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94 results on '"Ryo Nagumo"'

1. Influences of Film Deposition Condition on Friction of Diamond-Like Carbon Film: A Theoretical Investigation

Author

Tasuku Onodera, Takanori Kuriaki, Shandan Bai, Ryo Nagumo, Ryuji Miura, Ai Suzuki, Hideyuki Tsuboi, Nozomu Hatakeyama, Akira Endou, Hiromitsu Takaba, Momoji Kubo, and Akira Miyamoto

Subjects
diamond-like carbon, physical vapor deposition, dynamical friction, chemical reaction, molecular dynamics simulation, Physics, QC1-999, Engineering (General). Civil engineering (General), TA1-2040, Mechanical engineering and machinery, TJ1-1570, Chemistry, QD1-999
Abstract

We theoretically investigated influences of film deposition condition on a friction of diamond-like carbon (DLC) film using our developed molecular dynamics method. The method can deal with chemical reactions on the basis of our original stochastic equation. DLC slab model was firstly constructed, and carbon atoms were deposited onto its surface with various kinetic energies (1, 10 and 30 eV) to mimic physical vapor deposition process. Lower sp3 carbon concentration and density were obtained for the 1 eV case and “subplantation” phenomenon was found for each model. The dynamical friction of the deposited DLC film/iron oxide combination was also simulated. The friction coefficient for the deposited film with kinetic energy of 1 eV was much lower than that of 10 and 30 eV cases due to the friction-induced structural change. The simulations provided us an important insight on DLC film preparation to achieve low friction regime.

Published
2010
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2. Experimental study on motion of bubbles in non-Newtonian fluids under pressure oscillating field

Author

Shuichi IWATA, Ayaka MIZUKOSHI, Ryo NAGUMO, and Hideki MORI

Subjects
defoaming, bubble rising velocity, shear-thinning fluids, pressure-oscillating field, rheology, Mechanical engineering and machinery, TJ1-1570, Engineering machinery, tools, and implements, TA213-215
Abstract

The flow interaction between bubbles is known to have an influence on acceleration of the bubbles rising velocity and the bubbles shape under static pressure field. We previously reported that pressure oscillation is effective for enhancing rising velocity of a small bubble in viscous shear-thinning fluid. In the present study, flow interaction between two small bubbles placed in the vertical direction under pressure-oscillating field, which is applied from the bottom side, is investigated experimentally. The three fluid types of different rheological properties, sodium polyacrylate, carboxy-methyl cellulose sodium salt and xanthan gum, are selected and tested. With a help of strobe scope lighting, we successfully monitor trace of the moving bubbles clearly through a high density video camera. Two non-dimensional parameters of each of the bubbles, normal rising velocity of bubble ε and non-dimensional acceleration Gb, are compared for the test fluids. It was found that the rising velocity of the lower bubble is higher than that of the upper bubble; that is strongly enhanced in the case of closer bubbles; and finally the bubbles move together and form a cluster, whereas natural rising velocity of the bubbles without pressure oscillation are the same. In addition, a ratio of distance between the bubbles center L and bubble diameter D and non-dimensional rising velocity ε are compared. After experiment we found that rising velocity of the lower bubble depends on the distance between bubbles and non-dimensional acceleration.

Published
2015
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3. Experimental study of particle concentration under electric field

Author

Shuichi IWATA, Wataru KUBOTA, Masayoshi FUJI, Takashi SHIRAI, Ryo NAGUMO, and Hideki MORI

Subjects
electrophoresis, rheology, fine particle, particle concentration process, recovering particles, Mechanical engineering and machinery, TJ1-1570, Engineering machinery, tools, and implements, TA213-215
Abstract

It is difficult to remove well dispersed fine particles from dilute slurry, because filtration and evaporation process requires a lot of time and energy. Electrophoresis is known as a method of moving fine particles. Therefore, the electrophoresis technique is used to collect fine particles from such slurry as a paste of concentrated fine particles on electrodes. The viscous paste on the electrode is slowly falling down during electrophoresis process, finally drops from the electrode. This may affect recovery rate of the fine particles. In this paper, we studied transport phenomena of 5wt% alumina slurry under electric field for producing the concentrated particles from the alumina slurry. The concentration rate of the particles is evaluated from weight of the concentrated particles. Time-dependent behavior of the concentration rate shows a good agreement with the theoretical approach. Since the alumina slurry is a power-law fluid, we applied shear between electrodes. The concentration rate of the particles is successfully enhanced due to decreasing in the apparent viscosity. In addition, we measured rheological properties of the concentrated particles.

