Search Results - "D’Arcy, Julio M"

Single PEDOT Catalyst Boosts CO2 Photoreduction Efficiency by Diao, Yifan, Jung, Sungyoon, Kouhnavard, Mojgan, Woon, Reagan, Yang, Haoru, Biswas, Pratim, D’Arcy, Julio M

“…Atmospheric pollution demands the development of solar-driven photocatalytic technologies for the conversion of CO2 into a fuel; state-of-the-art cocatalyst…”
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A Template-Free Route to Polypyrrole Nanofibers by Tran, Henry D., Shin, Koo, Hong, Won G., D'Arcy, Julio M., Kojima, Robert W., Weiller, Bruce H., Kaner, Richard B.

“…A template‐free method for the production of polypyrrole nanofibers is presented. By adding a small amount of bipyrrole into the oxidative polymerization of…”
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Conducting Polymers for Pseudocapacitive Energy Storage by Bryan, Aimee M, Santino, Luciano M, Lu, Yang, Acharya, Shinjita, D’Arcy, Julio M

“…Developing energy storage devices to be utilized within a rapidly advancing energy market requires a multipronged approach whereby material synthesis and…”
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Direct Conversion of Fe2O3 to 3D Nanofibrillar PEDOT Microsupercapacitors by Diao, Yifan, Lu, Yang, Yang, Haoru, Wang, Hongmin, Chen, Haozhe, D'Arcy, Julio M.

“…Microsupercapacitors (µSCs) are attractive electrochemical energy storage devices serving as alternatives to batteries in miniaturized portable electronics…”
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Energy storing bricks for stationary PEDOT supercapacitors by Wang, Hongmin, Diao, Yifan, Lu, Yang, Yang, Haoru, Zhou, Qingjun, Chrulski, Kenneth, D’Arcy, Julio M.

“…Fired brick is a universal building material, produced by thousand-year-old technology, that throughout history has seldom served any other purpose. Here, we…”
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Solid-State Precursor Impregnation for Enhanced Capacitance in Hierarchical Flexible Poly(3,4-Ethylenedioxythiophene) Supercapacitors by Wang, Hongmin, Yang, Haoru, Diao, Yifan, Lu, Yang, Chrulski, Kenneth, D’Arcy, Julio M

“…Increasing capacitance and energy density is a major challenge in developing supercapacitors for flexible portable electronics. A thick electrode with a high…”
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Vapor-Phase Polymerization of Nanofibrillar Poly(3,4-ethylenedioxythiophene) for Supercapacitors by D’Arcy, Julio M, El-Kady, Maher F, Khine, Pwint P, Zhang, Linghong, Lee, Sun Hwa, Davis, Nicole R, Liu, David S, Yeung, Michael T, Kim, Sung Yeol, Turner, Christopher L, Lech, Andrew T, Hammond, Paula T, Kaner, Richard B

“…Nanostructures of the conducting polymer poly(3,4-ethylene­dioxy­thiophene) with large surface areas enhance the performance of energy storage devices such as…”
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Microtubular PEDOT-Coated Bricks for Atmospheric Water Harvesting by Wang, Hongmin, Yang, Haoru, Woon, Reagan, Lu, Yang, Diao, Yifan, D’Arcy, Julio. M

“…Atmospheric water harvesting is a promising technology for alleviating global water scarcity. Current water sorption materials efficiently capture water vapor…”
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Nanostructured Poly(3,4-ethylenedioxythiophene) Coatings on Functionalized Glass for Energy Storage by Yang, Haoru, Chow, Brandon, Awoyomi, Abayomi, D’Arcy, Julio M.

“…Conducting polymers rise among some of the most promising transparent supercapacitor electrode materials due to high conductivity, environmental stability,…”
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Microsupercapacitors: Direct Conversion of Fe2O3 to 3D Nanofibrillar PEDOT Microsupercapacitors (Adv. Funct. Mater. 32/2020) by Diao, Yifan, Lu, Yang, Yang, Haoru, Wang, Hongmin, Chen, Haozhe, D'Arcy, Julio M.

