizados nos ensaios fotocatalíticos. Entretanto, a presença do metal prejudicou a eficiência fotocatalítica da titânia inibindo sua atividade quando excitada com luz visível. Dessa forma, filmes puros de TiO2 P-25, além de ativos sob incidência de uma faixa espectral mais ampla da radiação solar, apresentam a vantagem de funcionarem como catalisadores heterogêneos de reações de fotodegradação de moléculas orgânicas podendo ser facilmente removidos do meio reacional ao final do processo. / Titania (TiO2) is a widely studied material due to its low toxicity, high availability and to have properties that allow it to be used in a variety of photocatalytic applications. Its photocatalytic activity against the degradation of organic contaminants, for instance, can be even improved when preparing a mixture of phases of this material, as TiO2 P- 25 presents. However, its high band gap allows it to be used only when affected by high energy electromagnetic radiation (&#955;< 390 nm). The present work demonstrates that when TiO2 P-25 is synthesized in the form of mesoporous films, its band gap is reduced, and it starts to present photocatalytic activity under visible light. This reduction is attributed to the heat treatment that is applied during the preparation process of the material. In order to verify its activity in the absence of UV radiation, a study was conducted based on the analysis of the photodegradation rate of 2-naphthol, methyl orange and 2,4,6-trimercapto-1,3,5-triazine molecules by mass spectrometry using the compound ammonium hexafluorophosphate as an internal standard. The developed methodology can also be applied to conduct other semiquantitative assays via mass spectrometry. It was observed that TiO2 films induced 2-naphthol photooxidation under visible light and in the presence of oxygen gas after 6 hours of reaction. Photodegradation of methyl orange and 2,4,6-trimercapto-1,3,5-triazine was also confirmed, yet at a slower rate. The process was also observed by the identification of a methyl orange photooxidation by-product in the mass spectrum and from the decay of its absorption peak at 468 nm by UV-Vis spectrophotometry. It was also observed that titania may have its photocatalytic activity reduced by raising the pH of the medium. Furthermore, it was also produced titania films modified with gold nanoparticles through use of thioglycolic acid as a mediator and by drop casting method. Both techniques formed homogeneous films of gold nanoparticles over TiO2, and their photocatalytic activity were also evaluated. Nevertheless, the presence of the metal impaired the photocatalytic efficiency of titania by inhibiting its activity when excited by visible light. All in all, pure TiO2 P-25 films work under incidence of a wider range of the solar spectrum and has also the advantage of functioning as heterogeneous catalysts for photodegradation reactions of organic molecules and can be easily removed from the reaction medium at the end of the process.

Espectrometria de massas

Fotocatálise

Luz visível

Mass spectrometry

Photocatalysis

Semi-quantitativo

Semiquantitative

TiO2 P-25

TiO2 P-25

Titania

Titânia

Visible light

Investigação de reações fotoinduzidas sob luz visível em filmes mesoporosos de TiO2 puros e modificados com nanopartículas de ouro via espectrometria de massas / Investigation of photoinduced reactions under visible light in pure mesoporous TiO2 films and modified with gold nanoparticles via mass spectrometry