Published
2015
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6. Interactions between Acrylate/Methacrylate Biomaterials and Organic Foulants Evaluated by Molecular Dynamics Simulations of Simplified Binary Mixtures

Author

Takumi Matsuoka, Ryo Nagumo, and Shuichi Iwata

Subjects
chemistry.chemical_classification, Acrylate, Materials science, Biocompatibility, Biomedical Engineering, Water, Biocompatible Materials, Trimer, Polymer, Molecular Dynamics Simulation, Methacrylate, Miscibility, Biomaterials, Solvent, chemistry.chemical_compound, Molecular dynamics, Acrylates, chemistry, Chemical engineering, Methacrylates, Polyhydroxyethyl Methacrylate
Abstract

Improving hydrophilicity is a key factor for enhancing the biocompatibility of polymer surfaces. Nevertheless, previous studies have reported that poly(2-methoxyethyl acrylate) (PMEA) surfaces demonstrate markedly better biocompatibility than more hydrophilic poly(2-hydroxyethyl methacrylate) (PHEMA) surfaces. In this work, the origins of the excellent biocompatibility of the PMEA surface are investigated using molecular dynamics (MD) simulations of simplified binary mixtures of acrylate/methacrylate trimers and organic solvents, with n-nonane, 1,5-pentanediol, or 1-octanol serving as the probe organic foulants. The interactions between the acrylate/methacrylate trimers and solvent molecules were evaluated by calculating the radial distribution function (RDF), with the resulting curves indicating that the 2-methoxyethyl acrylate (MEA) trimer has a lower affinity for n-nonane molecules than the 2-hydroxyethyl methacrylate (HEMA) trimer. This result agrees with the experimental consensus that the biocompatibility of PMEA surfaces is better than that of PHEMA surfaces, supporting the hypothesis that the affinity between an acrylate/methacrylate trimer and a foulant molecule in a simplified binary mixture is a significant factor in determining a surface's antifouling properties. The RDF curves obtained for the other two solvent systems exhibited behavior that further highlighted the advantages of the PMEA surfaces as biocompatible polymers. In addition, the validity of employing the second virial coefficient (B2) as a predictor of antifouling properties was explored. The order of the B2 values of different binary mixtures indicated that the MEA trimers have the lowest affinities with n-nonane molecules, which confirms that although PMEA is more hydrophobic than PHEMA, it exhibits better biocompatibility. This analysis demonstrates that the MEA's weaker miscibility with nonpolar foulants contributes to the excellent biocompatibility of PMEA. Thus, B2 is a promising criterion for assessing the miscibility between acrylate/methacrylate materials and nonpolar organic foulants, which indicates the potential for predicting the antifouling properties of acrylate/methacrylate polymer materials by evaluating the value of B2.

Published
2021

13. Local flow around a tiny bubble under a pressure-oscillation field in a viscoelastic worm-like micellar solution

Author

Hideki Mori, Tsutomu Takahashi, Takashi Onuma, Ryo Nagumo, and Shuichi Iwata

Subjects
Extensional deformation, Aqueous solution, Materials science, 010304 chemical physics, Applied Mathematics, Mechanical Engineering, General Chemical Engineering, Bubble, Mechanics, Wake, Condensed Matter Physics, Polarization (waves), 01 natural sciences, Viscoelasticity, 010305 fluids & plasmas, Physics::Fluid Dynamics, Stress field, 0103 physical sciences, General Materials Science, Elongation
Abstract

The motion of a tiny air bubble in an aqueous solution of cetyl trimethyl ammonium bromide and sodium salicylate (CTAB/NaSal), which forms wormlike micelles, was observed using a high-speed polarization camera. Complex local flow is observed around the bubble surface because the bubble shape deforms repeatedly at 100 Hz. The camera can be used to measure the retardation distribution, which is related to the stress field around the bubble. Different retardation and orientation angle distributions were observed during the contraction and expansion phases. In the contraction phase, a strong retardation distribution appears at the tail of the cusped bubble. The occurrence of uniaxial elongation deformation is considered to be due to the negative wake because they are closely correlated. In contrast, a weak retardation distribution spreads at the upper side of the bubble during the expansion phase, where biaxial extensional deformation occurs due to expansion of the bubble surface. These significant changes in strong elastic stress distributions, which correspond to the orientation angle profiles, can result in increase of bubble rising velocities.