“…Microsupercapacitors (μSCs) are electrochemical energy storage devices serving as alternatives to batteries in miniaturized portable electronics. In article…”
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Highly conductive PEDOT films with enhanced catalytic activity for dye-sensitized solar cells by Kouhnavard, Mojgan, Yifan, Diao, D' Arcy, Julio M., Mishra, Rohan, Biswas, Pratim

“…•Highly conductive PEDOT film was formed via iron oxide vapor-phase polymerization.•The resulting PEDOT film was used as CE in DSSC for the first time.•The…”
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Toward an Understanding of the Formation of Conducting Polymer Nanofibers by Tran, Henry D, Wang, Yue, D’Arcy, Julio M, Kaner, Richard B

“…Introducing small amounts of additives into polymerization reactions to produce conducting polymers can have a profound impact on the resulting polymer…”
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Solution-Processable PEDOT Particles for Coatings of Untreated 3D-Printed Thermoplastics by Lu, Yang, Yang, Haoru, Diao, Yifan, Wang, Hongmin, Izima, Chiemela, Jones, Imani, Woon, Reagan, Chrulski, Kenneth, D’Arcy, Julio M.

“…Lack of solution processability is the main bottleneck in research progression and commercialization of conducting polymers. The current strategy of employing…”
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Enhancing Cycling Stability of Aqueous Polyaniline Electrochemical Capacitors by Santino, Luciano M, Lu, Yang, Acharya, Shinjita, Bloom, Liana, Cotton, Daniel, Wayne, Aly, D’Arcy, Julio M

“…Electrochemical capacitors fabricated with polyaniline nanofibers are cycled 150 000 times with 98% capacitance retention. These devices maintain an energy…”
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Evaluation and Stability of PEDOT Polymer Electrodes for Li–O2 Batteries by Amanchukwu, Chibueze V, Gauthier, Magali, Batcho, Thomas P, Symister, Chanez, Shao-Horn, Yang, D’Arcy, Julio M, Hammond, Paula T

“…Lithium–air (O2) batteries have shown great promise because of their high gravimetric energy densityan order of magnitude greater than Li-ionbut challenges…”
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Studying Electrical Conductivity Using a 3D Printed Four-Point Probe Station by Lu, Yang, Santino, Luciano M, Acharya, Shinjita, Anandarajah, Hari, D’Arcy, Julio M

“…The design and fabrication of functional scientific instrumentation allows students to forge a link between commonly reported numbers and physical material…”
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Condensing Vapor Phase Polymerization (CVPP) of Electrochemically Capacitive and Stable Polypyrrole Microtubes by Santino, Luciano M, Hwang, Erica, Diao, Yifan, Lu, Yang, Wang, Hongmin, Jiang, Qisheng, Singamaneni, Srikanth, D’Arcy, Julio M

“…We introduce a novel condensing vapor phase polymerization (CVPP) strategy for depositing microtubes of the conducting polymer polypyrrole; these serve as…”
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Synthesis of Submicron PEDOT Particles of High Electrical Conductivity via Continuous Aerosol Vapor Polymerization by Lu, Yang, Kacica, Clayton, Bansal, Sonal, Santino, Luciano M, Acharya, Shinjita, Hu, Jiayi, Izima, Chiemela, Chrulski, Kenneth, Diao, Yifan, Wang, Hongmin, Yang, Haoru, Biswas, Pratim, Schaefer, Jacob, D’Arcy, Julio M

“…Current state-of-the-art synthetic strategies produce conducting polymers suffering from low processability and unstable chemical and/or physical properties…”
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Evaluation and Stability of PEDOT Polymer Electrodes for Li-O 2 Batteries by Amanchukwu, Chibueze V, Gauthier, Magali, Batcho, Thomas P, Symister, Chanez, Shao-Horn, Yang, D'Arcy, Julio M, Hammond, Paula T

“…Lithium-air (O ) batteries have shown great promise because of their high gravimetric energy density-an order of magnitude greater than Li-ion-but challenges…”
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Li-Anode Protective Layers for Li Rechargeable Batteries via Layer-by-Layer Approaches by Lee, Sun Hwa, Harding, Jonathon R, Liu, David S, D’Arcy, Julio M, Shao-Horn, Yang, Hammond, Paula T

“…Li–anode protective layers were fabricated using layer-by-layer (LBL) assembly. The simple deposition on a polymer support membrane of an ionic conductive…”
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