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MTH Liquid Metal Catalyst

Revolutionizing Methanol to Hydrocarbons (MTH) Conversion: The Pioneering Role of Liquid Metal Catalyst Stability Enhancement

Introduction: Methanol to Hydrocarbons (MTH) The pursuit of sustainable chemical processes has led researchers to explore innovative pathways for converting abundant resources into valuable chemicals. Among these, the conversion of methanol to hydrocarbons (MTH) stands out due to its potential to leverage methanol—a simple, widely producible molecule—into more complex hydrocarbons. Traditional catalysts used in this […]

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In development that could revolutionize lithium production for batteries, researchers have fabricated a polyamide (PA) nanofiltration (NF) membrane

New Polyamide Membrane Achieves Extreme Lithium Magnesium Selectivity

Background: Importance of Lithium and Magnesium Selectivity Lithium is a crucial component in lithium-ion batteries, which power everything from electric vehicles to portable electronics, and the growing global demand for these batteries has made efficient lithium extraction a priority. However, one of the main challenges is separating lithium from magnesium, which is difficult because magnesium’s

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Unleashing the Power of Ultra-Complex Metal-Organic Frameworks (MOFs) with Integrated Zeolite Subnetworks

Unlocking Zeolite MOF Synergy: An Ingenious Assembly Technology

Introduction: Zeolite / MOF Synergy In the quest to design advanced functional materials, scientists have long sought to combine the exceptional properties of zeolites and metal-organic frameworks (MOFs). Zeolites, with their well-defined crystalline structures and uniform micropores, offer unparalleled molecular sieving capabilities. Meanwhile, MOFs, constructed from metal nodes and organic linkers, boast unprecedented structural diversity

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Development of a new water electrolysis method that does not require a membrane, SCE (SuperCapacitive Electrolyzer)

Development of a New Water Electrolysis Method without Membrane, SCE (SuperCapacitive Electrolyzer)

Introduction: water electrolysis method without membrane Researchers in Sweden recently published research on electrolyzer for membrane-free water electrolysis and presented groundbreaking findings on sustainable hydrogen production that can replace fossil fuels. This innovative SuperCapacitive Electrolyzer (SCE) enables membrane-free operation and addresses the critical challenges of scalability and cost reduction of green hydrogen production using earth-abundant

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A Tiny Revolution on Your Table: Carving a Healthier Future with Carbohydrates with Food LEGO

A Tiny Revolution on Your Table: Carving a Healthier Future with Carbohydrate with Food LEGO

Introduction : Carbohydrate with Food LEGO In the forefront of food science innovation, the study of carbohydrate-based structures showcases significant advancements at the intersection of food science and technology. This pioneering approach leverages the unique properties of carbohydrates to dramatically alter the texture and viscosity of food products, focusing on sustainability and health benefits. The

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Direct observation and identification of microplastics in ocean water

The Science of Saving the Oceans: The World of Microplastics Revealed by Shrinking Surface Bubble Deposition (SSBD) Technology

Introduction – Environmental Threats from Microplastics The problem of microplastics in the ocean is of great concern worldwide. Microplastics, these tiny particles, have serious impacts on marine ecosystems and can eventually affect humans. However, directly observing and identifying these microplastics has been challenging using existing technologies. Recently, scientists are seeking a solution to this problem

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EMI shielding material design and advanced manufacturing methods

EMI Shielding Material – Design Freedom and Advanced Manufacturing

Introduction: EMI Shielding Material EMI (Electromagnetic Interference) shielding is crucial in protecting electronic devices from electromagnetic radiation emitted by various sources. It works by reflecting and absorbing electromagnetic waves, preventing them from interfering with the operation of sensitive electronic components. The efficiency of this EMI shielding is measured by Shielding Effectiveness (SE) or Shielding Efficiency

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carbon fiber composite

Carbon Fiber Composite : Sustainability and Performance

Introduction: Carbon Fiber Composite In the realm of materials science, two significant developments are setting the stage for a more sustainable and efficient future. Hyosung’s product expansion through the application of sustainable carbon fiber and Teijin’s innovative approach to producing carbon fiber composite from sustainable raw materials represent a pivotal change in the industry. The

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Barium Iron Oxides: Revolutionizing CO2 Capture and Chemical Looping Oxygen Uncoupling (CLOU)

Barium Iron Oxides: Revolutionizing CO2 Capture and Chemical Looping Oxygen Uncoupling (CLOU)

Introduction – Barium Iron Oxides Scientists studied two unknown ternary oxides, Ba3Fe2O6 and Ba5Fe2O8. The primary objective is to assess their efficacy in two critical environmental applications: the capture of carbon dioxide (CO2) and their role in chemical looping oxygen uncoupling (CLOU). The study is driven by the urgent need to develop effective technologies for

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Core Shell Structures: Synthesis Methods and Diverse Industrial Applications

Core Shell Structure: Synthesis Methods and Diverse Industrial Applications

Introduction : Core Shell Structure Core shell structures are an important innovation in materials science, enabling the combination of two or more materials to exhibit unique properties. This structure combines the properties of the core (the inner material) and the shell (the outer coating material) to provide enhanced or new functionality. The core material is

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