Published
2019

14. Molecular dynamics study of the molecular mobilities and side-chain terminal affinities of 2-methoxyethyl acrylate and 2-hydroxyethyl methacrylate

Author

Ryo Nagumo, Hideki Mori, Atsushi Shimizu, and Shuichi Iwata

Subjects
010407 polymers, Acrylate, Polymers and Plastics, technology, industry, and agriculture, Degree of polymerization, Methacrylate, 01 natural sciences, Affinities, 0104 chemical sciences, 2-Hydroxyethyl Methacrylate, chemistry.chemical_compound, Molecular dynamics, chemistry, Polymer chemistry, Materials Chemistry, Side chain, Blood compatibility
Abstract

Irrespective of the degree of polymerization, the molecular mobilities of the 2-hydroxyethyl methacrylate (HEMA) moieties are smaller than those of the 2-methoxyethyl acrylate (MEA) moieties. Preventing the polar functional groups of the foulants and materials from forming a hydrogen-bonding network is important to enhance the mobilities of the molecular chains of non-ionic polymeric materials. We speculate that enhancing the mobilities of the molecular chains is key to improving blood compatibility.

Published
2018

17. Molecular Dynamics Study of the Correlation between the Solvation Structures and the Antifouling Properties of Three Types of Betaine Moieties

Author

Takaaki Miyake, Hideki Mori, Ryo Nagumo, Haruki Furukawa, Shuichi Iwata, and Ryoya Suzuki

Subjects
General Chemical Engineering, Solvation, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Biofouling, chemistry.chemical_compound, Molecular dynamics, Betaine, chemistry, Organic chemistry, 0210 nano-technology
Published
2017

18. Computational Chemistry Study of Molecular Interactions in CO2-loaded Diethylene Glycol, Triethylene Glycol, and Diethylene Glycol Dimethyl Ether

Author

Shuichi Iwata, Ryo Nagumo, Yukihiro Muraki, Hidetaka Yamada, and Hideki Mori

Subjects
Molecular interactions, Materials science, Diethylene glycol, Energy Engineering and Power Technology, 02 engineering and technology, Polyethylene glycol, 021001 nanoscience & nanotechnology, Diethylene glycol dimethyl ether, chemistry.chemical_compound, Viscosity, Fuel Technology, 020401 chemical engineering, chemistry, Polymer chemistry, Organic chemistry, 0204 chemical engineering, 0210 nano-technology, Triethylene glycol
Published
2016

19. Molecular Dynamics Simulation Study on CO2 Physical Absorption Mechanisms for Ethylene-Glycol-Based Solvents Using Free Energy Calculations

Author

Ryo Nagumo, Shuichi Iwata, Yukihiro Muraki, Hideki Mori, Hidetaka Yamada, and Hiromitsu Takaba

Subjects
Steric effects, Void (astronomy), General Chemical Engineering, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Affinities, Industrial and Manufacturing Engineering, Solvent, chemistry.chemical_compound, Molecular dynamics, 020401 chemical engineering, chemistry, Computational chemistry, Organic chemistry, Molecule, 0204 chemical engineering, Solubility, 0210 nano-technology, Ethylene glycol
Abstract

Molecular mechanisms of CO2 physical absorption are significant for the development of higher-performance CO2 absorbents. In this study, the free energy profiles for CO2 approaching several types of ethylene glycol (EG)-based solvent molecules and their derivatives (diols, ethers, and alkanes, etc.) were evaluated using molecular dynamics simulations. A desolvation barrier appeared in the free energy profiles in the pure component solvent, corroborating the negative contribution of a void effect on CO2 affinities. The profiles in vacuum were also estimated to investigate the functional group effects in a constituent solvent molecule. The profiles for the EG-based solvent molecules showed similar minimum values to their derivative diols, while the values for their derivative ethers and alkanes were markedly higher. CO2 solubility is certainly determined by two major factors: the specific CO2 affinities of the constituent hydroxyl groups and a steric void effect near an absorbed CO2 molecule.

