Results 61 to 70 of about 9,244 (283)

Sustainable Electrochemical Synthesis of High‐Quality MXenes: Mechanistic Insights, Applications, Challenges, and Technological Prospects

open access: yesAdvanced Functional Materials, EarlyView.
Electrochemical etching provides an eco‐friendly alternative to hazardous HF methods for MXene production. This approach facilitates the selective isolation of the A‐layer from MAX phases with tunable surface terminations. Controlling voltage, electrolytes, temperature, and duration enables the optimal structural integrity. Nevertheless, existing scale
Jagdeep Singh   +4 more
wiley   +1 more source

Recent Progress on Printed Flexible Batteries: Mechanical Challenges, Printing Technologies, and Future Prospects

open access: yes, 2015
Traditional printing methods offer the advantage of well‐matured technology, high accuracy of depositing inks over flexible substrates at high web speeds, and low cost of fabrication. The components of a battery—the current collectors, active layers, and
Abhinav M. Gaikwad   +5 more
core   +1 more source

Textile-Based Flexible Coils for Wireless Inductive Power Transmission

open access: yesApplied Sciences, 2018
Wireless inductive power transmission systems can potentially supply wearable devices. Power cables or batteries can be eliminated by implementing a wireless power transfer system, making the wearable devices less obtrusive to users. However, rigid coils
Yi Li   +4 more
doaj   +1 more source

Transient Charging of Mixed Ionic‐Electronic Conductors by Anomalous Diffusion

open access: yesAdvanced Materials, EarlyView.
This article explores charge transport in mixed ionic‐electronic conductors (MIECs) through electrochemical impedance spectroscopy and transient current analysis. Focusing on PEDOT:PSS, WO3, and n‐doped PBDF, it uncovers the impact of anomalous diffusion via fractional modeling. The study reveals key correlations that deepen understanding and guide the
Heyi Zhang   +9 more
wiley   +1 more source

Laser Printing of Silicon-Containing Anodes with Polyacrylic Acid

open access: yesBatteries
To enhance the performance of state-of-the-art lithium-ion batteries, high-capacity silicon is increasingly introduced as active material for anodes. Furthermore, advanced batteries with new electrode architectures—so-called 3D architectures—can provide ...
Ulrich Rist, Wilhelm Pfleging
doaj   +1 more source

Inorganic Printed LEDs for Wearable Technology

open access: yesProceedings, 2020
: A new form of inorganic printed electronics has been developed that allows for high speed production of solid-state lighting on flexible substrates. Light emitting diodes (LED) become more efficient as their size is decreased. However, the difficulties
James Claypole   +5 more
doaj   +1 more source

3D Printed Gallium Battery with Outstanding Energy Storage: Toward Fully Printed Battery‐on‐the‐Board Soft Electronics

open access: yesSmall
AbstractThe last decade observed rapid progress in soft electronics. Yet, the ultimate desired goal for many research fields is to fabricate fully integrated soft‐matter electronics with sensors, interconnects, and batteries, at the ease of pushing a print button.
Marta Calisto Freitas   +4 more
openaire   +3 more sources

MONOLITHICALLY INTEGRATED, PRINTED SOLID-STATE RECHARGEABLE BATTERIES WITH AESTHETIC VERSATILITY [PDF]

open access: yes, 2017
Department of Energy Engineering (Battery Science and Technology)With the advent of flexible/wearable electronics and Internet of Things (IoT) which are expected to drastically change our daily lives, printed electronics has drawn much attention as a low
Choi, Keun-Ho
core  

3D-Printed Thermoplastic Polyurethane Electrodes for Customizable, Flexible Lithium-Ion Batteries with an Ultra-Long Lifetime

open access: yes, 2023
3D printing technology has demonstrated great potential in fabricating flexible and customizable high-performance batteries, which are highly desired in the forthcoming intelligent and ubiquitous energy era.
X Hu (5160377)   +6 more
core  

Leaftronics: Bio‐Fractal Scaffolds From Leaf Venation for Low‐Waste Electronics

open access: yesAdvanced Materials, EarlyView.
“Leaftronics” transforms naturally evolved leaf venation into quasi‐fractal scaffolds for sustainable electronics. Polymer‐infiltrated leaf skeletons can be used to fabricate ultra‐smooth, reflow‐ and thin‐film‐compatible decomposable substrates, while making the same lignocellulose networks conducting results in flexible transparent electrodes.
Rakesh Rajendran Nair   +3 more
wiley   +1 more source

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