Your search keyword '"Rocco, Maria Luiza M."' showing total 71 results

51. Effects of the large distribution of CdS quantum dot sizes on the charge transfer interactions into TiO2 nanotubes for photocatalytic hydrogen generation

Author

Gonzalez-Moya, Johan R., Garcia-Basabe, Yunier, Rocco, Maria Luiza M., Pereira, Marcelo B., Princival, Jefferson L., Almeida, Luciano C., Araujo, Carlos M., David, Denis G. F., da Silva, Antonio Ferreira, Machado, Giovanna, Gonzalez-Moya, Johan R., Garcia-Basabe, Yunier, Rocco, Maria Luiza M., Pereira, Marcelo B., Princival, Jefferson L., Almeida, Luciano C., Araujo, Carlos M., David, Denis G. F., da Silva, Antonio Ferreira, and Machado, Giovanna

Abstract

Hydrogen fuels generated by water splitting using a photocatalyst and solar irradiation are currently gaining the strength to diversify the world energy matrix in a green way. CdS quantum dots have revealed a hydrogen generation improvement when added to TiO2 materials under visible-light irradiation. In the present paper, we investigated the performance of TiO2 nanotubes coupled with CdS quantum dots, by a molecular bifunctional linker, on photocatalytic hydrogen generation. TiO2 nanotubes were obtained by anodization of Ti foil, followed by annealing to crystallize the nanotubes into the anatase phase. Afterwards, the samples were sensitized with CdS quantum dots via an in situ hydrothermal route using 3-mercaptopropionic acid as the capping agent. This sensitization technique permits high loading and uniform distribution of CdS quantum dots onto TiO2 nanotubes. The XPS depth profile showed that CdS concentration remains almost unchanged (homogeneous), while the concentration relative to the sulfate anion decreases by more than 80% with respect to the initial value after similar to 100 nm in depth. The presence of sulfate anions is due to the oxidation of sulfide and occurs in greater proportion in the material surface. This protection for air oxidation inside the nanotubular matrix seemingly protected the CdS for photocorrosion in sacrificial solution leading to good stability properties proved by long duration, stable photocurrent measurements. The effect of the size and the distribution of sizes of CdS quantum dots attached to TiO2 nanotubes on the photocatalytic hydrogen generation were investigated. The experimental results showed three different behaviors when the reaction time of CdS synthesis was increased in the sensitized samples, i.e. similar, deactivation and activation effects on the hydrogen production with regard to TiO2 nanotubes. The deactivation effect was related to two populations of sizes of CdS, where the population with a shorter band gap ac

Published

2016

52. Effects of the large distribution of CdS quantum dot sizes on the charge transfer interactions into TiO2 nanotubes for photocatalytic hydrogen generation

Author

González-Moya, Johan R, Garcia-Basabe, Yunier, Rocco, Maria Luiza M, Pereira, Marcelo B, Princival, Jefferson L, Almeida, Luciano C, Araujo, C Moyses, David, Denis G F, da Silva, Antonio Ferreira, Machado,, Giovanna, González-Moya, Johan R, Garcia-Basabe, Yunier, Rocco, Maria Luiza M, Pereira, Marcelo B, Princival, Jefferson L, Almeida, Luciano C, Araujo, C Moyses, David, Denis G F, da Silva, Antonio Ferreira, and Machado,, Giovanna

Abstract

Hydrogen fuels generated by water splitting using a photocatalyst and solar irradiation are currently gaining the strength to diversify the world energy matrix in a green way. CdS quantum dots have revealed a hydrogen generation improvement when added to TiO2 materials under visible-light irradiation. In the present paper, we investigated the performance of TiO2 nanotubes coupled with CdS quantum dots, by a molecular bifunctional linker, on photocatalytic hydrogen generation. TiO2 nanotubes were obtained by anodization of Ti foil, followed by annealing to crystallize the nanotubes into the anatase phase. Afterwards, the samples were sensitized with CdS quantum dots via an in situ hydrothermal route using 3-mercaptopropionic acid as the capping agent. This sensitization technique permits high loading and uniform distribution of CdS quantum dots onto TiO2 nanotubes. The XPS depth profile showed that CdS concentration remains almost unchanged (homogeneous), while the concentration relative to the sulfate anion decreases by more than 80% with respect to the initial value after ~100 nm in depth. The presence of sulfate anions is due to the oxidation of sulfide and occurs in greater proportion in the material surface. This protection for air oxidation inside the nanotubular matrix seemingly protected the CdS for photocorrosion in sacrificial solution leading to good stability properties proved by long duration, stable photocurrent measurements. The effect of the size and the distribution of sizes of CdS quantum dots attached to TiO2 nanotubes on the photocatalytic hydrogen generation were investigated. The experimental results showed three different behaviors when the reaction time of CdS synthesis was increased in the sensitized samples, i.e. similar, deactivation and activation effects on the hydrogen production with regard to TiO2 nanotubes. The deactivation effect was related to two populations of sizes of CdS, where the population with a shorter band gap acts as a tr