Published
2016

20. Molecular Dynamics Simulations for Systematic Prediction of the CO2 Solubility of Physical Absorbents

Author

Haruki Furukawa, Shuichi Iwata, Yukihiro Muraki, Hideki Mori, Masaki Taniguchi, Ryo Nagumo, and Hiromitsu Takaba

Subjects
General Chemical Engineering, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, chemistry.chemical_compound, Molecular dynamics, 020401 chemical engineering, chemistry, Chemical engineering, PEG ratio, Glycerol, Organic chemistry, 0204 chemical engineering, Solubility, 0210 nano-technology
Published
2016

21. Separation Characteristics of a Modified Petlyuk Process for Ternary Separations

Author

Takanori Nishioka, Ryo Nagumo, Shuichi Iwata, Joon Man Lee, and Hideki Mori

Subjects
Engineering, business.industry, General Chemical Engineering, Separation (aeronautics), Analytical chemistry, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, law.invention, 020401 chemical engineering, law, Scientific method, 0204 chemical engineering, 0210 nano-technology, Process engineering, business, Ternary operation, Distillation
Published
2016

22. Metzner–Otto Constant of Paddle Impeller with Two Large Blades in Shear-Thinning Fluid

Author

Yoshihito Kato, Norihisa Nakamura, Yutaka Tada, Haruki Furukawa, and Ryo Nagumo

Subjects
Shear thinning, Materials science, General Chemical Engineering, 02 engineering and technology, General Chemistry, Mechanics, 021001 nanoscience & nanotechnology, Slip factor, Impeller, 020401 chemical engineering, Paddle, 0204 chemical engineering, 0210 nano-technology, Constant (mathematics)
Published
2016

23. Numerical and Experimental Study of an Internal Flow in a Tiny Droplet Under the Vibrating Field

Author

Hideki Mori, Yumiko Yoshitake, Shuichi Iwata, Tadashi Kajiya, Ryo Nagumo, and Satoko Yamauchi

Subjects
Materials science, Field (physics), Internal flow, Mechanical Engineering, 02 engineering and technology, Mechanics, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Mechanics of Materials, 0103 physical sciences, General Materials Science, 010306 general physics, 0210 nano-technology
Published
2016

24. Power Consumption and Mass Transfer of High Viscosity Liquid in Gas–Liquid Mixing Vessel with Large Paddle Impeller

Author

Yoshihito Kato, Ryo Nagumo, Noboru Kamei, Masataka Kamiya, Haruki Furukawa, and Masahiro Haitsuka

Subjects
Materials science, General Chemical Engineering, Mixing (process engineering), 02 engineering and technology, General Chemistry, Mechanics, 021001 nanoscience & nanotechnology, Impeller, 020401 chemical engineering, Power consumption, Mass transfer, Paddle, 0204 chemical engineering, 0210 nano-technology
Published
2016

25. Development of Mechanical Measurement Technique for Planar Elongation Viscosity Using Resistant Force on Pushing Bullet Bob

Author

Hideki Mori, Yukinobu Sugihara, Tsutomu Takahashi, Shuichi Iwata, Yumiko Yoshitake, Ryo Nagumo, and Wataru Kubota

Subjects
Materials science, 010304 chemical physics, Mechanical Engineering, Mechanics, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, Viscosity, Planar, Mechanics of Materials, 0103 physical sciences, General Materials Science, Development (differential geometry), Elongation
Published
2016

26. Effect of Liquid Height on Power Consumption of Two-Blade Wide Paddle Impeller

Author

Nobuhiro Yasui, Haruki Furukawa, Yoshihito Kato, and Ryo Nagumo

Subjects
Engineering drawing, Materials science, Blade (geometry), General Chemical Engineering, Mechanical engineering, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Impeller, 020401 chemical engineering, Power consumption, Paddle, 0204 chemical engineering, 0210 nano-technology, Liquid height
Published
2016

29. Mixing Patterns of Several Kinds of Impellers in Rectangular Vessels

Author

Yoshihito Kato, Haruki Furukawa, Ryo Nagumo, Yutaka Tada, and Yoshitaka Fukatsu

Subjects
Engineering drawing, Agitation, Materials science, Rectangular VesselEccentric Mixing, General Chemical Engineering, technology, industry, and agriculture, General Chemistry, Mechanics, Physics::Fluid Dynamics, Impeller, Mixing patterns, Mixing, Mixing Pattern, Astrophysics::Earth and Planetary Astrophysics, Mixing (physics)
Abstract

The power numbers of several kinds of impellers in rectangular eccentric vessels were correlated with Kamei et al.’s modified equation for a wide range of Reynolds numbers. The mixing patterns of these impellers were observed by using a decolorization method based on the reaction between sodium thiosulfate and iodine. A relationship was established between the power number diagram (NP–Re diagram) and the shape of the isolated zone. At low Reynolds numbers, isolated zones like donut rings were observed in the rectangular vessels and in a cylindrical vessel without baffles.