Diego Holanda Pereira de Souza

18 October 2018

A titânia (TiO2) é um material amplamente estudado devido ao seu baixo teor de toxicidade, alta disponibilidade e por apresentar propriedades que permitem ser utilizado em uma variedade de aplicações fotocatalíticas. Sua atividade fotocatalítica frente à degradação de poluentes orgânicos, por exemplo, pode ser melhorada quando se prepara uma mistura de fases desse material, como o TiO2 P-25 apresenta. Entretanto, seu elevado valor de band gap lhe permite ser utilizado apenas quando incidido com radiação eletromagnética de alta energia (&#955;< 390 nm). O presente trabalho demonstra que quando TiO2 P-25 é sintetizado em forma de filmes mesoporosos, seu band gap é reduzido e passa a apresentar atividade fotocatalítica sob incidência de luz visível. Essa redução é atribuída ao tratamento térmico que é aplicado no processo de preparo do material. Para comprovar sua atividade na ausência de radiação UV, um estudo foi conduzido a partir da análise da taxa de fotodegradação das moléculas 2-naftol, alaranjado de metila e 2,4,6-trimercapto- 1,3,5-triazina por espectrometria de massas utilizando o composto hexafluorofosfato de amônio como padrão interno. A metodologia desenvolvida pode também ser aplicada para conduzir outros ensaios semi-quantitativos por espectrometria de massas. Foi observado que os filmes de TiO2 promovem fodo-oxidação de 2-naftol sob incidência de luz visível e na presença de gás oxigênio após 6 horas de reação. A fotodegradação do alaranjado de metila e do 2,4,6-trimercapto-1,3,5-triazina também foi confirmada, entretanto em uma taxa mais lenta. O processo também foi observado pela identificação de um subproduto da foto-oxidação do alaranjado de metila no espectro de massas e a partir do decaimento do seu pico de absorção em 468 nm por espectrofotometria no UV-Vis. Foi observado também que a titânia pode ter sua atividade fotocatalítica reduzida ao elevar o pH do meio. Além disso, foram produzidos filmes de titânia modificados com nanopartículas de ouro a partir da utilização de ácido tioglicólico como mediador e por drop casting. Os dois métodosformaram filmes homogêneos de nanopartículas de ouro sobre o TiO2, e estes foram utilizados nos ensaios fotocatalíticos. Entretanto, a presença do metal prejudicou a eficiência fotocatalítica da titânia inibindo sua atividade quando excitada com luz visível. Dessa forma, filmes puros de TiO2 P-25, além de ativos sob incidência de uma faixa espectral mais ampla da radiação solar, apresentam a vantagem de funcionarem como catalisadores heterogêneos de reações de fotodegradação de moléculas orgânicas podendo ser facilmente removidos do meio reacional ao final do processo. / Titania (TiO2) is a widely studied material due to its low toxicity, high availability and to have properties that allow it to be used in a variety of photocatalytic applications. Its photocatalytic activity against the degradation of organic contaminants, for instance, can be even improved when preparing a mixture of phases of this material, as TiO2 P- 25 presents. However, its high band gap allows it to be used only when affected by high energy electromagnetic radiation (&#955;< 390 nm). The present work demonstrates that when TiO2 P-25 is synthesized in the form of mesoporous films, its band gap is reduced, and it starts to present photocatalytic activity under visible light. This reduction is attributed to the heat treatment that is applied during the preparation process of the material. In order to verify its activity in the absence of UV radiation, a study was conducted based on the analysis of the photodegradation rate of 2-naphthol, methyl orange and 2,4,6-trimercapto-1,3,5-triazine molecules by mass spectrometry using the compound ammonium hexafluorophosphate as an internal standard. The developed methodology can also be applied to conduct other semiquantitative assays via mass spectrometry. It was observed that TiO2 films induced 2-naphthol photooxidation under visible light and in the presence of oxygen gas after 6 hours of reaction. Photodegradation of methyl orange and 2,4,6-trimercapto-1,3,5-triazine was also confirmed, yet at a slower rate. The process was also observed by the identification of a methyl orange photooxidation by-product in the mass spectrum and from the decay of its absorption peak at 468 nm by UV-Vis spectrophotometry. It was also observed that titania may have its photocatalytic activity reduced by raising the pH of the medium. Furthermore, it was also produced titania films modified with gold nanoparticles through use of thioglycolic acid as a mediator and by drop casting method. Both techniques formed homogeneous films of gold nanoparticles over TiO2, and their photocatalytic activity were also evaluated. Nevertheless, the presence of the metal impaired the photocatalytic efficiency of titania by inhibiting its activity when excited by visible light. All in all, pure TiO2 P-25 films work under incidence of a wider range of the solar spectrum and has also the advantage of functioning as heterogeneous catalysts for photodegradation reactions of organic molecules and can be easily removed from the reaction medium at the end of the process.