Published

2016

53. Electronic and structural properties in thermally annealed PSiF-DBT:PC71BM blends for organic photovoltaics

Author

Borges, Bruno G.A.L., primary, Marchiori, Cleber F.N., additional, Glaser, Mathias, additional, Garcia-Basabe, Yunier, additional, de Moura, Carlos E.V., additional, Rocha, Alexandre B., additional, Roman, Lucimara S., additional, Chassé, Thomas, additional, Casu, Maria Benedetta, additional, and Rocco, Maria Luiza M., additional

Published

2016

54. Effects of the large distribution of CdS quantum dot sizes on the charge transfer interactions into TiO2nanotubes for photocatalytic hydrogen generation

Author

González-Moya, Johan R, primary, Garcia-Basabe, Yunier, additional, Rocco, Maria Luiza M, additional, Pereira, Marcelo B, additional, Princival, Jefferson L, additional, Almeida, Luciano C, additional, Araújo, Carlos M, additional, David, Denis G F, additional, da Silva, Antonio Ferreira, additional, and Machado, Giovanna, additional

Published

2016

55. Island shape and electronic structure in diindenoperylene thin films deposited on Au(110) single crystals

Author

Ciccullo, Francesca, primary, Savu, Sabine A., additional, Glaser, Mathias, additional, Rocco, Maria Luiza M., additional, Chassé, Thomas, additional, and Casu, M. Benedetta, additional

Published

2016

56. The effect of thermal annealing on the charge transfer dynamics of a donor–acceptor copolymer and fullerene: F8T2 and F8T2:PCBM

Author

Garcia-Basabe, Yunier, primary, Yamamoto, Natasha A. D., additional, Roman, Lucimara S., additional, and Rocco, Maria Luiza M., additional

Published

2015

57. Electronic structure and ultrafast charge transfer dynamics of phosphorous doped graphene layers on a copper substrate: a combined spectroscopic study

Author

Larrude, Dunieskys Gonzalez, primary, Garcia-Basabe, Yunier, additional, Freire Junior, Fernando Lázaro, additional, and Rocco, Maria Luiza M., additional

Published

2015

58. Fragmentation and Ion Desorption from Condensed Pyrimidine by Electron Impact: Implications for Cometary and Interstellar Heterocyclic Chemistry

Author

Ribeiro, Fabio de A., primary, Almeida, Guilherme C., additional, Wolff, Wania, additional, Boechat-Roberty, Heloisa M., additional, and Rocco, Maria Luiza M., additional

Published

2014

59. Charge Transfer Dynamics and Molecular Orientation Probed by Core Electron Spectroscopies on thermal-annealed Polysilafluorene Derivative: Experimental and Theoretical Approaches

Author

Garcia-Basabe, Yunier, primary, Marchiori, Cleber F. N., additional, de Moura, Carlos E. V., additional, Rocha, Alexandre B., additional, Roman, Lucimara S., additional, and Rocco, Maria Luiza M., additional

Published

2014

60. Photodesorption and Photostability of Acetone Ices: Relevance to Solid Phase Astrochemistry

Author

Almeida, Guilherme C., primary, Pilling, Sérgio, additional, Andrade, Diana P. P., additional, Castro, Nathany Lisbôa S., additional, Mendoza, Edgar, additional, Boechat-Roberty, Heloísa M., additional, and Rocco, Maria Luiza M., additional

Published

2014

61. Organic-Inorganic Behavior of Plasma-Polymerized Hexamethyldisiloxane Films Studied by Electron and Photon Induced Ion Desorption

Author

Veiga, Amanda G., primary, Garcia-Basabe, Yunier, additional, Schmittgens, Ralph, additional, and Rocco, Maria Luiza M., additional

Published

2013

62. Desorption from Methanol and Ethanol Ices by High Energy Electrons: Relevance to Astrochemical Models

Author

Almeida, Guilherme C., primary, Andrade, Diana P. P., additional, Arantes, C., additional, Nazareth, Andressa M., additional, Boechat-Roberty, Heloisa M., additional, and Rocco, Maria Luiza M., additional

Published

2012

63. Theoretical Investigation on the Stability of Negatively Charged Formic Acid Clusters

Author

Baptista, Leonardo, primary, Andrade, Diana P. P., additional, Rocha, Alexandre B., additional, Rocco, Maria Luiza M., additional, Boechat-Roberty, Heloisa Maria, additional, and Silveira, Enio Frota da, additional

