Search Results - "Ilic, Ivan K."

Schiff‐bases for sustainable battery and supercapacitor electrodes by Troschke, Erik, Oschatz, Martin, Ilic, Ivan K.

“…The quest for more efficient ways to store electrical energy prompted the development of different storage devices over the last decades. This includes but is…”
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Performance Effects of Different Shutdown Methods on Three Electrode Materials for Electromethanogenesis by Rohbohm, Nils, Lang, Maren, Erben, Johannes, Gemeinhardt, Kurt, Patel, Nitant, Ilic, Ivan K., Hafenbradl, Doris, Rodrigo Quejigo, Jose, Angenent, Largus T.

“…Industrial applications of microbial electrochemical systems will require regular maintenance shutdowns, involving inspections and component replacements to…”
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An Edible Bistable Tilt Sensor Enabling Autonomous Operation of a Partially Eatable Rolling Robot by Annese, Valerio F., Kwak, Bokeon, Coco, Giulia, Galli, Valerio, Ilic, Ivan K., Cataldi, Pietro, Floreano, Dario, Caironi, Mario

“…Edible electronics and robotics are emerging areas intimately bridging food science and engineering to deliver technology using food‐derived materials. Edible…”
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Changes of porosity of hard carbons during mechanical treatment and the relevance for sodium-ion anodes by Ilic, Ivan K., Schutjajew, Konstantin, Zhang, Wuyong, Oschatz, Martin

“…Lithium-ion batteries have revolutionized battery technology. However, the scarcity of lithium in nature is driving the search for alternatives. For that…”
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The Functional Chameleon of Materials Chemistry—Combining Carbon Structures into All‐Carbon Hybrid Nanomaterials with Intrinsic Porosity to Overcome the “Functionality‐Conductivity‐Dilemma” in Electrochemical Energy Storage and Electrocatalysis by Ilic, Ivan K., Oschatz, Martin

“…Nanoporous carbon materials can cover a remarkably wide range of physicochemical properties. They are widely applied in electrochemical energy storage and…”
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Interplay of Porosity, Wettability, and Redox Activity as Determining Factors for Lithium–Organic Electrochemical Energy Storage Using Biomolecules by Ilic, Ivan K., Perovic, Milena, Liedel, Clemens

“…Although several recent publications describe cathodes for electrochemical energy storage materials made from regrown biomass in aqueous electrolytes, their…”
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An Edible Rechargeable Battery by Ilic, Ivan K., Galli, Valerio, Lamanna, Leonardo, Cataldi, Pietro, Pasquale, Lea, Annese, Valerio F., Athanassiou, Athanassia, Caironi, Mario

“…Edible electronics is a growing field that aims to produce digestible devices using only food ingredients and additives, thus addressing many of the…”
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Oxygen-rich poly-bisvanillonitrile embedded amorphous zirconium oxide nanoparticles as reusable and porous adsorbent for removal of arsenic species from water by Seynnaeve, Bram, Folens, Karel, Krishnaraj, Chidharth, Ilic, Ivan K., Liedel, Clemens, Schmidt, Johannes, Verberckmoes, An, Du Laing, Gijs, Leus, Karen, Van Der Voort, Pascal

“…A new oxygen-rich porous polymer based on bisvanillonitrile was synthesized and characterized. This polymer was employed as support for the anchoring of 14.5…”
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Vanillin decorated chitosan as electrode material for sustainable energy storage by Ilic, Ivan K, Meurer, Maren, Chaleawlert-Umpon, Saowaluk, Antonietti, Markus, Liedel, Clemens

“…Energy storage materials made from bioresources are crucial to fulfil the need for truly sustainable energy storage. In this work, vanillin, being a…”
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Self-Powered Edible Defrosting Sensor by Ilic, Ivan K., Lamanna, Leonardo, Cortecchia, Daniele, Cataldi, Pietro, Luzio, Alessandro, Caironi, Mario

“…Improper freezing of food causes food waste and negatively impacts the environment. In this work, we propose a device that can detect defrosting events by…”
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Polymerization in Carbone: A Novel Method for the Synthesis of More Sustainable Electrodes and Their Application as Cathodes for Lithium–Organic Energy Storage Materials Based On Vanillin by Ilic, Ivan K, Leus, Karen, Schmidt, Johannes, Hwang, Jinyeon, Maranska, Maria, Eigler, Siegfried, Liedel, Clemens

“…Sustainable energy storage materials are needed to implement necessary transitions to a more sustainable society. Therefore, we present novel vanillin (and…”
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Sustainable Cathodes for Lithium‐Ion Energy Storage Devices Based on Tannic Acid—Toward Ecofriendly Energy Storage by Ilic, Ivan K., Tsouka, Alexandra, Perovic, Milena, Hwang, Jinyeon, Heil, Tobias, Loeffler, Felix F., Oschatz, Martin, Antonietti, Markus, Liedel, Clemens

“…The use of organic materials with reversible redox activity holds enormous potential for next‐generation Li‐ion energy storage devices. Yet, most candidates…”
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Caffeine-Derived Noble Carbons as Ball Milling-Resistant Cathode Materials for Lithium-Ion Capacitors by Ilic, Ivan K, Lepre, Enrico, López-Salas, Nieves

“…Energy consumption is a growing phenomenon in our society causing many negative effects such as global warming. There is a need for the development of new…”
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A Sprayable Electrically Conductive Edible Coating for Piezoresistive Strain Sensing by Annese, Valerio Francesco, Cataldi, Pietro, Galli, Valerio, Coco, Giulia, Damasceno, João Paulo Vita, Keller, Alex, Kumaresan, Yogeenth, Rossi, Pietro, Ilic, Ivan K., Kwak, Bokeon, Kubota, Lauro Tatsuo, Athanassiou, Athanassia, Rossiter, Jonathan, Floreano, Dario, Caironi, Mario

“…Edible electronics leverages the electronic properties of food‐derived materials to deliver safer technologies that can be degraded (or digested) in the…”
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Edible cellulose-based conductive composites for triboelectric nanogenerators and supercapacitors by Lamanna, Leonardo, Pace, Giuseppina, Ilic, Ivan K., Cataldi, Pietro, Viola, Fabrizio, Friuli, Marco, Galli, Valerio, Demitri, Christian, Caironi, Mario

“…Edible electronics will enable systems that can be safely ingested and degraded in the human body after completing their function, such as sensing…”
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A Coplanar Edible Rechargeable Battery with Enhanced Capacity by Galli, Valerio, Annese, Valerio F., Coco, Giulia, Cataldi, Pietro, Scribano, Vincenzo, Ilic, Ivan K., Athanassiou, Athanassia, Caironi, Mario

“…Abstract Edible rechargeable batteries represent a novel opportunity for energy storage, which currently involves the use of toxic materials. Being entirely…”
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Vanillin decorated chitosan as electrode material for sustainable energy storageElectronic supplementary information (ESI) available: Synthesis procedures, 1H NMR raw data, image of electrochemical cell, CV curves, elemental analysis, TGA, SEM (EDX). See DOI: 10.1039/c9ra00140a by Ilic, Ivan K, Meurer, Maren, Chaleawlert-umpon, Saowaluk, Antonietti, Markus, Liedel, Clemens

“…Energy storage materials made from bioresources are crucial to fulfil the need for truly sustainable energy storage. In this work, vanillin, being a…”
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