Mohammad Karbalaei Akbari
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View article: Engineering Fe-Modified Zeolitic Imidazolate Frameworks (Fe-ZIF-8 and Fe-ZIF-67) via In Situ Thermal Synthesis for Enhanced Adsorption of Malachite Green from Aqueous Solutions: A Comprehensive Study of Isotherms, Kinetics, and Thermodynamics
Engineering Fe-Modified Zeolitic Imidazolate Frameworks (Fe-ZIF-8 and Fe-ZIF-67) via In Situ Thermal Synthesis for Enhanced Adsorption of Malachite Green from Aqueous Solutions: A Comprehensive Study of Isotherms, Kinetics, and Thermodynamics Open
Given the adverse effects of organic dyes from aqueous solutions on human physiology and the ecological system, establishing an effective system for their elimination is imperative. This study employs the in situ thermal (IST) method to sy…
View article: Emergent multiferroicity in two-dimensional electron gas of complex oxides for FET-based artificial synaptic junctions
Emergent multiferroicity in two-dimensional electron gas of complex oxides for FET-based artificial synaptic junctions Open
Multifunctional nanoarchitecture: integrating a 2D electron gas with robust multiferroicity enables high-mobility quantum transport and tunable ferroelectric polarization. Paves the way for advanced spintronics and energy-efficient neuromo…
View article: Exploring Heterointerface Characteristics and Charge-Storage Dynamics in ALD-Developed Ultra-Thin TiO2-In2O3/Au Heterojunctions
Exploring Heterointerface Characteristics and Charge-Storage Dynamics in ALD-Developed Ultra-Thin TiO2-In2O3/Au Heterojunctions Open
Directional ionic migration in ultra-thin metal-oxide semiconductors under applied electric fields is a key mechanism for developing various electronic nanodevices. However, understanding charge transfer dynamics is challenging due to rapi…
View article: Plasma-Modulated Supercapacitive-Coupled Memristive Behavior of Two-Dimensional Gallium Oxide Channels Towards the Realization of Tunable Semiconductor-Metal Nanoelectronic Gates
Plasma-Modulated Supercapacitive-Coupled Memristive Behavior of Two-Dimensional Gallium Oxide Channels Towards the Realization of Tunable Semiconductor-Metal Nanoelectronic Gates Open
View article: Atomic layer deposition-fabricated two-dimensional MoO3-WO3 nanohybrid thin-film electrode for ultrasensitive and interference-free detection of dopamine
Atomic layer deposition-fabricated two-dimensional MoO3-WO3 nanohybrid thin-film electrode for ultrasensitive and interference-free detection of dopamine Open
View article: Sonochemistry of Liquid-Metal Galinstan toward the Synthesis of Two-Dimensional and Multilayered Gallium-Based Metal–Oxide Photonic Semiconductors
Sonochemistry of Liquid-Metal Galinstan toward the Synthesis of Two-Dimensional and Multilayered Gallium-Based Metal–Oxide Photonic Semiconductors Open
The scientific field of two-dimensional (2D) nanostructures has witnessed tremendous development during the last decade. To date, different synthesis approaches have been developed; therefore, various exceptional properties of this family …
View article: Atomic Layer Deposition of Ultra-Thin Crystalline Electron Channels for Heterointerface Polarization at Two-Dimensional Metal-Semiconductor Heterojunctions
Atomic Layer Deposition of Ultra-Thin Crystalline Electron Channels for Heterointerface Polarization at Two-Dimensional Metal-Semiconductor Heterojunctions Open
Atomic layer deposition (ALD) has emerged as a promising technology for the development of the next generation of low-power semiconductor electronics. The wafer-scaled growth of two-dimensional (2D) crystalline nanostructures is a fundamen…
View article: Efficient and Sustainable Room-Temperature CO2 Conversion by Plasmonic Two-Dimensional Metal-Oxide Hybrid Nano-Interfaces