Published

2010

64. Theoretical Investigation on the Stability of Ionic Formic Acid Clusters

Author

Baptista, Leonardo, primary, Andrade, Diana P. P., additional, Rocha, Alexandre Braga, additional, Rocco, Maria Luiza M., additional, Boechat-Roberty, Heloisa Maria, additional, da Silveira, Enio F., additional, da Silva, Edílson Clemente, additional, and Arbilla, Graciela, additional

Published

2008

65. Dessorção iônica e degradação de filmes de polipirrol dopado com dodecilsulfato induzidas por elétrons de alta energia

Author

Arantes, Caroline, primary, Rocco, Maria Luiza M., additional, Cruz, Antonio Gerson Bernardo da, additional, and Rocco, Ana Maria, additional

Published

2008

66. Photon stimulated ion desorption of condensed CO2 at ~ 85 K studied by synchrotron radiation

Author

Mota, Gunar V. S., primary, Weibel, Daniel E., additional, Araújo, Geovane S., additional, and Rocco, Maria Luiza M., additional

Published

2006

67. Configuration interaction simulation of the NEXAFS photoabsorption spectrum of naphthalene

Author

Hollauer, Eduardo, primary, Prucole, Elísia dos Santos, additional, Rocco, Maria Luiza M., additional, Netto, Annibal D. Pereira, additional, Schöll, Achim, additional, and Fink, Rainer, additional

Published

2005

68. Additive Driven Increase in Donor-Acceptor Copolymer Coupling Studied by X-ray Resonant Photoemission

Author

Maria Luiza M. Rocco, Gregor Kladnik, Alexandre B. Rocha, Carlos E. V. de Moura, Alberto Morgante, Yunier Garcia-Basabe, Dean Cvetko, Luca Floreano, Lucimara S. Roman, Cleber F. N. Marchiori, Garcia-Basabe, Yunier, Kladnik, Gregor, Marchiori, Cleber F. N., De Moura, Carlos E. V., Floreano, Luca, Rocha, Alexandre B., Roman, Lucimara S., Morgante, Alberto, Cvetko, Dean, and Rocco, Maria Luiza M.

Subjects

Materials science, Organic solar cell, 02 engineering and technology, Electron, 010402 general chemistry, Photochemistry, 01 natural sciences, Molecular physics, Delocalized electron, ORGANIC SOLAR-CELLS, Molecular orbital, MOLECULAR-ORIENTATION, Physical and Theoretical Chemistry, Spectroscopy, HOMO/LUMO, CHARGE-TRANSFER DYNAMICS, CORE ELECTRON SPECTROSCOPIES, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, General Energy, Excited state, Density functional theory, 0210 nano-technology

Abstract

The role of additives and thermal treatment in the formation of donor–acceptor copolymer organic films of PFO–DBT (poly[2,7-(9,9-dioctylfluorene)-alt-4,7-bis(thiophen-2-yl)benzo-2,1,3-thiadiazole]) with increased transport properties is addressed by resonant Auger photoemission and core-hole clock spectroscopy, which allows an analysis of the competition between the inner shell core-hole lifetime and the motion of photoexcited electrons on a femtosecond time scale. From the branching of the competing core-hole decay channels, we study the delocalization dynamics of excited electrons over empty molecular orbitals. We find evidence of ultrafast charge-carrier transfer from specific orbitals (LUMO+1) and increased coupling in copolymer assemblies when a solvent additive (1,8 diiodooctane) is added and samples are post-treated with thermal annealing. Relative conformational energies and core-hole spectra were calculated by time-dependent density functional theory.

Published

2017

69. 3d transition metal coordination on monolayer MoS 2 : a facile doping method to functionalize surfaces.

Author

Liu H, Silva WC, Santana Gonçalves de Souza L, Veiga AG, Seixas L, Fujisawa K, Kahn E, Zhang T, Zhang F, Yu Z, Thompson K, Lei Y, de Matos CJS, Rocco MLM, Terrones M, and Grasseschi D

Abstract

Two-dimensional materials (2DM) have attracted much interest due to their distinct optical, electronic, and catalytic properties. These properties can be tuned by a range of methods including substitutional doping and, as recently demonstrated, by surface functionalization with single atoms, thus increasing the 2DM portfolio. We theoretically and experimentally describe the coordination reaction between MoS 2 monolayers and 3d transition metals (TMs), exploring their nature and MoS 2 -TM interactions. Density functional theory calculations, X-ray photoelectron spectroscopy (XPS), and photoluminescence (PL) spectroscopy point to the formation of MoS 2 -TM coordination complexes, where the adsorption energy for 3d TMs resembles the crystal-field (CF) stabilization energy for weak-field complexes. Pearson's theory for hard-soft acid-base and ligand-field theory were used to discuss the periodic trends of 3d TM coordination on MoS 2 monolayer surfaces. We found that softer acids with higher ligand field stabilization energy, such as Ni 2+ , tend to form bonds with more covalent character with MoS 2 , which can be considered a soft base. On the other hand, harder acids, such as Cr 3+ , tend to form more ionic bonds. Additionally, we studied the trends in charge transfer and doping observed from XPS and PL results, where metals like Ni led to n-type doping. In contrast, Cu functionalization results in p-type doping. Therefore, the formation of coordination complexes on TMD's surface is a potentially effective way to control and understand the nature of single-atom functionalization of TMD monolayers without relying on or creating new defects.

