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View article: Atmospheric Cold Plasma Technology Enabling Scalable Surface‐Independent Protein Immobilization for Biosensing Applications
Atmospheric Cold Plasma Technology Enabling Scalable Surface‐Independent Protein Immobilization for Biosensing Applications Open
Biosensors show great potential across various fields including, but not limited to, medical diagnostics, drug development, and environmental monitoring. Yet, commercialization faces challenges, particularly in fabrication and biofunctiona…
View article: Large-Gap Quantum Spin Hall Insulators in Two-Dimensional Hafnium Halides: Unraveling the Impact of Strain and Substrate
Large-Gap Quantum Spin Hall Insulators in Two-Dimensional Hafnium Halides: Unraveling the Impact of Strain and Substrate Open
Two-dimensional (2D) topological insulators (TIs) or quantum spin Hall (QSH) insulators, characterized by insulating 2D electronic band structures and metallic helical edge states protected by time-reversal symmetry, offer a platform for r…
View article: Mott resistive switching initiated by topological defects
Mott resistive switching initiated by topological defects Open
Avalanche resistive switching is the fundamental process that triggers the sudden change of the electrical properties in solid-state devices under the action of intense electric fields[1]. Despite its relevance for information processing, …
View article: Mott resistive switching initiated by topological defects
Mott resistive switching initiated by topological defects Open
Resistive switching is the fundamental process that triggers the sudden change of the electrical properties in solid-state devices under the action of intense electric fields. Despite its relevance for information processing, ultrafast ele…
View article: Confinement-Induced Isosymmetric Metal-Insulator Transition in Ultrathin Epitaxial V2O3 Films
Confinement-Induced Isosymmetric Metal-Insulator Transition in Ultrathin Epitaxial V2O3 Films Open
Dimensional confinement has shown to be an effective strategy to tune competing degrees of freedom in complex oxides. Here, we achieved atomic layered growth of trigonal vanadium sesquioxide (V2O3) by means of oxygen-assisted molecular bea…
View article: Epitaxial growth of V2O3 thin films on Si(1 1 1) by molecular beam epitaxy
Epitaxial growth of V2O3 thin films on Si(1 1 1) by molecular beam epitaxy Open
status: Published
View article: A tutorial mini-review on nanoporous carbons from biosourced building blocks: ordered hierarchical nanoarchitectures through benign methodologies
A tutorial mini-review on nanoporous carbons from biosourced building blocks: ordered hierarchical nanoarchitectures through benign methodologies Open
Ordered hierarchically porous carbons exhibiting micro- and mesopores are state-of-the-art porous structures with extraordinary performance in a range of applications (e.g., electrochemistry, catalysis, water treatment). Nevertheless, they…
View article: Prediction of Aerodynamic Performance for Multiple Flettner Rotors on the Oil Tanker using Deep Learning Methodology
Prediction of Aerodynamic Performance for Multiple Flettner Rotors on the Oil Tanker using Deep Learning Methodology Open
The Flettner rotor is one of the wind-assisted propulsion devices for eco-friendly ships.To verify the efficiency of the rotor system, assessment of the performance of rotors considering the interaction of multiple rotors is essentially re…
View article: A tutorial mini-review on nanoporous carbons from biosourced compounds: ordered hierarchical nanoarchitectures through benign methodologies
A tutorial mini-review on nanoporous carbons from biosourced compounds: ordered hierarchical nanoarchitectures through benign methodologies Open
This tutorial mini-review gives critical insight into sustainable strategies to prepare ordered mesoporous hierarchically structured nanoporous carbons from biosourced compounds. Modified soft-templating methods are proposed as promising c…
View article: Nanoporous Silica–Alumina Films Fabricated on Silicon Photonic Chips for Selective Ammonia Sensing
Nanoporous Silica–Alumina Films Fabricated on Silicon Photonic Chips for Selective Ammonia Sensing Open
Surface-modified nanoporous silica films offer attractive features for analyte-specific gas detection applications. Here we demonstrate the integration of highly porous silica-alumina films on silicon nanophotonic chips and their performan…
View article: Mutual Influence between Polyvinyl Chloride (Micro)Plastics and Black Soldier Fly Larvae (Hermetia illucens L.)
