A Theory of Dissimilarity between Stochastic Discount Factors

Bakshi, Gurdip; Bakshi, Xiaohui Gao; Panayotov, George

doi:10.2139/ssrn.3034434

Cited by 3 publications

(3 citation statements)

References 74 publications

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“…21.25 L g −1 cm −1 by the Lambert‐Beer law (Figure S5a), much higher than that of reported photothermal agents such as Au nanorods (13.9 L g −1 cm −1 ) and carbon nanodots (0.35 L g −1 cm −1 ) at similar wavelength [10] . Efficient light adsorption of MXene is primarily a result of metallic conductivity according to the solution to the Maxwell equation, and strong electron‐phonon collision in 2D nanostructure with large adsorption cross‐section and extremely restricted dimension [11] . Under NIR irradiation at λ =808 nm, Ti 3 C 2 T x MXene with a low concentration of 10 μg mL −1 exhibits a significant temperature rise to nearly 90 °C in 500–600 s at a light power of 5.43 W cm −2 , showing a remarkable photothermal effect (Figure S5b).…”

Section: Figurementioning

confidence: 99%

Boosting the Electrocatalysis of MXenes by Plasmon‐Induced Thermalization and Hot‐Electron Injection

Wang

et al. 2021

Angew Chem Int Ed

105

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The MXenes attract great interest in catalytic and energy applications but suffer from inferior redox activity. An efficient strategy is presented to boost the intrinsic electrochemical activity of MXenes for electrocatalysis in various chemical environments by utilizing their plasmonic response to electromagnetic waves. The resulting significant thermoplasmonic effect lowers the endothermic enthalpy and potential barrier to the hydrogen evolution reaction (HER) in the Vis/near‐IR region. Simultaneous hot‐electron injection in a prolonged sub‐femtosecond to picosecond timescale also remarkably facilitates interfacial charge transfer and decreases the activation energy of the reaction. Both effects boost the HER activity of various types of MXenes over fivefold with improved kinetics and Faradaic efficiency over a broad pH range.

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Section: Figurementioning

confidence: 99%

Boosting the Electrocatalysis of MXenes by Plasmon‐Induced Thermalization and Hot‐Electron Injection

Wang

et al. 2021

Angew Chem Int Ed

105

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“…Si se considera el circuito de la Figura 3.30, donde se tiene el motor DC y la fuente de alimentación, que se ha modelado con el equivalente de Thevenin mediante una resistencia, , y una fuente de alimentación, , se puede comprobar que la tensión del motor, , y la corriente del motor, , están relacionadas por la siguiente expresión [46]: (3.52) Dicha expresión indica que toda componente presente en la tensión del motor estará también presente en la corriente y de forma inversa toda componente presente en la corriente estará presente en la tensión. La relación anterior también indica que los espectros de la corriente y la tensión están relacionados, y por tanto, ambas magnitudes tendrán las mismas componentes espectrales.…”

Section: Componentes Espectrales De La Corriente De Un Motor DCunclassified

“…Equation (45) updates the number of pulses detected k. Equation (46) adds the distance between the last two pulses to the list of distances. Equation (47) resets the distance to the last pulse.…”

Section: ) Pulse Detection Blockmentioning

confidence: 99%

Contribución en el ámbito de la tecnología sensorless para la detección de la velocidad y posición en motores dc monitorizando únicamente la corriente: mejora de la precisión, minimización del coste computacional y aplicabilidad a motores de alta potencia

Sánchez¹

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Electric motors are systems that transform electric energy into mechanical energy. Many applications require controlling some output magnitude of motor as speed and position. To control these magnitudes, it is requires measuring the magnitude with an observer. There are two type of observer: conventional observers and sensorless observers. Conventional observers are mechanical systems coupled to the motor shaft and measure the magnitude of interest. Some examples are tachometers, encoders and potentiometers. Sensorless observers are methods or techniques that only measure the current and/or speed to estimate the magnitude of interest. The main advantages of sensorless observers, compared to conventional observers, are as follows: not require couple to motor any mechanical element, decreased maintenance, number of connections and cost of the final system, and an easier miniaturization process. Sensorless observers in DC motors are divided into three groups: those based on the dynamic DC model motor, those based on the ripple component and those based on the combination of the component ripple and the dynamic DC model motor. Due to different problems, the sensorless observers in DC motors have not replaced to the conventional observers yet. This work aims to solve some problems of sensorless observers used to estimate the speed and/or position measuring only the DC motor current. The work proposes three new methods and each method solves a different problem.

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Incomplete Asset Market View of the Exchange Rate Determination

Maurer

Tran

2018

SSRN Journal

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A Theory of Dissimilarity between Stochastic Discount Factors

Cited by 3 publications

References 74 publications

Boosting the Electrocatalysis of MXenes by Plasmon‐Induced Thermalization and Hot‐Electron Injection

Boosting the Electrocatalysis of MXenes by Plasmon‐Induced Thermalization and Hot‐Electron Injection

Contribución en el ámbito de la tecnología sensorless para la detección de la velocidad y posición en motores dc monitorizando únicamente la corriente: mejora de la precisión, minimización del coste computacional y aplicabilidad a motores de alta potencia

Incomplete Asset Market View of the Exchange Rate Determination

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