Yi Zeng scite author profile

We report a facile approach to prepare carbon-coated troilite FeS (C@FeS) nanosheets via surfactant-assisted solution-based synthesis. 1-Dodecanethiol is used as both the sulfur source and the surfactant, which may form different-shaped micelles to direct the growth of nanostructures. Under appropriate growth conditions, the iron and sulfur atoms react to form thin layers of FeS while the hydrocarbon tails of 1-dodecanethiol separate the thin FeS layers, which turn to carbon after annealing in Ar. Such an approach can be extended to grow C@FeS nanospheres and nanoplates by modifying the synthesis parameters. The C@FeS nanosheets display excellent Li storage properties with high specific capacities and stable charge/discharge cyclability, especially at fast charge/discharge rates.

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Back propagation neural network with adaptive differential evolution algorithm for time series forecasting

Wang

Zeng

Chen

2015

Expert Systems with Applications

508

200

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Editable Supercapacitors with Customizable Stretchability Based on Mechanically Strengthened Ultralong MnO₂ Nanowire Composite

et al. 2017

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Although some progress has been made on stretchable supercapacitors, traditional stretchable supercapacitors fabricated by predesigning structured electrodes for device assembling still lack the device-level editability and programmability. To adapt to wearable electronics with arbitrary configurations, it is highly desirable to develop editable supercapacitors that can be directly transferred into desirable shapes and stretchability. In this work, editable supercapacitors for customizable shapes and stretchability using electrodes based on mechanically strengthened ultralong MnO nanowire composites are developed. A supercapacitor edited with honeycomb-like structure shows a specific capacitance of 227.2 mF cm and can be stretched up to 500% without degradation of electrochemical performance, which is superior to most of the state-of-the-art stretchable supercapacitors. In addition, it maintains nearly 98% of the initial capacitance after 10 000 stretch-and-release cycles under 400% tensile strain. As a representative of concept for system integration, the editable supercapacitors are integrated with a strain sensor, and the system exhibits a stable sensing performance even under arm swing. Being highly stretchable, easily programmable, as well as connectable in series and parallel, an editable supercapacitor with customizable stretchability is promising to produce stylish energy storage devices to power various portable, stretchable, and wearable devices.

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Simple formula for Marcus–Hush–Chidsey kinetics

Zeng

Smith

Bai

et al. 2014

Journal of Electroanalytical Chemistry

153

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The Marcus-Hush-Chidsey (MHC) model is well known in electro-analytical chemistry as a successful microscopic theory of outer-sphere electron transfer at metal electrodes, but it is unfamiliar and rarely used in electrochemical engineering. One reason may be the difficulty of evaluating the MHC reaction rate, which is defined as an improper integral of the Marcus rate over the Fermi distribution of electron energies. Here, we report a simple analytical approximation of the MHC integral that interpolates between exact asymptotic limits for large overpotentials, as well as for large or small reorganization energies, and exhibits less than 5% relative error for all reasonable parameter values. This result enables the MHC model to be considered as a practical alternative to the ubiquitous Butler-Volmer equation for improved understanding and engineering of electrochemical systems.

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Nanosheets‐Assembled CuSe Crystal Pillar as a Stable and High‐Power Anode for Sodium‐Ion and Potassium‐Ion Batteries

Lin

Yang

et al. 2019

Advanced Energy Materials

194

142

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Thanks to low costs and the abundance of the resources, sodium‐ion (SIBs) and potassium‐ion batteries (PIBs) have emerged as leading candidates for next‐generation energy storage devices. So far, only few materials can serve as the host for both Na+ and K+ ions. Herein, a cubic phase CuSe with crystal‐pillar‐like morphology (CPL‐CuSe) assembled by the nanosheets are synthesized and its dual functionality in SIBs and PIBs is comprehensively studied. The electrochemical measurements demonstrate that CPL‐CuSe enables fast Na+ and K+ storage as well as the sufficiently long duration. Specifically, the anode delivers a specific capacity of 295 mA h g−1 at current density of 10 A g−1 in SIBs, while 280 mA h g−1 at 5 A g−1 in PIBs, as well as the high capacity retention of nearly 100% over 1200 cycles and 340 cycles, respectively. Remarkably, CPL‐CuSe exhibits a high initial coulombic efficiency of 91.0% (SIBs) and 92.4% (PIBs), superior to most existing selenide anodes. A combination of in situ X‐ray diffraction and ex situ transmission electron microscopy tests fundamentally reveal the structural transition and phase evolution of CuSe, which shows a reversible conversion reaction for both cells, while the intermediate products are different due to the sluggish K+ insertion reaction.