Published

2022

70. Spectroscopic study of D 1 -A-D 2 -A terpolymer films for optoelectronic applications.

Author

Correa RS, Santos BPS, Ribeiro AC, da Silva LAF, Péan EV, Davies ML, Marques MFV, and Rocco MLM

Abstract

Several strategies have been considered in search of more efficient organic materials for charge transfer in photovoltaic devices. Among them, the integration of donor-acceptor (D-A) functional units on a conjugated copolymer has been widely applied. In this framework, we evaluated four terpolymers made up of donor moieties derived from 9,9-dioctylfluorene and 9-(heptadecan-9-yl)-9 H -carbazole combined with 2,1,3-benzothiadiazole, the acceptor moiety, in different monomer ratios and polymerization routes (block and random microstructures). The preferred molecular orientation and charge transfer dynamics of the polymeric films were assessed by near edge X-ray absorption fine structure spectroscopy (NEXAFS) and resonant Auger electron spectroscopy (RAES) around the sulfur K-edge. Charge transfer times ( τ CT ) were estimated by the Core-Hole Clock (CHC) method. Films with a high degree of organization were identified for the block terpolymer and random terpolymers with uneven amounts of donor units, showing a preferred orientation of the benzothiadiazole (BT) molecular plane parallel to the substrate surface. The values of τ CT measured for all terpolymers were higher than those for typical polymers used in photovoltaic devices, which is not desirable for this type of optoelectronic application, but this may be correlated to the strong acceptor character of BT, the unit probed. To investigate the effect of film formation on the excited state behavior, steady-state and time-resolved photoluminescence measurements were also conducted. X-ray photoelectron spectroscopy (XPS) was employed to characterize the surface chemical composition of the terpolymer films. Based on the spectroscopic data the block copolymer appears to be the most suitable for the desired application.

Published

2022

71. Effects of the large distribution of CdS quantum dot sizes on the charge transfer interactions into TiO2 nanotubes for photocatalytic hydrogen generation.

Author

González-Moya JR, Garcia-Basabe Y, Rocco ML, Pereira MB, Princival JL, Almeida LC, Araújo CM, David DG, da Silva AF, and Machado G

Abstract

Hydrogen fuels generated by water splitting using a photocatalyst and solar irradiation are currently gaining the strength to diversify the world energy matrix in a green way. CdS quantum dots have revealed a hydrogen generation improvement when added to TiO2 materials under visible-light irradiation. In the present paper, we investigated the performance of TiO2 nanotubes coupled with CdS quantum dots, by a molecular bifunctional linker, on photocatalytic hydrogen generation. TiO2 nanotubes were obtained by anodization of Ti foil, followed by annealing to crystallize the nanotubes into the anatase phase. Afterwards, the samples were sensitized with CdS quantum dots via an in situ hydrothermal route using 3-mercaptopropionic acid as the capping agent. This sensitization technique permits high loading and uniform distribution of CdS quantum dots onto TiO2 nanotubes. The XPS depth profile showed that CdS concentration remains almost unchanged (homogeneous), while the concentration relative to the sulfate anion decreases by more than 80% with respect to the initial value after ∼100 nm in depth. The presence of sulfate anions is due to the oxidation of sulfide and occurs in greater proportion in the material surface. This protection for air oxidation inside the nanotubular matrix seemingly protected the CdS for photocorrosion in sacrificial solution leading to good stability properties proved by long duration, stable photocurrent measurements. The effect of the size and the distribution of sizes of CdS quantum dots attached to TiO2 nanotubes on the photocatalytic hydrogen generation were investigated. The experimental results showed three different behaviors when the reaction time of CdS synthesis was increased in the sensitized samples, i.e. similar, deactivation and activation effects on the hydrogen production with regard to TiO2 nanotubes. The deactivation effect was related to two populations of sizes of CdS, where the population with a shorter band gap acts as a trap for the electrons photogenerated by the population with a larger band gap. Electron transfer from CdS quantum dots to TiO2 semiconductor nanotubes was proven by the results of UPS measurements combined with optical band gap measurements. This property facilitates an improvement of the visible-light hydrogen evolution rate from zero, for TiO2 nanotubes, to approximately 0.3 μmol cm(-2) h(-1) for TiO2 nanotubes sensitized with CdS quantum dots.

Published

2016