Jinwon Cho
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View article: Effect of Interfacial Electric Field on 2D Metal/Graphene Electrocatalysts for CO<sub>2</sub> Reduction Reaction
Effect of Interfacial Electric Field on 2D Metal/Graphene Electrocatalysts for CO<sub>2</sub> Reduction Reaction Open
Understanding the influence of local electric fields on electrochemical reactions is crucial for designing highly selective electrocatalysts for CO 2 reduction reactions (CO 2 RR). In this study, we provide a theoretical investigation of t…
View article: 2D Metal/Graphene and 2D Metal/Graphene/Metal Systems for Electrocatalytic Conversion of CO<sub>2</sub> to Formic Acid
2D Metal/Graphene and 2D Metal/Graphene/Metal Systems for Electrocatalytic Conversion of CO<sub>2</sub> to Formic Acid Open
Efficiently transforming CO 2 into renewable energy sources is crucial for decarbonization efforts. Formic acid (HCOOH) holds great promise as a hydrogen storage compound due to its high hydrogen density, non‐toxicity, and stability under …
View article: 2D Metal/Graphene and 2D Metal/Graphene/Metal Systems for Electrocatalytic Conversion of CO<sub>2</sub> to Formic Acid
2D Metal/Graphene and 2D Metal/Graphene/Metal Systems for Electrocatalytic Conversion of CO<sub>2</sub> to Formic Acid Open
Efficiently transforming CO 2 into renewable energy sources is crucial for decarbonization efforts. Formic acid (HCOOH) holds great promise as a hydrogen storage compound due to its high hydrogen density, non‐toxicity, and stability under …
View article: Multiscale Modeling Approach for the Aldol Addition Reaction in Multicompartment Micelle-Based Nanoreactor
Multiscale Modeling Approach for the Aldol Addition Reaction in Multicompartment Micelle-Based Nanoreactor Open
Water has emerged as a versatile solvent for organic chemistry in recent years due to its abundance, low cost, and environmental friendliness. However, one of the most important reactions, the aldol reaction, in the presence of excess wate…
View article: Catalysis Sans Catalyst Loss: The Origins of Prolonged Stability of Graphene–Metal–Graphene Sandwich Architecture for Oxygen Reduction Reactions
Catalysis Sans Catalyst Loss: The Origins of Prolonged Stability of Graphene–Metal–Graphene Sandwich Architecture for Oxygen Reduction Reactions Open
Over the past decades, the design of active catalysts has been the subject of intense research efforts. However, there has been significantly less deliberate emphasis on rationally designing a catalyst system with a prolonged stability. A …
View article: Nonorthogonal Cascade Catalysis in Multicompartment Micelles
Nonorthogonal Cascade Catalysis in Multicompartment Micelles Open
Multicompartment micelles (MCMs) containing acid and base sites in discrete domains are prepared from poly(norbornene)‐based amphiphilic bottlebrush copolymers in aqueous media. The acid and base sites are localized in different compartmen…
View article: Catalysis sans catalyst loss: The origins of prolonged stability of graphene-metal-graphene sandwich architecture for oxygen reduction reactions
Catalysis sans catalyst loss: The origins of prolonged stability of graphene-metal-graphene sandwich architecture for oxygen reduction reactions Open
Over the past several decades, the design of highly active and cost-effective catalysts and electrocatalyst has been the subject of intense research efforts.to However, there has been significantly less deliberate emphasis on rationally de…
View article: Catalytically Active Multicompartment Micelles
Catalytically Active Multicompartment Micelles Open
This article presents the self-assembly behavior of multicompartment micelles (MCMs) in water into morphologies with multiple segregated domains and their use as supports for aqueous catalysis. A library of poly(norbornene)-based amphiphil…
View article: Cooperativity in the Aldol Condensation Using Bifunctional Mesoporous Silica–Poly(styrene) MCM-41 Organic/Inorganic Hybrid Catalysts
Cooperativity in the Aldol Condensation Using Bifunctional Mesoporous Silica–Poly(styrene) MCM-41 Organic/Inorganic Hybrid Catalysts Open
This work explores the efficacy of silica/organic hybrid catalysts, where the organic component is built from linear aminopolymers appended to the silica support within the support mesopores. Specifically, the role of molecular weight and …
View article: One-pot synthesis of linear triblock terpolymers and their aqueous self-assembly
One-pot synthesis of linear triblock terpolymers and their aqueous self-assembly Open
Compartmentalized micelles are prepared through the self-assembly of linear triblock terpolymers containing hydrophilic (H), lipophilic (L), and fluorophilic (F) domains.
View article: Development of Industrial and Firefighter Protective Cloth of Base Fabric and Comparison of Fire Retardant Performance
Development of Industrial and Firefighter Protective Cloth of Base Fabric and Comparison of Fire Retardant Performance Open
To develop industrial and firefighter thermal protection cloth, 12 base fabrics were prepared from a combination of several types of sample, and their thermal performances were evaluated. Thermal performance comprises flame retardant capab…
View article: Creation of discrete active site domains <i>via</i> mesoporous silica poly(styrene) composite materials for incompatible acid–base cascade reactions
Creation of discrete active site domains <i>via</i> mesoporous silica poly(styrene) composite materials for incompatible acid–base cascade reactions Open
Mesoporous silica/polymer hybrid materials catalyze a two-step acid and base cascade reaction. Catalyst design emphasizes compartmentalization of incompatible Lewis base and Brønsted acid catalysts by tuning polymer chain length and silica…
View article: HighlyActive and Durable Ordered Intermetallic PdFeElectrocatalyst for Formic Acid Electrooxidation Reaction
HighlyActive and Durable Ordered Intermetallic PdFeElectrocatalyst for Formic Acid Electrooxidation Reaction Open
In this paper, we\nreport the preparation of a highly active and\ndurable ordered intermetallic PdFe catalyst supported on carbon black\nfor formic acid oxidation reaction (FAOR) by high-temperature heat\ntreatment under a reductive atmosp…
View article: Cover Feature: Palladium Single‐Atom Catalysts Supported on C@C<sub>3</sub>N<sub>4</sub> for Electrochemical Reactions (ChemElectroChem 18/2019)
Cover Feature: Palladium Single‐Atom Catalysts Supported on C@C<sub>3</sub>N<sub>4</sub> for Electrochemical Reactions (ChemElectroChem 18/2019) Open
The Cover Feature demonstrates the oxygen reduction reaction producing H2O2 on Pd single atoms anchored on a C3N4 layer. More information can be found in the Article by H.-E. Kim et al. on page 4757 in Issue 18, 2019 (DOI: 10.1002/celc.201…