Friday, August 23, 2019
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spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Going with the Flow

A*STAR researchers have developed a model that can simulate the complicated forces exerted by flowing water on an array of cylinders supporting water-borne structures...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Brain Region Controls Hunger in Mice

Lying deep in the brain, an overlooked region controls feeding patterns in mice, neuroscientists at A*STAR have shown1. This discovery opens up the possibility...
Cancer cells, cilia development, air pollution, photonic devices, Micro-lens, mosquito-borne infections, Microbiota, bone repair, 3D printing, neurodegenerative disease, cancer treatments, biological research, sepsis, foot and mouth disease, cytometry, batteries, Influenza A virus, vascular diseases, New Cancer Drugs, RNA molecules, polymers, antimicrobial resistance, Aging White Blood Cells, microviscosity, Transplant Drug, Nanophotonics, photonics, Built-In Nanobulbs, cerebral cortex, cancer cells, nanowires, optoelectronic, solar energy, gold nanowires, Chikungunya virus, concrete, glaucoma, light-emitting diode, Proteomics, nanostructures, nickel catalyst, Ultrafast lasers, liver capsular macrophages, obesity, cancer, lignin polymer, liver capsular macrophages, Ultrafast lasers, monocyte cells, cancer treatments, antibody drug, gene mutations, quantum-entangled photons, gut microbes, skin aging, stroke, machine learning, Cloned tumors, cancer, Rare Skin Disease, terahertz lasers, silicon-nanostructure pixels, oral cancer, heart muscle cells, cancer, cancer stem cells, gastric cancer, microelectromechanical systems, data storage, silicon nanostructures, Drug delivery, cancer, muscle nuclei, Lithography, silicon nanostructures, Quantum matter, robust lattice structures, potassium ions, Photothermal therapy, Photonic devices, Optical Components, retina, allergy, immune cells, catalyst, Nanopositioning devices, mold templates, lung cancer, cytoskeletons, hepatitis b, cardiovascular disease, memory deficits, Photonics, pre-eclampsia treatment, hair loss, nanoparticles, mobile security, Fluid dynamics, MXene, Metal-assisted chemical etching, nanomedicine, Colorectal cancer, cancer therapy, liver inflammation, cancer treatment, Semiconductor lasers, zika virus, catalysts, stem cells, fetal immune system, genetic disease, liver cancer, cancer, liver cancer, RNA editing, obesity, Microcapsules, genetic disease, Piezoelectrics, cancer, magnesium alloy, Quantum materials, therapeutic antibodies, diabetes, 2D materials, lithium-ion batteries, obesity, lupus, surfactants, Sterilization, skin on chip, Magnetic Skyrmions, cyber-security, wound infections, human genetics, immune system, eczema, solar cells, Antimicrobials, joint disorder, genetics, cancer

PARCEL Wraps up mRNA Discovery

A*STAR researchers have developed a rapid, high-throughput screening procedure that can detect RNA aptamers — special messenger RNA molecules (mRNAs) able to sense and...
Cancer cells, cilia development, air pollution, photonic devices, Micro-lens, mosquito-borne infections, Microbiota, bone repair, 3D printing, neurodegenerative disease, cancer treatments, biological research, sepsis, foot and mouth disease, cytometry, batteries, Influenza A virus, vascular diseases, New Cancer Drugs, RNA molecules, polymers, antimicrobial resistance, Aging White Blood Cells, microviscosity, Transplant Drug, Nanophotonics, photonics, Built-In Nanobulbs, cerebral cortex, cancer cells, nanowires, optoelectronic, solar energy, gold nanowires, Chikungunya virus, concrete, glaucoma, light-emitting diode, Proteomics, nanostructures, nickel catalyst, Ultrafast lasers, liver capsular macrophages, obesity, cancer, lignin polymer, liver capsular macrophages, Ultrafast lasers, monocyte cells, cancer treatments, antibody drug, gene mutations, quantum-entangled photons, gut microbes, skin aging, stroke, machine learning, Cloned tumors, cancer, Rare Skin Disease, terahertz lasers, silicon-nanostructure pixels, oral cancer, heart muscle cells, cancer, cancer stem cells, gastric cancer, microelectromechanical systems, data storage, silicon nanostructures, Drug delivery, cancer, muscle nuclei, Lithography, silicon nanostructures, Quantum matter, robust lattice structures, potassium ions, Photothermal therapy, Photonic devices, Optical Components, retina, allergy, immune cells, catalyst, Nanopositioning devices, mold templates, lung cancer, cytoskeletons, hepatitis b, cardiovascular disease, memory deficits, Photonics, pre-eclampsia treatment, hair loss, nanoparticles, mobile security, Fluid dynamics, MXene, Metal-assisted chemical etching, nanomedicine, Colorectal cancer, cancer therapy, liver inflammation, cancer treatment, Semiconductor lasers, zika virus, catalysts, stem cells, fetal immune system, genetic disease, liver cancer, cancer, liver cancer, RNA editing, obesity, Microcapsules, genetic disease, Piezoelectrics, cancer, magnesium alloy, Quantum materials, therapeutic antibodies, diabetes, 2D materials, lithium-ion batteries, obesity, lupus, surfactants, Sterilization, skin on chip, Magnetic Skyrmions, cyber-security, wound infections, human genetics, immune system, eczema, solar cells, Antimicrobials, joint disorder, genetics, cancer