Published
2015

32. Correlation of Power Consumption of Concave Turbine Imepller

Author

Yoshihito Kato, Ryo Nagumo, Yutaka Tada, and Haruki Furukawa

Subjects
Search engine, Thesaurus (information retrieval), Database, Power consumption, Computer science, General Chemical Engineering, General Chemistry, computer.software_genre, computer, Turbine
Published
2015

36. Effect of Thickness of Mixing Impeller Blade on Power Consumption

Author

Song-Tae Koh, Ryo Nagumo, Haruki Furukawa, Young-Sei Lee, Yutaka Tada, Keita Fujii, and Yoshihito Kato

Subjects
Impeller, Materials science, Blade (geometry), Power consumption, General Chemical Engineering, General Chemistry, Mechanics, Slip factor, Mixing (physics)
Published
2015

38. Theoretical screening of antifouling polymer repeat units by molecular dynamics simulations

Author

Hiromitsu Takaba, Hideki Mori, Ryo Nagumo, Shohei Terao, Takaaki Miyake, Shuichi Iwata, and Haruki Furukawa

Subjects
chemistry.chemical_classification, Materials science, Polymers and Plastics, Intermolecular force, Nanotechnology, Polymer, Combinatorial chemistry, Biofouling, Molecular dynamics, chemistry, Materials Chemistry, Molecule, Potential of mean force, Repeat unit, Protein adsorption
Abstract

Suppression of protein adsorption on polymeric interfaces is one of the significant challenges in developing novel biomedical polymers. In this study, the computational design of an antifouling polymer repeat unit is conducted based on a simple approach, whereby the intermolecular affinities between a probe molecule and a polymer repeat unit are evaluated to generate free energy profiles using molecular dynamics simulations. The simplified method affords convenient and theoretical screening of highly antifouling polymer repeat units.

Published
2014

41. Correlation of Power Consumption for Dispersing Impellers

Author

Song-Tae Koh, Ryo Nagumo, Shintaro Ito, Haruki Furukawa, Yoshihito Kato, Young-Sei Lee, and Yutaka Tada

Subjects
Thesaurus (information retrieval), Impeller, Materials science, Information retrieval, Power consumption, General Chemical Engineering, General Chemistry
Published
2014

46. Mixing of Viscoelastic Fluid with Anchor Impeller in Rotating Vessel

Author

Yoshihito Kato, Noriyuki Kato, Ryo Nagumo, Shinsuke Asayama, Haruki Furukawa, Yuki Ohinata, Shuichi Iwata, and Norihiro Morikawa

Subjects
Impeller, Materials science, General Chemical Engineering, Viscoelastic fluid, General Chemistry, Mechanics, Mixing (physics)
Published
2015

47. Friction Reduction Mechanism of Hydrogen- and Fluorine-Terminated Diamond-Like Carbon Films Investigated by Molecular Dynamics and Quantum Chemical Calculation

Author

Hiromitsu Takaba, Ai Suzuki, Ryuji Miura, Akira Miyamoto, Shandan Bai, Hideyuki Tsuboi, Tasuku Onodera, Ryo Nagumo, Momoji Kubo, and Nozomu Hatakeyama

Subjects
Hydrogen, Diamond-like carbon, chemistry.chemical_element, Antibonding molecular orbital, Quantum chemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, symbols.namesake, Molecular dynamics, General Energy, chemistry, Computational chemistry, Chemical physics, symbols, Fluorine, Physical and Theoretical Chemistry, van der Waals force, Carbon
Abstract

The friction reduction mechanisms of diamond-like carbon (DLC) and H- or F-terminated DLC films were investigated using molecular dynamics (MD) and tight-binding quantum chemistry (TBQC) calculations. Atomistic-scale friction dynamics of both DLC and the surface-terminated DLC model in which the unsaturated bonds on their surface were terminated with H or F atoms were investigated by MD. The F-terminated DLC model showed lower friction than that of the H-terminated DLC model because of the stronger repulsive Coulombic force between F atoms at the surfaces. On the other hand, strong van der Waals interaction acting on the interface was observed for the H-terminated DLC model compared to that for the F-terminated DLC models. TBQC calculation indicates a bonding interaction between the surfaces of DLC, while the antibonding interaction was observed for the surface-terminated DLC model. Those interactions would make the difference in the friction properties among the studied models.

