Journal Article

Current Progress in Advanced Functional Membranes for Water-Pollutant Removal: A Critical Review featured image
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Current Progress in Advanced Functional Membranes for Water-Pollutant Removal: A Critical Review

Advanced functional membranes based on MOFs, CNTs, and electro-Fenton systems offer promising, customizable solutions for removing complex water pollutants, though challenges in …

manseeb-m.-mannaf
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Enhanced Stability and Sensitivity for CA-125 Detection Under Microfluidic Shear Flow Using Polyethylene Glycol-Coated Biosensor featured image
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Enhanced Stability and Sensitivity for CA-125 Detection Under Microfluidic Shear Flow Using Polyethylene Glycol-Coated Biosensor

This study demonstrates that PEG-functionalized biosensors significantly improve sensitivity and stability of CA-125 detection under microfluidic shear flow, overcoming limitations …

yudong-wang
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N-Doped Graphene (N-G)/MOF(ZIF-8)-Based/Derived Materials for Electrochemical Energy Applications: Synthesis, Characteristics, and Functionality featured image
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N-Doped Graphene (N-G)/MOF(ZIF-8)-Based/Derived Materials for Electrochemical Energy Applications: Synthesis, Characteristics, and Functionality

This review critically examines the synthesis, structure, and electrochemical performance of N-G/ZIF-8-derived materials for batteries, supercapacitors, and ORR catalysis, …

niladri-talukder
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Dean vortex-enhanced blood plasma separation in self-driven spiral microchannel flow with cross-flow microfilters featured image
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Dean vortex-enhanced blood plasma separation in self-driven spiral microchannel flow with cross-flow microfilters

This study demonstrates passive hematocrit reduction in whole blood using inertial focusing within a spiral microchannel, enabling efficient plasma separation for self-driven …

yudong-wang
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Investigation on electrocatalytic performance and material degradation of an N-doped graphene-MOF nanocatalyst in emulated electrochemical environments featured image
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Investigation on electrocatalytic performance and material degradation of an N-doped graphene-MOF nanocatalyst in emulated electrochemical environments

This study demonstrates that hydrogen peroxide–induced degradation significantly alters the structure, composition, and ORR performance of N-G/MOF nanocatalysts under …

niladri-talukder
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An In-Depth Exploration of the Electrochemical Oxygen Reduction Reaction (ORR) Phenomenon on Carbon-Based Catalysts in Alkaline and Acidic Mediums featured image
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An In-Depth Exploration of the Electrochemical Oxygen Reduction Reaction (ORR) Phenomenon on Carbon-Based Catalysts in Alkaline and Acidic Mediums

This study clarifies oxygen reduction reaction mechanisms on N-G/MOF catalysts by systematically interpreting RDE/RRDE voltammetry behavior and electrolyte effects in alkaline and …

niladri-talukder
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Microfluidic-Based Novel Optical Quantification of Red Blood Cell Concentration in Blood Flow featured image
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Microfluidic-Based Novel Optical Quantification of Red Blood Cell Concentration in Blood Flow

This study presents a rapid optical method to quantify hematocrit in flowing microfluidic blood by correlating grayscale intensity of microscope images with red blood cell …

yudong-wang
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Nitrogen-doped graphene nanomaterials for electrochemical catalysis/reactions: A review on chemical structures and stability featured image
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Nitrogen-doped graphene nanomaterials for electrochemical catalysis/reactions: A review on chemical structures and stability

This review comprehensively analyzes nitrogen-doped graphene’s structural, electronic, and catalytic properties, examining synthesis parameters, nitrogen configurations, and …

niladri-talukder
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COVID-19 Biomarkers and Advanced Sensing Technologies for Point-of-Care (POC) Diagnosis featured image
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COVID-19 Biomarkers and Advanced Sensing Technologies for Point-of-Care (POC) Diagnosis

Advanced nanosensor platforms, particularly graphene FET devices, enable rapid and highly sensitive point-of-care detection of SARS-CoV-2 biomarkers, offering faster alternatives …

ernst-emmanuel-etienne
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Blood Plasma Self-Separation Technologies during the Self-Driven Flow in Microfluidic Platforms featured image
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Blood Plasma Self-Separation Technologies during the Self-Driven Flow in Microfluidic Platforms

This review analyzes passive microfluidic blood plasma self-separation mechanisms in lab-on-a-chip devices, focusing on microchannel geometry, capillary flow, and hydrodynamic …

yudong-wang
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