Toughening up Polymers

A*STAR researchers have toughened up polylactic acid while maintaining its elasticity by adding core-shell nanoparticles as a filler1.Polylactic acid (PLA) is a biodegradable and...
Cancer cells, cilia development, air pollution, photonic devices, Micro-lens, mosquito-borne infections, Microbiota, bone repair, 3D printing, neurodegenerative disease, cancer treatments, biological research, sepsis, foot and mouth disease, cytometry, batteries, Influenza A virus, vascular diseases, New Cancer Drugs, RNA molecules, polymers, antimicrobial resistance, Aging White Blood Cells, microviscosity, Transplant Drug, Nanophotonics, photonics, Built-In Nanobulbs, cerebral cortex, cancer cells, nanowires, optoelectronic, solar energy, gold nanowires, Chikungunya virus, concrete, glaucoma, light-emitting diode, Proteomics, nanostructures, nickel catalyst, Ultrafast lasers, liver capsular macrophages, obesity, cancer, lignin polymer, liver capsular macrophages, Ultrafast lasers, monocyte cells, cancer treatments, antibody drug, gene mutations, quantum-entangled photons, gut microbes, skin aging, stroke, machine learning, Cloned tumors, cancer, Rare Skin Disease, terahertz lasers, silicon-nanostructure pixels, oral cancer, heart muscle cells, cancer, cancer stem cells, gastric cancer, microelectromechanical systems, data storage, silicon nanostructures, Drug delivery, cancer, muscle nuclei, Lithography, silicon nanostructures, Quantum matter, robust lattice structures, potassium ions, Photothermal therapy, Photonic devices, Optical Components, retina, allergy, immune cells, catalyst, Nanopositioning devices, mold templates, lung cancer, cytoskeletons, hepatitis b, cardiovascular disease, memory deficits, Photonics, pre-eclampsia treatment, hair loss, nanoparticles, mobile security, Fluid dynamics, MXene, Metal-assisted chemical etching, nanomedicine, Colorectal cancer, cancer therapy, liver inflammation, cancer treatment, Semiconductor lasers, zika virus, catalysts, stem cells, fetal immune system, genetic disease, liver cancer, cancer, liver cancer, RNA editing, obesity, Microcapsules, genetic disease, Piezoelectrics, cancer, magnesium alloy, Quantum materials, therapeutic antibodies, diabetes, 2D materials, lithium-ion batteries, obesity, lupus, surfactants, Sterilization, skin on chip, Magnetic Skyrmions, cyber-security, wound infections, human genetics, immune system, eczema, solar cells, Antimicrobials, joint disorder, genetics, cancer

The Killing Touch for Bacteria

Coatings developed at A*STAR could soon replace biochemically active antibacterial agents, whose overuse in healthcare and fields such as agriculture and wastewater treatment is...
Cancer cells, cilia development, air pollution, photonic devices, Micro-lens, mosquito-borne infections, Microbiota, bone repair, 3D printing, neurodegenerative disease, cancer treatments, biological research, sepsis, foot and mouth disease, cytometry, batteries, Influenza A virus, vascular diseases, New Cancer Drugs, RNA molecules, polymers, antimicrobial resistance, Aging White Blood Cells, microviscosity, Transplant Drug, Nanophotonics, photonics, Built-In Nanobulbs, cerebral cortex, cancer cells, nanowires, optoelectronic, solar energy, gold nanowires, Chikungunya virus, concrete, glaucoma, light-emitting diode, Proteomics, nanostructures, nickel catalyst, Ultrafast lasers, liver capsular macrophages, obesity, cancer, lignin polymer, liver capsular macrophages, Ultrafast lasers, monocyte cells, cancer treatments, antibody drug, gene mutations, quantum-entangled photons, gut microbes, skin aging, stroke, machine learning, Cloned tumors, cancer, Rare Skin Disease, terahertz lasers, silicon-nanostructure pixels, oral cancer, heart muscle cells, cancer, cancer stem cells, gastric cancer, microelectromechanical systems, data storage, silicon nanostructures, Drug delivery, cancer, muscle nuclei, Lithography, silicon nanostructures, Quantum matter, robust lattice structures, potassium ions, Photothermal therapy, Photonic devices, Optical Components, retina, allergy, immune cells, catalyst, Nanopositioning devices, mold templates, lung cancer, cytoskeletons, hepatitis b, cardiovascular disease, memory deficits, Photonics, pre-eclampsia treatment, hair loss, nanoparticles, mobile security, Fluid dynamics, MXene, Metal-assisted chemical etching, nanomedicine, Colorectal cancer, cancer therapy, liver inflammation, cancer treatment, Semiconductor lasers, zika virus, catalysts, stem cells, fetal immune system, genetic disease, liver cancer, cancer, liver cancer, RNA editing, obesity, Microcapsules, genetic disease, Piezoelectrics, cancer, magnesium alloy, Quantum materials, therapeutic antibodies, diabetes, 2D materials, lithium-ion batteries, obesity, lupus, surfactants, Sterilization, skin on chip, Magnetic Skyrmions, cyber-security, wound infections, human genetics, immune system, eczema, solar cells, Antimicrobials, joint disorder, genetics, cancer