Efficient and Sustainable Room-Temperature CO2 Conversion by Plasmonic Two-Dimensional Metal-Oxide Hybrid Nano-Interfaces Open
The state-of-the-art nanotechnologies ensure the establishment of sustainable green systems for CO2 conversion. Recently, plasmonic two-dimensional (2D) nanostructures are found as effective platforms for efficient visible light-assisted p…
View article: Plasmonic Nanodomains Decorated on Two-Dimensional Oxide Semiconductors for Photonic-Assisted CO2 Conversion
Plasmonic Nanodomains Decorated on Two-Dimensional Oxide Semiconductors for Photonic-Assisted CO2 Conversion Open
Plasmonic nanostructures ensure the reception and harvesting of visible lights for novel photonic applications. In this area, plasmonic crystalline nanodomains decorated on the surface of two-dimensional (2D) semiconductor materials repres…
View article: Crystalline Nanodomains at Multifunctional Two-Dimensional Liquid–Metal Hybrid Interfaces
Crystalline Nanodomains at Multifunctional Two-Dimensional Liquid–Metal Hybrid Interfaces Open
Two-dimensional (2D) liquid–metal (LM) heterointerfaces with their tunable physicochemical characteristics are emerging platforms for the development of multifunctional hybrid nanostructures with numerous functional applications. From this…
View article: Functional Two-Dimensional Materials for Bioelectronic Neural Interfacing
Functional Two-Dimensional Materials for Bioelectronic Neural Interfacing Open
Realizing the neurological information processing by analyzing the complex data transferring behavior of populations and individual neurons is one of the fast-growing fields of neuroscience and bioelectronic technologies. This field is ant…
View article: Ald-Fabricated Two-Dimensional Moo3-Wo3 Nanohybrid Thin-Film Electrode for Ultrasensitive and Interference-Free Detection of Dopamine
Ald-Fabricated Two-Dimensional Moo3-Wo3 Nanohybrid Thin-Film Electrode for Ultrasensitive and Interference-Free Detection of Dopamine Open
View article: Dynamic Self-Rectifying Liquid Metal–Semiconductor Heterointerfaces: A Platform for Development of Bioinspired Afferent Systems
Dynamic Self-Rectifying Liquid Metal–Semiconductor Heterointerfaces: A Platform for Development of Bioinspired Afferent Systems Open
The assembly of geometrically complex and dynamically active liquid metal/semiconductor heterointerfaces has drawn extensive attention in multidimensional electronic systems. In this study the chemovoltaic driven reactions have enabled the…
View article: Plasma-induced sub-10 nm Au-SnO2-In2O3 heterostructures fabricated by atomic layer deposition for highly sensitive ethanol detection on ppm level
Plasma-induced sub-10 nm Au-SnO2-In2O3 heterostructures fabricated by atomic layer deposition for highly sensitive ethanol detection on ppm level Open
View article: 2D Semiconductor Nanomaterials and Heterostructures: Controlled Synthesis and Functional Applications
2D Semiconductor Nanomaterials and Heterostructures: Controlled Synthesis and Functional Applications Open
Two-dimensional (2D) semiconductors beyond graphene represent the thinnest stable known nanomaterials. Rapid growth of their family and applications during the last decade of the twenty-first century have brought unprecedented opportunitie…
View article: Fight against COVID-19: The case of antiviral surfaces
Fight against COVID-19: The case of antiviral surfaces Open
The COVID-19 pandemic is the largest global public health outbreak in the 21st century so far. Based on World Health Organization reports, the main source of SARS-CoV-2 infection is transmission of droplets released when an infected person…
View article: Fight against COVID-19: The case of antiviral surfaces Note: This paper is part of the Special Topic on Antiviral Materials and Coatings.
