PUBLICACIÓN

Plasmonic Au@Pd Nanorods with Boosted Refractive Index Susceptibility and SERS Efficiency: A Multifunctional Platform for Hydrogen Sensing and Monitoring of Catalytic Reactions

ACCEDER A LA PUBLICACIÓN: Scopus Orcid

Rodal-Cedeira S. et al.

2016 CHEMISTRY OF MATERIALS

Chemical Engineering (miscellaneous) (Q1), Chemistry (miscellaneous) (Q1), Materials Chemistry (Q1)

JCR: 9.466

SJR: 4.136

CITAS

99

DOI

10.1021/acs.chemmater.6b04941

EID

2-s2.0-85008498486

ISSN

0897-4756

EISSN

1520-5002

BIBTEX

@article{Rodal_Cedeira_2016, doi = {10.1021/acs.chemmater.6b04941}, url = {https://doi.org/10.1021%2Facs.chemmater.6b04941}, year = 2016, month = {dec}, publisher = {American Chemical Society ({ACS})}, volume = {28}, number = {24}, pages = {9169--9180}, author = {Sergio Rodal-Cedeira and Ver{\'{o}}nica Montes-Garc{\'{\i}}a and Lakshminarayana Polavarapu and Diego Mart{\'{\i}}nez Sol{\'{\i}}s and Hamed Heidari and Andrea La Porta and Marco Angiola and Alessandro Martucci and Jos{\'{e}} M. Taboada and Fernando Obelleiro and Sara Bals and Jorge P{\'{e}}rez-Juste and Isabel Pastoriza-Santos}, title = {Plasmonic Au@Pd Nanorods with Boosted Refractive Index Susceptibility and {SERS} Efficiency: A Multifunctional Platform for Hydrogen Sensing and Monitoring of Catalytic Reactions}, journal = {Chemistry of Materials}}

