Articles with "ionic electronic" as a keyword



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Impact of Oxygen Non‐Stoichiometry on Near‐Ambient Temperature Ionic Mobility in Polaronic Mixed‐Ionic‐Electronic Conducting Thin Films

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Published in 2021 at "Advanced Functional Materials"

DOI: 10.1002/adfm.202005640

Abstract: Mixed ionic and electronic conducting (MIEC) oxides are an essential material class for a variety of nanoelectronic, energy, and catalyst applications. These materials simultaneously conduct both electronic and ionic species, enabling them to be used… read more here.

Keywords: electronic conducting; ionic electronic; impact oxygen; mixed ionic ... See more keywords
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The Effect of Alkyl Spacers on the Mixed Ionic‐Electronic Conduction Properties of N‐Type Polymers

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Published in 2021 at "Advanced Functional Materials"

DOI: 10.1002/adfm.202008718

Abstract: Conjugated polymers with mixed ionic and electronic transport are essential for developing the complexity and function of electrochemical devices. Current n-type materials have a narrow scope and low performance compared with their p-type counterparts, requiring… read more here.

Keywords: alkyl spacers; ionic electronic; properties type; mixed ionic ... See more keywords
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Mixed Ionic–Electronic Conduction, a Multifunctional Property in Organic Conductors

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Published in 2022 at "Advanced Materials"

DOI: 10.1002/adma.202110406

Abstract: Organic mixed ionic–electronic conductors (OMIECs) have gained recent interest and rapid development due to their versatility in diverse applications ranging from sensing, actuation and computation to energy harvesting/storage, and information transfer. Their multifunctional properties arise… read more here.

Keywords: conduction multifunctional; electronic conduction; multifunctional property; property organic ... See more keywords
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Adaptive Biosensing and Neuromorphic Classification Based on an Ambipolar Organic Mixed Ionic–Electronic Conductor

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Published in 2022 at "Advanced Materials"

DOI: 10.1002/adma.202200393

Abstract: Organic mixed ionic–electronic conductors (OMIECs) are central to bioelectronic applications such as biosensors, health‐monitoring devices, and neural interfaces, and have facilitated efficient next‐generation brain‐inspired computing and biohybrid systems. Despite these examples, smart and adaptive circuits… read more here.

Keywords: classification; ionic electronic; mixed ionic; adaptive biosensing ... See more keywords
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Construction of Mixed Ionic‐Electronic Conducting Scaffolds in Zn Powder: A Scalable Route to Dendrite‐Free and Flexible Zn Anodes

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Published in 2022 at "Advanced Materials"

DOI: 10.1002/adma.202200860

Abstract: Zn powder (Zn‐P)‐based anodes are considered ideal candidates for Zn‐based batteries because they enable a positive synergistic integration of safety and energy density. However, Zn‐P‐based anodes still experience easy corrosion, uncontrolled dendrite growth, and poor… read more here.

Keywords: based anodes; electronic conducting; ionic electronic; mixed ionic ... See more keywords
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Electrochemical Doping in Ordered and Disordered Domains of Organic Mixed Ionic-Electronic Conductors.

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Published in 2023 at "Advanced materials"

DOI: 10.1002/adma.202300308

Abstract: Conjugated polymers are increasingly used as organic mixed ionic-electronic conductors in electrochemical applications for neuromorphic computing, bioelectronics and energy harvesting. The design of efficient electrochemical devices relies on large modulations of the polymer conductivity, fast… read more here.

Keywords: ionic electronic; electrochemical doping; conductivity; mixed ionic ... See more keywords
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Deformable and Transparent Ionic and Electronic Conductors for Soft Energy Devices

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Published in 2017 at "Advanced Energy Materials"

DOI: 10.1002/aenm.201701369

Abstract: The recent boom in deformable or stretchable electronics, flexible transparent displays/screens, and their integration into the human body has facilitated the development of multifunctional energy devices that are stretchable, transparent, wearable, and/or biocompatible while meeting… read more here.

Keywords: energy; soft energy; ionic electronic; transparent ionic ... See more keywords
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Electro-chemo-mechanical studies of perovskite-structured mixed ionic-electronic conducting SrSn1-xFexO3-x/2+δ part II: Electrical conductivity and cathode performance

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Published in 2017 at "Journal of Electroceramics"

DOI: 10.1007/s10832-017-0098-6

Abstract: The bulk electrical conductivity of the mixed ionic-electronic conducting perovskite-structured SrSn1-xFexO3-x/2+δ (SSF) was measured to examine how changes in defect chemistry and electronic band structure associated with the substitution of Ti by Sn impact defect… read more here.

Keywords: electronic conducting; ionic electronic; conductivity; mixed ionic ... See more keywords
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Effects of V2O5 on elastic, structural, and optical properties of mixed ionic–electronic 20Na2O–20CaO–(60 − x)B2O3–xV2O5 glasses

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Published in 2017 at "Ionics"

DOI: 10.1007/s11581-017-2396-z

Abstract: Glass samples [20Na2O–20CaO–(60 − x)B2O3–xV2O5, where 0 ≤ x ≤ 2.5 mol%] were prepared using melt-quenching method to study the mixed ionic–electronic (MIE) effect on the elastic and optical properties of the glasses. Ultrasonic velocities, elastic moduli, hardness, and Debye temperature decreased… read more here.

Keywords: b2o3 xv2o5; 20cao b2o3; optical properties; ionic electronic ... See more keywords
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Exploring the Role of Humidity, Temperature, and Mixed Ionic and Electronic Conductivity on SOFC Anode Electrocatalysis

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Published in 2021 at "JOM"

DOI: 10.1007/s11837-021-04777-w

Abstract: Infiltration of nanoscale electrocatalysts into Ni/yttria-stabilized zirconia (Ni-YSZ) cermets has been shown to improve the electrochemical performance of solid oxide fuel cell (SOFC) anodes. While infiltrated electrodes in SOFCs result in improved cell performance, long-term… read more here.

Keywords: performance; sofc; humidity temperature; ionic electronic ... See more keywords
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Degradation analysis of mixed ionic-electronic conductor-supported iron-oxide oxygen carriers for chemical-looping conversion of methane

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Published in 2019 at "Applied Energy"

DOI: 10.1016/j.apenergy.2019.01.151

Abstract: Abstract An iron-based oxygen carrier can convert natural gas into chemicals (syngas or hydrogen) with controlled CO2 emission in a redox process. Mixed ionic-electronic conductor (MIEC)-supported iron oxides have shown high catalytic activity by facilitating… read more here.

Keywords: iron oxide; ionic electronic; mixed ionic; supported iron ... See more keywords