Espectrometria de massas

Fotocatálise

Luz visível

Semi-quantitativo

TiO2 P-25

Titânia

Mass spectrometry

Photocatalysis

Semiquantitative

TiO2 P-25

Titania

Visible light

Optical MIMO communication systems under illumination constraints

Butala, Pankil Mukund

08 April 2016

Technology for wireless information access has enabled innovation of 'smart' portable consumer devices. These have been widely adopted and have become an integral part of our daily lives. They need ubiquitous connectivity to the internet to provide value added services, maximize their functionality and create a smarter world to live in. Cisco's visual networking index currently predicts wireless data consumption to increase by 61% per year. This will put additional stress on the already stressed wireless access network infrastructure creating a phenomenon called 'spectrum crunch'. At the same time, the solid state devices industry has made remarkable advances in energy efficient light-emitting-diodes (LED). The lighting industry is rapidly adopting LEDs to provide illumination in indoor spaces. Lighting fixtures are positioned to support human activities and thus are well located to act as wireless access points. The visible spectrum (380 nm - 780 nm) is yet unregulated and untapped for wireless access. This provides unique opportunity to upgrade existing lighting infrastructure and create a dense grid of small cells by using this additional 'optical' wireless bandwidth. Under the above model, lighting fixtures will service dual missions of illumination and access points for optical wireless communication (OWC). This dissertation investigates multiple-input multiple-output (MIMO) optical wireless broadcast system under unique constraints imposed by the optical channel and illumination requirements. Sample indexed spatial orthogonal frequency division multiplexing (SIS-OFDM) and metameric modulation (MM) are proposed to achieve higher spectral efficiency by exploiting dimensions of space and color respectively in addition to time and frequency. SIS-OFDM can provide significant additional spectral efficiency of up to (Nsc/2 - 1) x k bits/sym where Nsc is total number of subcarriers and k is number of bits per underlying spatial modulation symbol. MM always generates the true requested illumination color and has the potential to provide better color rendering by incorporating multiple LEDs. A normalization framework is then developed to analyze performance of optical MIMO imaging systems. Performance improvements of up to 45 dB for optical systems have been achieved by decorrelating spatially separate links by incorporating an imaging receiver. The dissertation also studies the impact of visual perception on performance of color shift keying as specified in IEEE 802.15.7 standard. It shows that non-linearity for a practical system can have a performance penalty of up to 15 dB when compared to the simplified linear system abstraction as proposed in the standard. Luminous-signal-to-noise ratio, a novel metric is introduced to compare performance of optical modulation techniques operating at same illumination intensity. The dissertation then introduces singular value decomposition based OWC system architecture to incorporate illumination constraints independent of communication constraints in a MIMO system. It then studies design paradigm for a multi-colored wavelength division multiplexed indoor OWC system.

Electrical engineering

Free space communication (FSC)

Imaging receiver

Multiple input multiple output (MIMO)

Optical wireless communication (OWC)

Visible light communication (VLC)

Detecção fotoeletroanalítica de adrenalina baseada em DNA e nanopartículas de TiO2 sensibilizadas com Bis (Etilenoditio) tetratiofulvaleno explorando luz de led / Photoelectroanalytical detection of adrenaline based on DNA and TiO2 nanoparticles sensitized with Bis (Ethylene Dithio) tetrathiofulvalene by exploring led light

SANTOS, Thiago Augusto Dias

11 September 2017

Submitted by Rosivalda Pereira (mrs.pereira@ufma.br) on 2017-10-02T20:17:04Z No. of bitstreams: 1 ThiagoSantos.pdf: 1103502 bytes, checksum: 16ad7405a0ab31d83423293c43110ee8 (MD5) / Made available in DSpace on 2017-10-02T20:17:04Z (GMT). No. of bitstreams: 1 ThiagoSantos.pdf: 1103502 bytes, checksum: 16ad7405a0ab31d83423293c43110ee8 (MD5) Previous issue date: 2017-09-11 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Fundação de Amparo à Pesquisa e ao Desenvolvimento Científico e Tecnológico do Maranhão / Instituto Nacional de Ciência e Tecnologia em Bioanalítica / A photoelectroanalytical sensor was developed, based on deoxyribonucleic acid (DNA) and anatase titanium dioxide (TiO2) nanoparticles sensitized with bis(ethylenedithio)tetrathiofulvalene (BEDT-TTF) for determination of the adrenaline, also denominated as epinephrine. The photosensor composite developed was denominated as BEDT-TTF/DNA/TiO2/ITO and shows a high photocurrent for the adrenaline under light emitting diode (LED) irradiation in comparison to each component of the composite material. Under optimized conditions, the BEDTTTF/DNA/TiO2/ITO sensor shows a linear response range from 10 nmol L-1 up to 100 μmol L-1 with a sensitivity of 8,1 nA L μmol-1 and limit of detection of 1 nmol L-1 for the adrenaline. The photoelectrochemical sensor showed high photocurrent to adrenaline in comparison to photocurrent response to ascorbic acid and uric acid. The BEDT-TTF/DNA/TiO2/ITO photoelectrochemical sensor was successfully applied to urine samples, with recovery values between 96 and 106%. / Um sensor fotoeletroanalítico foi desenvolvido, baseado em ácido desoxirribonucleico (DNA) e nanopartículas de dióxido de titânio anatase (TiO2) sensibilizadas com bis(etilenoditio)tetratiofulvaleno (BEDT-TTF) para a determinação de adrenalina, também denominada como epinefrina. O fotossensor compósito desenvolvido foi denominado como BEDT-TTF/DNA/TiO2/ITO e exibiu uma elevada fotocorrente para a adrenalina sob a irradiação do diodo emissor de luz (LED) em comparação com cada componente do material compósito. Sob condições otimizadas, o sensor BEDT-TTF/DNA/TiO2/ITO exibiu um intervalo de resposta linear de 10 nmol L-1 para 100 μmol L-1 com uma sensibilidade de 8,1 nA L μmol-1 e limite de detecção de 1 nmol L-1 para a adrenalina. O sensor fotoeletroquímico mostrou elevada fotocorrente para a adrenalina em comparação com a resposta de fotocorrente para ácido ascórbico e ácido úrico. O fotossensor BEDTTTF/DNA/TiO2/ITO foi aplicado com sucesso em amostras de urina, com valores de recuperação entre 96 e 106%.