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Surface Integral Equation Solvers For Large-Scale Conductors, Metamaterials And Plasmonic Nanostructures
Mlfma-Fft Parallel Algorithm For The Solution Of Extremely Large Problems In Electromagnetics
Surface Integral Equation Solvers For Large-Scale Conductors, Metamaterials And Plasmonic Nanostructures
Electromagnetic Analysis Of Metamaterials And Plasmonic Nanostructures With The Method Of Moments
Surface Integral Equation Solvers For Large-Scale Conductors, Metamaterials And Plasmonic Nanostructures
Electromagnetic Analysis Of Metamaterials And Plasmonic Nanostructures With The Method Of Moments
Calculation Of Wave Propagation Parameters In Generalized Media
Electromagnetic Analysis Of Metamaterials And Plasmonic Nanostructures With The Method Of Moments
Calculation Of Wave Propagation Parameters In Generalized Media
Fast Surface Integral Equation Formulations For Large-Scale Conductors, Metamaterials, And Plasmonic Problems
Calculation Of Wave Propagation Parameters In Generalized Media
Fast Surface Integral Equation Formulations For Large-Scale Conductors, Metamaterials, And Plasmonic Problems
Design Of Optical Nanoantennas With The Surface Integral Equation Method Of Moments
Fast Surface Integral Equation Formulations For Large-Scale Conductors, Metamaterials, And Plasmonic Problems
Design Of Optical Nanoantennas With The Surface Integral Equation Method Of Moments
Optimization Of Invisibility Cloaks By Surface Integral Equation Method
Design Of Optical Nanoantennas With The Surface Integral Equation Method Of Moments
Optimization Of Invisibility Cloaks By Surface Integral Equation Method
Improving Condition Number And Convergence Of The Surface Integral-Equation Method Of Moments For Penetrable Bodies
Optimization Of Invisibility Cloaks By Surface Integral Equation Method
Improving Condition Number And Convergence Of The Surface Integral-Equation Method Of Moments For Penetrable Bodies
Design Of Broadband Nano-Optical Antennas With The Surface Method Of Moments
Improving Condition Number And Convergence Of The Surface Integral-Equation Method Of Moments For Penetrable Bodies
Design Of Broadband Nano-Optical Antennas With The Surface Method Of Moments
Large-Scale Plasmonic Problems Solved With The Multilevel Fast Multipole Algorithm
Design Of Broadband Nano-Optical Antennas With The Surface Method Of Moments
Large-Scale Plasmonic Problems Solved With The Multilevel Fast Multipole Algorithm
Comparative Of Surface Integral Equation Formulations When Applied To Plasmonic Problems
Large-Scale Plasmonic Problems Solved With The Multilevel Fast Multipole Algorithm
Comparative Of Surface Integral Equation Formulations When Applied To Plasmonic Problems
Comparison Of Surface Integral Equation Formulations For Electromagnetic Analysis Of Plasmonic Nanoscatterers
Comparative Of Surface Integral Equation Formulations When Applied To Plasmonic Problems
Comparison Of Surface Integral Equation Formulations For Electromagnetic Analysis Of Plasmonic Nanoscatterers
Solution Of Large-Scale Plasmonic Problems With The Multilevel Fast Multipole Algorithm
Comparison Of Surface Integral Equation Formulations For Electromagnetic Analysis Of Plasmonic Nanoscatterers
Solution Of Large-Scale Plasmonic Problems With The Multilevel Fast Multipole Algorithm
Supercomputer Solutions Of Extremely Large Problems In Electromagnetics: From Ten Million To One Billion Unknowns
Solution Of Large-Scale Plasmonic Problems With The Multilevel Fast Multipole Algorithm
Supercomputer Solutions Of Extremely Large Problems In Electromagnetics: From Ten Million To One Billion Unknowns
Method Of Moments Formulation For The Analysis And Design Of Plasmonic Nano-Optical Antennas Of Arbitrary Shape
Supercomputer Solutions Of Extremely Large Problems In Electromagnetics: From Ten Million To One Billion Unknowns
Method Of Moments Formulation For The Analysis And Design Of Plasmonic Nano-Optical Antennas Of Arbitrary Shape
Comparative Study Of The Integral Equation Formulations When Analyzing Left-Handed Materials
Method Of Moments Formulation For The Analysis And Design Of Plasmonic Nano-Optical Antennas Of Arbitrary Shape
Comparative Study Of The Integral Equation Formulations When Analyzing Left-Handed Materials
Computational Electromagnetic Solutions For Large-Scale Conductors, Left-Handed Metamaterials And Plasmonic Nanostructures
Comparative Study Of The Integral Equation Formulations When Analyzing Left-Handed Materials
Computational Electromagnetic Solutions For Large-Scale Conductors, Left-Handed Metamaterials And Plasmonic Nanostructures
Low-Cost Procedure For Radar-Imaging Simulation
Computational Electromagnetic Solutions For Large-Scale Conductors, Left-Handed Metamaterials And Plasmonic Nanostructures
Low-Cost Procedure For Radar-Imaging Simulation
