Metal-organic framework-based materials as key components in electrocatalytic oxidation and reduction reactions

Journal of Energy Chemistry, Год журнала: 2023, Номер 87, С. 540 - 567

Опубликована: Сен. 6, 2023

Язык: Английский

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3D Printing Manufacturing of Lithium Batteries: Prospects and Challenges toward Practical Applications

Advanced Materials, Год журнала: 2023, Номер 36(8)

Опубликована: Ноя. 22, 2023

The manufacturing and assembly of components within cells have a direct impact on the sample performance. Conventional processes restrict shapes, dimensions, structures commercially available batteries. 3D printing, novel process for precision practicality, is expected to revolutionize lithium battery industry owing its advantages customization, mechanization, intelligence. This technique can be used effectively construct intricate that enhance designability, integrity, electrochemical performance both liquid- solid-state In this study, an overview development printing technologies provided their suitability comparison with conventional assessed. Various applicable lithium-ion batteries been systematically introduced, especially more practical composite technologies. limitations, optimization are discussed dialectically various modules, including electrodes, electrolytes, functional architectures. addition, all-printed emphatically introduced. Finally, prospects challenges in evaluated.

Язык: Английский

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Two-dimensional (2D) materials for 3D printed micro-supercapacitors and micro-batteries

Energy Materials, Год журнала: 2024, Номер 4(2)

Опубликована: Март 11, 2024

Two-dimensional (2D) materials display a unique set of physical/chemical properties and are considered potential building blocks for the manufacturing microstructured number applications. Prominent applications range from advanced electronics to miniaturized electrochemical energy storage devices (EESDs). Herein, we present comprehensive critical review recent developments in design microfabrication 2D-driven microscale electrodes three-dimensional (3D)-printed micro-supercapacitors micro-batteries. Firstly, systematically discuss advantages disadvantages associated with various techniques such as stereolithography, fused deposition modeling, inkjet printing, direct ink writing. Next, key parameters disclosing relationship between characteristics 2D-based extrusion-driven 3D printing process development versatile sustainable EESDs highlighted. 2D utilized construction microelectrodes supercapacitors (e.g., electric double layer capacitors (EDLCs), pseudocapacitors, hybrid capacitors) batteries Li-based systems next-generation systems, e.g., sodium-ion zinc-ion batteries) along their prominent contributions relation obtained 3D-printed architectures discussed detail. To promote materials-driven high-performance EESDs, relevant challenges future research opportunities also addressed.

Язык: Английский

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Advances in 3D silicon-based lithium-ion microbatteries

Communications Materials, Год журнала: 2024, Номер 5(1)

Опубликована: Фев. 28, 2024

Abstract Miniaturization of modern microelectronics to accommodate the development portable and smart devices requires independent energy storage that is compact, lightweight, reliable, integrable on-chip. Three-dimensional lithium-ion microbatteries are considered as promising candidates fill role, owing their high power density. Combined with silicon a high-capacity anode material, performance can be further enhanced. In this review, latest developments in three-dimensional silicon-based discussed terms material compatibility, cell designs, fabrication methods, various applications. We highlight relation between device architecture well comparison different technologies. Finally, we suggest possible future studies based on current status provide research direction towards improved microbatteries.

Язык: Английский

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Exploring the Potentials of Chitin and Chitosan‐Based Bioinks for 3D‐Printing of Flexible Electronics: The Future of Sustainable Bioelectronics

Small Methods, Год журнала: 2024, Номер 8(9)

Опубликована: Фев. 25, 2024

Chitin and chitosan-based bioink for 3D-printed flexible electronics have tremendous potential innovation in healthcare, agriculture, the environment, industry. This biomaterial is suitable 3D printing because it highly stretchable, super-flexible, affordable, ultrathin, lightweight. Owing to its ease of use, on-demand manufacturing, accurate regulated deposition, versatility with soft functional materials, has revolutionized free-form construction end-user customization. study examined employing chitin bioinks build electronic devices optimize formulation, parameters, postprocessing processes improve mechanical electrical properties. The exploration bioelectronics will open new avenues materials numerous industrial applications.

Язык: Английский

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3D-Printed Flexible and Integrable Asymmetric Microsupercapacitors with High-Areal-Energy-Density

ACS Applied Materials & Interfaces, Год журнала: 2025, Номер unknown

Опубликована: Март 11, 2025

3D-Printed quasi-solid-state microsupercapacitors (MSCs) present immense potential as next-generation miniature energy storage devices, offering superior power density, excellent flexibility, and feasible on-chip integration. However, the challenges posed by formulating 3D printing inks with high-performance ensuring efficient ionic transport in thick electrodes hinder development of advanced MSCs high areal density. Herein, we report 3D-printed ultrahigh-energy-density asymmetric latticed electrodes, fabricated using Ni-Co-S/Co(OH)2/carbon nanotubes/reduced graphene oxide (Ni-Co-S/Co(OH)2/CNTs/rGO) positive electrode ink activated carbon (AC)/CNTs negative ink. The feature abundant hierarchical pores an interconnected conductive network formed coupling CNTs rGO (or AC), enabling ion electron even electrodes. three-layer deliver impressive density 543 μWh cm-2 a capacitance 1.74 F at 1 mA cm-2, nearly double performance planar under identical conditions. Furthermore, device demonstrates cycling stability (80% retention initial after 5000 cycles). This work advances field for applications provides design principles developing integrated flexible MSCs.

Язык: Английский

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Revisiting aluminum current collector in lithium-ion batteries: Corrosion and countermeasures

Journal of Energy Chemistry, Год журнала: 2023, Номер 89, С. 610 - 634

Опубликована: Окт. 12, 2023

Язык: Английский

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Enhanced electrochemical performance of 3D-printed electrodes via blue-laser irradiation and (electro)chemical treatment

Electrochimica Acta, Год журнала: 2024, Номер 506, С. 144995 - 144995

Опубликована: Авг. 31, 2024

Язык: Английский

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Ultrasmall TiO2/C nanoparticles with oxygen vacancy-enriched as an anode material for advanced Li-ion hybrid capacitors

Journal of Energy Storage, Год журнала: 2024, Номер 89, С. 111586 - 111586

Опубликована: Апрель 17, 2024

Язык: Английский

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A novel method for improving the electrochemical properties by modifying conductive polymer on 3D printed nanocarbon electrode

Electrochemistry Communications, Год журнала: 2024, Номер 165, С. 107754 - 107754

Опубликована: Май 13, 2024

The technology of 3D printing has emerged as a potent tool for the preparation 3D-printed electrode. Using commercial graphene/polylactic acid (PLA) composite filaments printed materials, fused deposition modeling technique, electrodes (3DEs) were created in this work. Gold nanoparticles (AuNPs) and composites poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS) used to modify activated 3DEs constructing novel electrode(SACP@Au@3DE), work chlorogenic (CGA) was regarded probe testing performance SACP@Au@3DE. surface physicochemical properties prepared characterized by scanning electron microscopy (SEM) X-ray photoelectron spectroscopy (XPS). electrochemical investigated using cyclic voltammetry (CV) impedance (EIS) methods. constructed SACP@Au@3DE can be determine CGA at concentrations ranging from 10 400 μM with limit detection (LOD) 4.13 μM. Ultimately, sensor coffee powder sample explore potential real analysis. This opens avenue conductive polymer modified electrode field sensor.

Язык: Английский

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