Adrenalina

Sensor fotoeletroquímico

Diodo emissor de luz (LED) visível

Ácido desoxirribonucleico

Adrenaline

Photoelectrochemical sensor

Visible light emitting diode (LED

Deoxyribonucleic acid

Química Analítica

Platinum@Hexaniobate Nanopeapods: Sensitized Composite Architectures for Photocatalytic Hydrogen Evolution Under Visible Light Irradiation

Davis-Wheeler Chin, Clare

06 August 2018

Hydrogen fuel is one of the most important areas of research in the field of renewable energy development and production. Hydrogen gas can be generated by fuel cells, water electrolyzers, and heterogeneous nanoscale catalysts. It can be burned to directly release chemical energy or condensed for storage and transport, providing fuel for combustion devices or storing excess energy generated by renewable sources such as wind turbines and concentrated solar power assemblies. While platinum is the most active catalyst for hydrogen reduction, its high cost significantly deters its utilization in advanced photocatalytic materials. One approach to mitigating this expense is optimizing the morphology and placement of nanostructured platinum catalysts. Highly crystalline, morphologically-controlled platinum nanoparticles (Pt NPs) have been effectively utilized to increase hydrogen generation efficiency in a variety of nanocomposite materials. However, synthesis routes to high-quality Pt NPs can be dangerous and difficult to replicate. Furthermore, utilization of the Pt NPs in nanocomposite materials is hindered by lack of control over catalyst placement. Nanopeapods are versatile nanocomposites that offer a high degree of control over catalyst placement as well as the potential for interesting new properties arising from the interaction between the catalyst and a semiconductor. Platinum@hexaniobate nanopeapods (Pt@HNB NPPs) consist of linear arrays of Pt NPs encapsulated within the scrolled semiconductor hexaniobate. Pt@HNB NPPs offer significant advantages over similar composites by utilizing the isolated reduction environment of the encapsulated Pt NP arrays to decrease kinetic competition and surface crowding. This work describes the design, fabrication, and implementation of the new nanocomposite platinum@hexaniobate nanopeapods for sensitized hydrogen production under visible light irradiation. The following chapters present facile microwave heating syntheses of highly crystalline Pt nanocubes and Pt@HNB NPPs with consistent morphology and high catalyst loading. A detailed study is also presented of the optical properties of the Pt nanocubes, which produced a UV-range absorbance band that indicates the formation of a localized surface plasmon resonance. Most significantly, preliminary results from visible light photolysis indicate that sensitized Pt@HNB NPPs produce hydrogen in quantities comparable to published systems, and that alteration of experimental parameters may result in even greater yields.

photocatalytic hydrogen generation

photocatalytic nanocomposites

highly crystalline platinum nanocubes

visible light photolysis

microwave synthesis

Inorganic Chemistry

Materials Chemistry