Jonathan Tzadikov
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View article: Efficient and Scalable Electrochemical Energy Systems via Peroxide‐Mediated Redox Chemistry
Efficient and Scalable Electrochemical Energy Systems via Peroxide‐Mediated Redox Chemistry Open
The transition to renewable energy demands cost‐effective and environmentally sustainable technologies. Electrochemical redox reactions, particularly the oxygen evolution reaction and the oxygen reduction reaction, are central to energy co…
View article: Energy‐Efficient and Scalable Joule Heating Synthesis of Self‐Standing Transition Metal Phosphide Electrodes for Full Water Splitting
Energy‐Efficient and Scalable Joule Heating Synthesis of Self‐Standing Transition Metal Phosphide Electrodes for Full Water Splitting Open
Transition metal phosphides (TMPs) show promise as low‐cost (pre)electrocatalysts for water splitting and other energy‐related applications. However, their traditional synthesis methods face challenges in energy consumption, stability, and…
View article: Energy‐Efficient Hydrogen Generation via Peroxide‐Mediated Electrocatalytic Pathways
Energy‐Efficient Hydrogen Generation via Peroxide‐Mediated Electrocatalytic Pathways Open
Hydrogen (H 2 ) production through water electrolysis is a promising route for sustainable energy storage. However, conventional water electrolysis faces several challenges, such as large thermodynamic potential gaps and sluggish oxygen ev…
View article: A Rechargeable Zn–Air Battery with High Energy Efficiency Enabled by a Hydrogen Peroxide Bifunctional Catalyst
A Rechargeable Zn–Air Battery with High Energy Efficiency Enabled by a Hydrogen Peroxide Bifunctional Catalyst Open
Rechargeable alkaline zinc–air batteries (ZAB) hold great promise as a viable, sustainable, and safe alternative energy storage system to the lithium‐ion battery. However, the practical realization of ZABs is limited by their intrinsically…
View article: Developing extended visible light responsive polymeric carbon nitrides for photocatalytic and photoelectrocatalytic applications
Developing extended visible light responsive polymeric carbon nitrides for photocatalytic and photoelectrocatalytic applications Open
Polymeric carbon nitride (CN) has emerged as an attractive material for photocatalysis and photoelectronic devices.
View article: Carbon-Phosphorus-Nitrogen Materials as Highly Thermally Stable Catalyst Supports for CO<sub>2</sub> Hydrogenation to Methanol
Carbon-Phosphorus-Nitrogen Materials as Highly Thermally Stable Catalyst Supports for CO<sub>2</sub> Hydrogenation to Methanol Open
[EN] The direct conversion of CO2 into methanol through hydrogenation reactions by heterogeneous catalysts is considered a promising green approach for fuel production. The most researched catalyst for methanol formation is Cu, usually in …
View article: Carbon Nitride‐Based Photoanode with Enhanced Photostability and Water Oxidation Kinetics
Carbon Nitride‐Based Photoanode with Enhanced Photostability and Water Oxidation Kinetics Open
Carbon nitrides (CN) have emerged as promising photoanode materials for water‐splitting photoelectrochemical cells (PECs). However, their poor charge separation and transfer properties, together with slow water‐oxidation kinetics, have res…
View article: Direct growth of uniform carbon nitride layers with extended optical absorption towards efficient water-splitting photoanodes
Direct growth of uniform carbon nitride layers with extended optical absorption towards efficient water-splitting photoanodes Open
A general synthesis of carbon nitride (CN) films with extended optical absorption, excellent charge separation under illumination, and outstanding performance as a photoanode in water-splitting photoelectrochemical cells is reported. To th…
View article: Electrophoretic deposition of supramolecular complexes for the formation of carbon nitride films
Electrophoretic deposition of supramolecular complexes for the formation of carbon nitride films Open
The large-scale fabrication of polymeric carbon nitride (CN) films with tunable thickness, composition and photoelectrochemical properties is reported.
View article: Synthesis of metal-free lightweight materials with sequence-encoded properties
Synthesis of metal-free lightweight materials with sequence-encoded properties Open
A general synthesis of phosphorus–nitrogen–carbon materials with highly tunable elemental composition and spatial organization as well as structural, electronic, and thermal stability properties is reported.
View article: Layered Boron–Nitrogen–Carbon–Oxygen Materials with Tunable Composition as Lithium‐Ion Battery Anodes
Layered Boron–Nitrogen–Carbon–Oxygen Materials with Tunable Composition as Lithium‐Ion Battery Anodes Open
The insertion of heteroatoms with different electronegativity into carbon materials can tune their chemical, electronic, and optical properties. However, in traditional solid‐state synthesis, it is challenging to control the reactivity of …
View article: Unprecedented Centimeter‐Long Carbon Nitride Needles: Synthesis, Characterization and Applications
Unprecedented Centimeter‐Long Carbon Nitride Needles: Synthesis, Characterization and Applications Open
Free standing centimeter‐long 1D nanostructures are highly attractive for electronic and optoelectronic devices due to their unique photophysical and electrical properties. Here a simple, large‐scale synthesis of centimeter‐long 1D carbon …