Fight against COVID-19: The case of antiviral surfaces Note: This paper is part of the Special Topic on Antiviral Materials and Coatings. Open
View article: B9.1 Optoelectronic Nociceptive Sensors Based on Heterostructured Semiconductor Films
B9.1 Optoelectronic Nociceptive Sensors Based on Heterostructured Semiconductor Films Open
A visible light optical nociceptive sensor was developed based on the heterostructured plasmonic Au/G2O3/TiO2 semiconductor films. The incorporation of nitrogen atoms and the following phase transformation of G2O3 ultra-thin film during ra…
View article: B9.4 Metal/Semiconductor Hetero-interface Engineering for Photocurrent Controlling in Plasmonic Photodetectors
B9.4 Metal/Semiconductor Hetero-interface Engineering for Photocurrent Controlling in Plasmonic Photodetectors Open
The heterointerface engineering at metal/semiconductor (MS) hetero-interfaces in Au/Ga2O3/TiO2 plasmonic photosensors enabled the modulation of charge transfer and photoconductance of detectors for adaptive perception of visible optical li…
View article: Nanoscale All-Oxide-Heterostructured Bio-inspired Optoresponsive Nociceptor
Nanoscale All-Oxide-Heterostructured Bio-inspired Optoresponsive Nociceptor Open
View article: Mimiking biological sensorimotor systems by opto-electronic artificial neurobotics
Mimiking biological sensorimotor systems by opto-electronic artificial neurobotics Open
View article: Selective and reliable ampometric H2O2 sensor based on Au-ZnO heterostructure electrode
Selective and reliable ampometric H2O2 sensor based on Au-ZnO heterostructure electrode Open
View article: A bioinspired optoelectronically engineered artificial neurorobotics device with sensorimotor functionalities
A bioinspired optoelectronically engineered artificial neurorobotics device with sensorimotor functionalities Open
Development of the next generation of bio- and nano-electronics is inseparably connected to the innovative concept of emulation and reproduction of biological sensorimotor systems and artificial neurobotics. Here, we report for the first t…
View article: Nanostructure-induced performance degradation of WO<sub>3</sub>·<i>n</i>H<sub>2</sub>O for energy conversion and storage devices
Nanostructure-induced performance degradation of WO<sub>3</sub>·<i>n</i>H<sub>2</sub>O for energy conversion and storage devices Open
Although 2D layered nanomaterials have been intensively investigated towards their application in energy conversion and storage devices, their disadvantages have rarely been explored so far especially compared to their 3D counterparts. Her…
View article: P1NM.1 - Wafer-scale two-dimensional ALD-developed α-MoO3 for ultra-sensitive, stable and selective hydrogen peroxide sensing
P1NM.1 - Wafer-scale two-dimensional ALD-developed α-MoO3 for ultra-sensitive, stable and selective hydrogen peroxide sensing Open
View article: P1NM.2 - Electrochemical hydrazine sensor based on atomically-thin sub-nanometer WO3 developed by atomic layer deposition
P1NM.2 - Electrochemical hydrazine sensor based on atomically-thin sub-nanometer WO3 developed by atomic layer deposition Open
Wafer-scale two-dimensional (2D) WO3 films with the different thicknesses of 0.78, 1.4, 3.6 and 6.5 nm were fabricated on Au-SiO2/Si substrates by atomic layer deposition (ALD) technique.The surface morphologies and chemical components cha…
View article: Cover Feature: Ultrasensitive, Sustainable, and Selective Electrochemical Hydrazine Detection by ALD‐Developed Two‐Dimensional WO<sub>3</sub> (ChemElectroChem 2/2018)
Cover Feature: Ultrasensitive, Sustainable, and Selective Electrochemical Hydrazine Detection by ALD‐Developed Two‐Dimensional WO<sub>3</sub> (ChemElectroChem 2/2018) Open
The Cover Feature illustrates a monolayer WO3 film with a thickness of approximately 0.7 nm, which was developed by using an atomic layer deposition technique for ultra-sensitive electrochemical hydrazine detection at extremely low concent…
View article: Data set for fabrication of conformal two-dimensional TiO2 by atomic layer deposition using tetrakis (dimethylamino) titanium (TDMAT) and H2O precursors
Data set for fabrication of conformal two-dimensional TiO2 by atomic layer deposition using tetrakis (dimethylamino) titanium (TDMAT) and H2O precursors Open
View article: Investigation of discontinuously reinforced aluminium metal matrix composite fabricated by two different micron ceramic reinforcements (ZrSiO;4, B;4C): Comparative study
Investigation of discontinuously reinforced aluminium metal matrix composite fabricated by two different micron ceramic reinforcements (ZrSiO;4, B;4C): Comparative study Open
The focus of this research is on the fabrication of aluminium-B4C and aluminium-ZrSiO4 composites by vortex method as a liquid phase process of metal matrix composites.SEM observations show that reinforcement particles are dispersed homoge…