Mutual Influence between Polyvinyl Chloride (Micro)Plastics and Black Soldier Fly Larvae (Hermetia illucens L.) Open
Due to the expansion in the global population, there is an increase in animal protein demand and waste generation. Currently, food waste derived from supermarkets, etc., which is used to produce biogas, is collected separately and can cont…
View article: Growth and Characterization of Ultrathin Vanadium Oxide Films on HOPG
Growth and Characterization of Ultrathin Vanadium Oxide Films on HOPG Open
Integration of graphene into various electronic devices requires an ultrathin oxide layer on top of graphene. However, direct thin film growth of oxide on graphene is not evident because of the low surface energy of graphene promoting thre…
View article: On the origin of supertetragonality in BaTiO$_3$
On the origin of supertetragonality in BaTiO$_3$ Open
Understanding ferroelectricity is of both fundamental and technological importance to further stimulate the development of new materials designs and manipulations. Here, we perform an in-depth first-principle study on the well-known ferroe…
View article: Two dimensional V2O3 and its experimental feasibility as robust room-temperature magnetic Chern insulator
Two dimensional V2O3 and its experimental feasibility as robust room-temperature magnetic Chern insulator Open
The possibility of dissipationless chiral edge states without the need of an external magnetic field in the quantum anomalous Hall effect (QAHE) offers a great potential in electronic/spintronic applications. The biggest hurdle for the rea…
View article: Efficient Direct Band-Gap Transition in Germanium by Three-Dimensional Strain
Efficient Direct Band-Gap Transition in Germanium by Three-Dimensional Strain Open
Complementary to the development of highly three-dimensional (3D) integrated circuits in the continuation of Moore's law, there has been a growing interest in new 3D deformation strategies to improve the device performance. To continue thi…
View article: Carbon Nanotube Fibers Decorated with MnO2 for Wire-Shaped Supercapacitor
Carbon Nanotube Fibers Decorated with MnO2 for Wire-Shaped Supercapacitor Open
Fibers made from CNTs (CNT fibers) have the potential to form high-strength, lightweight materials with superior electrical conductivity. CNT fibers have attracted great attention in relation to various applications, in particular as condu…
View article: Quarter-filled Kane-Mele Hubbard model: Dirac half metals
Quarter-filled Kane-Mele Hubbard model: Dirac half metals Open
Recent experimental success in the realization of two-dimensional (2D) magnetism has stimulated the search for new magnetic 2D materials with strong magnetic anisotropy and high Curie temperature. One promising subgroup of 2D magnetic syst…
View article: Room temperature Mott metal–insulator transition in V2O3 compounds induced via strain-engineering
Room temperature Mott metal–insulator transition in V2O3 compounds induced via strain-engineering Open
Vanadium sesquioxide (V2O3) is an archetypal Mott insulator in which the atomic positions and electron correlations change as temperature, pressure, and doping are varied, giving rise to different structural, magnetic, or electronic phase …
View article: Controlling the Structure of Carbon Deposit by Nitrogen Doping Catalytic Chemical Vapor Deposition Synthesis
Controlling the Structure of Carbon Deposit by Nitrogen Doping Catalytic Chemical Vapor Deposition Synthesis Open
Nitrogen doped multi-walled carbon nanotubes and other carbon nanoparticles were synthesized by catalytic chemical vapor deposition of tripropylamine and acetylene on CaCO 3 -supported cobalt catalyst (5 wt%), prepared by impregnation, and…
View article: Room temperature Mott metal-insulator transition in V2O3 compounds induced via strain-engineering
Room temperature Mott metal-insulator transition in V2O3 compounds induced via strain-engineering Open
Vanadium sesquioxide (V2O3) is an archetypal Mott insulator in which the atomic positions and electron correlations change as temperature, pressure or doping are varied giving rise to different structural, magnetic or electronic phase tran…
View article: Two-dimensional honeycomb-kagome V2O3: a robust room-temperature magnetic Chern insulator interfaced with graphene
Two-dimensional honeycomb-kagome V2O3: a robust room-temperature magnetic Chern insulator interfaced with graphene Open
The possibility of dissipationless chiral edge states without the need of an external magnetic field in the quantum anomalous Hall effect (QAHE) offers a great potential in electronic/spintronic applications. The biggest hurdle for the rea…
View article: Spherical core–shell alumina support particles for model platinum catalysts
Spherical core–shell alumina support particles for model platinum catalysts Open
Pt loaded alumina spheres, combined with a zeolite, are presented as a flexible model bifunctional catalyst.
View article: Hierarchical ISI-1 zeolite catalyst for hydroconversion of long-chain paraffins
Hierarchical ISI-1 zeolite catalyst for hydroconversion of long-chain paraffins Open
The hierarchization via desilication of ISI-1 zeolite, belonging to the TON type family and its impact on catalytic performance in hydroconversion of model long chain n-alkanes are presented.
View article: Proof of Concept Study: Mesoporous Silica Nanoparticles, From Synthesis to Active Specific Immunotherapy
Proof of Concept Study: Mesoporous Silica Nanoparticles, From Synthesis to Active Specific Immunotherapy Open
Nanomaterials are increasingly valued tools in drug delivery research as they offer enhanced stability, controlled release and more effective drug encapsulation. Though yet to be introduced in clinical trial, mesoporous silica nanoparticle…
View article: Inhibition of Photoconversion Activity in Self-Assembled ZnO-Graphene Quantum Dots Aggregated by 4-Aminophenol Used as a Linker
Inhibition of Photoconversion Activity in Self-Assembled ZnO-Graphene Quantum Dots Aggregated by 4-Aminophenol Used as a Linker Open
The aggregation of zinc oxide nanoparticles leads to an increased absorbance in the ultraviolet-visible region by an induced light scattering effect. Herein, we demonstrate the inhibition of photoconversion activity in ZnO-graphene core-sh…