Comparison Of Surface Integral Equations For Left-Handed Materials
Low-Cost Procedure For Radar-Imaging Simulation
Comparison Of Surface Integral Equations For Left-Handed Materials
Method-Of-Moments Formulation For The Analysis Of Plasmonic Nano-Optical Antennas
Comparison Of Surface Integral Equations For Left-Handed Materials
Method-Of-Moments Formulation For The Analysis Of Plasmonic Nano-Optical Antennas
Extended Near Field Preconditioner For The Analysis Of Large Problems Using The Nested-Fmm-Fft Algorithm
Method-Of-Moments Formulation For The Analysis Of Plasmonic Nano-Optical Antennas
Extended Near Field Preconditioner For The Analysis Of Large Problems Using The Nested-Fmm-Fft Algorithm
Insensitive Environment Calibration Procedure For An Instrumental Radar
Extended Near Field Preconditioner For The Analysis Of Large Problems Using The Nested-Fmm-Fft Algorithm
Insensitive Environment Calibration Procedure For An Instrumental Radar
Surface Integral Equation Formulation For The Analysis Of Left-Handed Metamaterials
Insensitive Environment Calibration Procedure For An Instrumental Radar
Surface Integral Equation Formulation For The Analysis Of Left-Handed Metamaterials
Mlfma-Fft Algorithm For The Solution Of Challenging Problems In Electromagnetics
Surface Integral Equation Formulation For The Analysis Of Left-Handed Metamaterials
Mlfma-Fft Algorithm For The Solution Of Challenging Problems In Electromagnetics
Integral Equation Formulations For The Analysis Of Left-Handed Metamaterials
Mlfma-Fft Algorithm For The Solution Of Challenging Problems In Electromagnetics
Integral Equation Formulations For The Analysis Of Left-Handed Metamaterials
Mlfma-Fft Parallel Algorithm For The Solution Of Large-Scale Problems In Electromagnetics (Invited Paper)
Integral Equation Formulations For The Analysis Of Left-Handed Metamaterials
Mlfma-Fft Parallel Algorithm For The Solution Of Large-Scale Problems In Electromagnetics (Invited Paper)
Supercomputer Aware Approach For The Solution Of Challenging Electromagnetic Problems
Mlfma-Fft Parallel Algorithm For The Solution Of Large-Scale Problems In Electromagnetics (Invited Paper)
Supercomputer Aware Approach For The Solution Of Challenging Electromagnetic Problems
Supercomputing Challenges In Electromagnetics
Supercomputer Aware Approach For The Solution Of Challenging Electromagnetic Problems
Supercomputing Challenges In Electromagnetics
Near Field Preconditioner For The Fast Multipole Method
Supercomputing Challenges In Electromagnetics
Near Field Preconditioner For The Fast Multipole Method
High Scalability Fmm-Fft Electromagnetic Solver For Supercomputer Systems
Near Field Preconditioner For The Fast Multipole Method
High Scalability Fmm-Fft Electromagnetic Solver For Supercomputer Systems
Power Decomposition Method For Compression Of The Electric-Field Integral Equation
High Scalability Fmm-Fft Electromagnetic Solver For Supercomputer Systems
Power Decomposition Method For Compression Of The Electric-Field Integral Equation
High Scalability Multipole Method. Solving Half Billion Of Unknowns
Power Decomposition Method For Compression Of The Electric-Field Integral Equation
High Scalability Multipole Method. Solving Half Billion Of Unknowns
Analysis Of 0.5 Billion Unknowns Using A Parallel Fmm-Fft Solver
High Scalability Multipole Method. Solving Half Billion Of Unknowns
Analysis Of 0.5 Billion Unknowns Using A Parallel Fmm-Fft Solver
Geometrically Based Preconditioner For The Fast Multipole Method Using Rooftop Basis Functions And Galerkin Testing Procedure
Analysis Of 0.5 Billion Unknowns Using A Parallel Fmm-Fft Solver
Geometrically Based Preconditioner For The Fast Multipole Method Using Rooftop Basis Functions And Galerkin Testing Procedure
Parallel Fmm-Fft Solver For The Analysis Of Hundreds Of Millions Of Unknowns
Geometrically Based Preconditioner For The Fast Multipole Method Using Rooftop Basis Functions And Galerkin Testing Procedure
Parallel Fmm-Fft Solver For The Analysis Of Hundreds Of Millions Of Unknowns
Geometry Based Preconditioner For Radiation Problems Involving Wire And Surface Basis Functions
Parallel Fmm-Fft Solver For The Analysis Of Hundreds Of Millions Of Unknowns
Geometry Based Preconditioner For Radiation Problems Involving Wire And Surface Basis Functions
Solution Of Very Large Integral-Equation Problems With Single-Level Fmm
Geometry Based Preconditioner For Radiation Problems Involving Wire And Surface Basis Functions
Solution Of Very Large Integral-Equation Problems With Single-Level Fmm
Adaptive Box Parallel Implementation Of The Multipole Method For Acoustic Scattering
Solution Of Very Large Integral-Equation Problems With Single-Level Fmm
Adaptive Box Parallel Implementation Of The Multipole Method For Acoustic Scattering
Fast Multipole Method Implementation For Meyer Formulation Applied To Acoustic Scattering Problems