Published
2012

48. Molecular dynamics simulations for microscopic behavior of water molecules in the vicinity of zwitterionic self-assembled monolayers

Author

Kazuki Akamatsu, Ryo Nagumo, Hiromitsu Takaba, Nozomu Hatakeyama, Tatsunori Ito, Ai Suzuki, Akira Miyamoto, Ryuji Miura, and Hideyuki Tsuboi

Subjects
Vinyl alcohol, Polymers and Plastics, Chemistry, Hydrogen bond, Inorganic chemistry, Self-assembled monolayer, Molecular dynamics, chemistry.chemical_compound, Chemical physics, Monolayer, Materials Chemistry, Bound water, Molecule, Protein adsorption
Abstract

Microscopic behaviors of explicit water molecules on biocompatible zwitterionic self-assembled monolayer (SAM) surfaces were investigated by molecular dynamics simulations. The orientational distribution of water molecules near the surfaces was evaluated to analyze its structural properties. Consequently, water molecules on the zwitterionic SAMs are randomly oriented. In contrast, those near the surface of poly(vinyl alcohol) are highly oriented, resulting from the structured hydrogen bonding network. Microscopic properties of water molecules on the interfaces would have a key role in the suppression of protein adsorption for zwitterionic biomaterials.

Published
2012

49. Assessment of the Antifouling Properties of Polyzwitterions from Free Energy Calculations by Molecular Dynamics Simulations

Author

Hiromitsu Takaba, Ryo Nagumo, Hideyuki Tsuboi, Ai Suzuki, Ryuji Miura, Nozomu Hatakeyama, Kazuki Akamatsu, and Akira Miyamoto

Subjects
Biofouling, chemistry.chemical_classification, Molecular dynamics, Chemical engineering, Chemistry, General Chemical Engineering, Organic chemistry, General Chemistry, Polymer, Industrial and Manufacturing Engineering, Protein adsorption
Abstract

Polyzwitterions (PZs), such as carboxybetaine and phosphobetaine polymers, show remarkable suppression of protein adsorption and have potentially widespread application as bioengineering materials....

Published
2012

50. CO Oxidation and NO Reduction on a MgO(100) Supported Pd Cluster: A Quantum Chemical Molecular Dynamics Study

Author

Ai Suzuki, Ryuji Miura, Nozomu Hatakeyama, Ryo Nagumo, Akira Miyamoto, Farouq Ahmed, Hiromitsu Takaba, and Hideyuki Tsuboi

Subjects
Quantum chemical, Chemistry, Electronic structure, Redox, Dissociation (chemistry), Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Molecular dynamics, General Energy, Oxygen atom, Adsorption, Computational chemistry, Cluster (physics), Physical chemistry, Physical and Theoretical Chemistry
Abstract

Dynamics of the CO oxidation NO reduction reaction on thin MgO (100) supported Pd clusters has been studied by quantum chemical molecular dynamics (QCMD). Chemical changes, change of adsorption states, and structural changes were investigated. We observed that CO adsorption occurs molecularly, whereas NO adsorption occurs first molecularly on the Pd cluster, but it is then dissociatively adsorbed on Pd cluster after interacting with CO. Oxygen atoms resulting from the NO dissociation react with adsorbed CO and form CO2 that desorbs from the Pd cluster, whereas the remaining N atom diffuses in the lattice of the Pd cluster. NO dissociation has been found to be the key step for this reaction. Furthermore, from the molecular dynamics and electronic structure calculations, we have identified a number of consequences for the interpretation and modeling of diffusion experiments demonstrating the coverage. As far we know, this is the first QCMD based simulation of the dynamics of CO oxidation, NO reduction, and ...

Published
2011

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