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Preparation and magnetic properties of magnetite nanoparticles by sol–gel method

Yang

et al. 2007

Journal of Magnetism and Magnetic Materials

377

124

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Reduced graphene oxide supported highly porous V2O5 spheres as a high-power cathode material for lithium ion batteries

et al. 2011

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The modular assembly of microstructures from simple nanoparticles offers a powerful strategy to create materials with new functionalities. A modular-assembled oval-like microstructure is proposed and used as sulfur host for thick electrodes. By tuning the surface of nanoparticles, double Fischer esterification that is conducted among phytic, ethylene glycol, and the functionalized nanoparticles reconfigures scattered nanoparti-cles into oval-like carbon microstructures. Li-S Batteries The synthesis of Na 2 Fe[Fe(CN) 6 ] as cathode hosts for lithium-sulfur (Li-S) battery is reported. This open framework can store sulfur and acts as a polysulfide diffu sion inhibitor based on the Lewis acid-base bonding effect for high-performance Li-S batteries. Li-S batteries based on this concept exhibit high specific capacity, good cycling stability, and superior rate capability.

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Low Temperature Synthesis of Cu₂O Crystals: Shape Evolution and Growth Mechanism

Sui

Yang

et al. 2009

Crystal Growth & Design

288

114

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An interesting shape evolution of Cu2O crystals, that is, from cubes, truncated octahedra, octahedra, and finally to nanospheres was first realized in high yield by reducing the copper−citrate complex solution with glucose. X-ray powder diffraction (XRD), field-emission scanning electron microscopy (FESEM), and high-resolution transmission electron microscopy (HRTEM) techniques were employed to characterize the samples. We elucidate the important parameters (including poly (vinyl pyrrolidone) (PVP) concentration, reaction time, and reaction temperature) responsible for the shape-controlled synthesis of Cu2O crystals. The possible formation mechanism for the products with various architectures is presented, which is mainly based on the variation of the ratio (R) of the growth rates along the ⟨100⟩ and ⟨111⟩ direction. In addition, the effect of the low supersaturation on the formation of star-shaped samples with six symmetric branches is also taken into account. This polymer-mediated method should be readily extended to the controlled synthesis of other metal oxides and the proposed growth model could also be used to explain and direct the growth of crystals with a cubic structure.

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Yi Zeng

Controlled Soft-Template Synthesis of Ultrathin C@FeS Nanosheets with High-Li-Storage Performance

Back propagation neural network with adaptive differential evolution algorithm for time series forecasting

Editable Supercapacitors with Customizable Stretchability Based on Mechanically Strengthened Ultralong MnO₂ Nanowire Composite

Simple formula for Marcus–Hush–Chidsey kinetics

Nanosheets‐Assembled CuSe Crystal Pillar as a Stable and High‐Power Anode for Sodium‐Ion and Potassium‐Ion Batteries

Preparation and magnetic properties of magnetite nanoparticles by sol–gel method

Reduced graphene oxide supported highly porous V2O5 spheres as a high-power cathode material for lithium ion batteries

Low Temperature Synthesis of Cu₂O Crystals: Shape Evolution and Growth Mechanism

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Yi Zeng

Controlled Soft-Template Synthesis of Ultrathin C@FeS Nanosheets with High-Li-Storage Performance

Back propagation neural network with adaptive differential evolution algorithm for time series forecasting

Editable Supercapacitors with Customizable Stretchability Based on Mechanically Strengthened Ultralong MnO2 Nanowire Composite

Simple formula for Marcus–Hush–Chidsey kinetics

Nanosheets‐Assembled CuSe Crystal Pillar as a Stable and High‐Power Anode for Sodium‐Ion and Potassium‐Ion Batteries

Preparation and magnetic properties of magnetite nanoparticles by sol–gel method

Reduced graphene oxide supported highly porous V2O5 spheres as a high-power cathode material for lithium ion batteries

Low Temperature Synthesis of Cu2O Crystals: Shape Evolution and Growth Mechanism

Contact Info

Product

Resources

About

Editable Supercapacitors with Customizable Stretchability Based on Mechanically Strengthened Ultralong MnO₂ Nanowire Composite

Low Temperature Synthesis of Cu₂O Crystals: Shape Evolution and Growth Mechanism