Adaptive Box Parallel Implementation Of The Multipole Method For Acoustic Scattering
Fast Multipole Method Implementation For Meyer Formulation Applied To Acoustic Scattering Problems
A Hybrid Parallel Implementation Of The Fast Multipole Applied To Aircraft Noise Control
Fast Multipole Method Implementation For Meyer Formulation Applied To Acoustic Scattering Problems
A Hybrid Parallel Implementation Of The Fast Multipole Applied To Aircraft Noise Control
High Scalability Multipole Method For The Analysis Of Hundreds Of Millions Of Unknowns
A Hybrid Parallel Implementation Of The Fast Multipole Applied To Aircraft Noise Control
High Scalability Multipole Method For The Analysis Of Hundreds Of Millions Of Unknowns
Geometrically Based Preconditioner For The Fast Multipole Method
High Scalability Multipole Method For The Analysis Of Hundreds Of Millions Of Unknowns
Geometrically Based Preconditioner For The Fast Multipole Method
On The Use Of The Singular Value Decomposition In The Fast Multipole Method
Geometrically Based Preconditioner For The Fast Multipole Method
On The Use Of The Singular Value Decomposition In The Fast Multipole Method
Bias Of The Maximum Likelihood Doa Estimation From Inaccurate Knowledge Of The Antenna Array Response
On The Use Of The Singular Value Decomposition In The Fast Multipole Method
Bias Of The Maximum Likelihood Doa Estimation From Inaccurate Knowledge Of The Antenna Array Response
High Scalability Codes For The Fast Multipole Method
Bias Of The Maximum Likelihood Doa Estimation From Inaccurate Knowledge Of The Antenna Array Response
High Scalability Codes For The Fast Multipole Method
Evaluation Of Singular Potential Integrals In The Method Of Moments Using Linearly Phased Rwg Basis Functions
High Scalability Codes For The Fast Multipole Method
Evaluation Of Singular Potential Integrals In The Method Of Moments Using Linearly Phased Rwg Basis Functions
Compression Of The Fast Multipole Method Using The Singular Value Decomposition
Evaluation Of Singular Potential Integrals In The Method Of Moments Using Linearly Phased Rwg Basis Functions
Compression Of The Fast Multipole Method Using The Singular Value Decomposition
Accurate Evaluation Of Singular Potential Integrals In An Asymptotic-Phase Method Of Moments Formulation
Compression Of The Fast Multipole Method Using The Singular Value Decomposition
Accurate Evaluation Of Singular Potential Integrals In An Asymptotic-Phase Method Of Moments Formulation
Broadband Hf Antenna Matching Network Design Using A Real-Coded Genetic Algorithm
Accurate Evaluation Of Singular Potential Integrals In An Asymptotic-Phase Method Of Moments Formulation
Broadband Hf Antenna Matching Network Design Using A Real-Coded Genetic Algorithm
Efficient Asymptotic-Phase Modeling Of The Induced Currents In The Fast Multipole Method
Broadband Hf Antenna Matching Network Design Using A Real-Coded Genetic Algorithm
Efficient Asymptotic-Phase Modeling Of The Induced Currents In The Fast Multipole Method
Piecewise Travelling-Wave Basis Functions For Wires
Efficient Asymptotic-Phase Modeling Of The Induced Currents In The Fast Multipole Method
Piecewise Travelling-Wave Basis Functions For Wires
Incorporation Of Linear-Phase Progression In Rwg Basis Functions
Piecewise Travelling-Wave Basis Functions For Wires
Incorporation Of Linear-Phase Progression In Rwg Basis Functions
Evaluation Of Galerkin Integrals Involving Triangular-Type Wire-To-Surface Junctions In The Method Of Moments
Incorporation Of Linear-Phase Progression In Rwg Basis Functions
Evaluation Of Galerkin Integrals Involving Triangular-Type Wire-To-Surface Junctions In The Method Of Moments
Accurate Evaluation Of The Galerkin's Testing Integrals For The Triangular-Type Junction Basis Function
Evaluation Of Galerkin Integrals Involving Triangular-Type Wire-To-Surface Junctions In The Method Of Moments
Accurate Evaluation Of The Galerkin's Testing Integrals For The Triangular-Type Junction Basis Function
Aplicación Informática Para La Enseñanza De Electromagnetismo En Ingeniería
Accurate Evaluation Of The Galerkin's Testing Integrals For The Triangular-Type Junction Basis Function
Aplicación Informática Para La Enseñanza De Electromagnetismo En Ingeniería
Estimación De Direcciones De Llegada En Agrupaciones De Antenas Embarcadas
Aplicación Informática Para La Enseñanza De Electromagnetismo En Ingeniería
Estimación De Direcciones De Llegada En Agrupaciones De Antenas Embarcadas
Synthesis Of Array Antennas Onboard Complex Platforms Considering Coupling Effects By Means Of A Hybrid Mm-Po Technique
Estimación De Direcciones De Llegada En Agrupaciones De Antenas Embarcadas
Synthesis Of Array Antennas Onboard Complex Platforms Considering Coupling Effects By Means Of A Hybrid Mm-Po Technique
The Cramer-Rao Bound For The Estimation Of Angles Of Arrival In On-Board Array Antennas
Synthesis Of Array Antennas Onboard Complex Platforms Considering Coupling Effects By Means Of A Hybrid Mm-Po Technique
The Cramer-Rao Bound For The Estimation Of Angles Of Arrival In On-Board Array Antennas
Including Near-Field Constraints For The Synthesis Of Onboard Array Antennas
The Cramer-Rao Bound For The Estimation Of Angles Of Arrival In On-Board Array Antennas
Including Near-Field Constraints For The Synthesis Of Onboard Array Antennas
Including Multibounce Effects In The Moment-Method Physical-Optics (Mmpo) Method
Including Near-Field Constraints For The Synthesis Of Onboard Array Antennas
Including Multibounce Effects In The Moment-Method Physical-Optics (Mmpo) Method
General Purpose Software Package For Electromagnetics Engineering Education
Including Multibounce Effects In The Moment-Method Physical-Optics (Mmpo) Method
General Purpose Software Package For Electromagnetics Engineering Education
Hemcuvi: A Software Package For The Electromagnetic Analysis And Design Of Radiating Systems On Board Real Platforms
General Purpose Software Package For Electromagnetics Engineering Education
Hemcuvi: A Software Package For The Electromagnetic Analysis And Design Of Radiating Systems On Board Real Platforms
Improvement Of The Hybrid Moment Method-Physical Optics Method Through A Novel Evaluation Of The Physical Optics Operator
Hemcuvi: A Software Package For The Electromagnetic Analysis And Design Of Radiating Systems On Board Real Platforms
Improvement Of The Hybrid Moment Method-Physical Optics Method Through A Novel Evaluation Of The Physical Optics Operator
A Floating Attachment Mode For Arbitrary Wire-To-Surface Connections
Improvement Of The Hybrid Moment Method-Physical Optics Method Through A Novel Evaluation Of The Physical Optics Operator
A Floating Attachment Mode For Arbitrary Wire-To-Surface Connections
A Method-Of-Moments-Based Algorithm To Synthesize A Conformal Onboard Array Antenna
A Floating Attachment Mode For Arbitrary Wire-To-Surface Connections
A Method-Of-Moments-Based Algorithm To Synthesize A Conformal Onboard Array Antenna
Synthesis Of Onboard Array Antennas Including Interaction With The Mounting Platform And Mutual Coupling Effects
A Method-Of-Moments-Based Algorithm To Synthesize A Conformal Onboard Array Antenna
Synthesis Of Onboard Array Antennas Including Interaction With The Mounting Platform And Mutual Coupling Effects
Method Of Moments Solution For Wires Attached To Perfect Electric Conducting Surfaces Using Floating Attachment Modes
Synthesis Of Onboard Array Antennas Including Interaction With The Mounting Platform And Mutual Coupling Effects
Method Of Moments Solution For Wires Attached To Perfect Electric Conducting Surfaces Using Floating Attachment Modes
Modeling The Physical Optics Currents In A Hybrid Moment-Method-Physical-Optics Code
Method Of Moments Solution For Wires Attached To Perfect Electric Conducting Surfaces Using Floating Attachment Modes
Modeling The Physical Optics Currents In A Hybrid Moment-Method-Physical-Optics Code
Hybrid Moment-Method Physical-Optics Formulation For Modeling The Electromagnetic Behavior Of On-Board Antennas
Modeling The Physical Optics Currents In A Hybrid Moment-Method-Physical-Optics Code
Hybrid Moment-Method Physical-Optics Formulation For Modeling The Electromagnetic Behavior Of On-Board Antennas
Comparison Of Moment-Method Solutions For Wire Antennas Attached To Arbitrarily Shaped Bodies
Hybrid Moment-Method Physical-Optics Formulation For Modeling The Electromagnetic Behavior Of On-Board Antennas
Comparison Of Moment-Method Solutions For Wire Antennas Attached To Arbitrarily Shaped Bodies
Development Of A Patch-Wire Moment Method Solution For Radiation And Scattering From Arbitrarily Shaped Bodies
Comparison Of Moment-Method Solutions For Wire Antennas Attached To Arbitrarily Shaped Bodies
Development Of A Patch-Wire Moment Method Solution For Radiation And Scattering From Arbitrarily Shaped Bodies
Comparison Of Moment Method Solutions For Wires Attached To Arbitrary Surfaces
Development Of A Patch-Wire Moment Method Solution For Radiation And Scattering From Arbitrarily Shaped Bodies
Comparison Of Moment Method Solutions For Wires Attached To Arbitrary Surfaces
Design Of On-Board Array Antennas By Pattern Optimization
Comparison Of Moment Method Solutions For Wires Attached To Arbitrary Surfaces
Design Of On-Board Array Antennas By Pattern Optimization
Automatic Wire-Grid Generation For Electromagnetic Analysis Of Arbitrary-Shaped Conducting Bodies By Nec
Design Of On-Board Array Antennas By Pattern Optimization
Automatic Wire-Grid Generation For Electromagnetic Analysis Of Arbitrary-Shaped Conducting Bodies By Nec
Extended Multi-Branch Basis Functions For Non-Conformal Problems
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