Aging White Blood Cells May Boost Inflammation

A particular type of white blood cell becomes more pro-inflammatory as they deteriorate with age or ‘senesce’, according to research led by A*STAR scientists.The...
Cancer cells, cilia development, air pollution, photonic devices, Micro-lens, mosquito-borne infections, Microbiota, bone repair, 3D printing, neurodegenerative disease, cancer treatments, biological research, sepsis, foot and mouth disease, cytometry, batteries, Influenza A virus, vascular diseases, New Cancer Drugs, RNA molecules, polymers, antimicrobial resistance, Aging White Blood Cells, microviscosity, Transplant Drug, Nanophotonics, photonics, Built-In Nanobulbs, cerebral cortex, cancer cells, nanowires, optoelectronic, solar energy, gold nanowires, Chikungunya virus, concrete, glaucoma, light-emitting diode, Proteomics, nanostructures, nickel catalyst, Ultrafast lasers, liver capsular macrophages, obesity, cancer, lignin polymer, liver capsular macrophages, Ultrafast lasers, monocyte cells, cancer treatments, antibody drug, gene mutations, quantum-entangled photons, gut microbes, skin aging, stroke, machine learning, Cloned tumors, cancer, Rare Skin Disease, terahertz lasers, silicon-nanostructure pixels, oral cancer, heart muscle cells, cancer, cancer stem cells, gastric cancer, microelectromechanical systems, data storage, silicon nanostructures, Drug delivery, cancer, muscle nuclei, Lithography, silicon nanostructures, Quantum matter, robust lattice structures, potassium ions, Photothermal therapy, Photonic devices, Optical Components, retina, allergy, immune cells, catalyst, Nanopositioning devices, mold templates, lung cancer, cytoskeletons, hepatitis b, cardiovascular disease, memory deficits, Photonics, pre-eclampsia treatment, hair loss, nanoparticles, mobile security, Fluid dynamics, MXene, Metal-assisted chemical etching, nanomedicine, Colorectal cancer, cancer therapy, liver inflammation, cancer treatment, Semiconductor lasers, zika virus, catalysts, stem cells, fetal immune system, genetic disease, liver cancer, cancer, liver cancer, RNA editing, obesity, Microcapsules, genetic disease, Piezoelectrics, cancer, magnesium alloy, Quantum materials, therapeutic antibodies, diabetes, 2D materials, lithium-ion batteries, obesity, lupus, surfactants, Sterilization, skin on chip, Magnetic Skyrmions, cyber-security, wound infections, human genetics, immune system, eczema, solar cells, Antimicrobials, joint disorder, genetics, cancer

Measuring Microviscosity Inside Cells

A fluorescent molecule whose luminosity depends upon how fast it can rotate is helping researchers measure how viscous the fluid is inside different parts...
Cancer cells, cilia development, air pollution, photonic devices, Micro-lens, mosquito-borne infections, Microbiota, bone repair, 3D printing, neurodegenerative disease, cancer treatments, biological research, sepsis, foot and mouth disease, cytometry, batteries, Influenza A virus, vascular diseases, New Cancer Drugs, RNA molecules, polymers, antimicrobial resistance, Aging White Blood Cells, microviscosity, Transplant Drug, Nanophotonics, photonics, Built-In Nanobulbs, cerebral cortex, cancer cells, nanowires, optoelectronic, solar energy, gold nanowires, Chikungunya virus, concrete, glaucoma, light-emitting diode, Proteomics, nanostructures, nickel catalyst, Ultrafast lasers, liver capsular macrophages, obesity, cancer, lignin polymer, liver capsular macrophages, Ultrafast lasers, monocyte cells, cancer treatments, antibody drug, gene mutations, quantum-entangled photons, gut microbes, skin aging, stroke, machine learning, Cloned tumors, cancer, Rare Skin Disease, terahertz lasers, silicon-nanostructure pixels, oral cancer, heart muscle cells, cancer, cancer stem cells, gastric cancer, microelectromechanical systems, data storage, silicon nanostructures, Drug delivery, cancer, muscle nuclei, Lithography, silicon nanostructures, Quantum matter, robust lattice structures, potassium ions, Photothermal therapy, Photonic devices, Optical Components, retina, allergy, immune cells, catalyst, Nanopositioning devices, mold templates, lung cancer, cytoskeletons, hepatitis b, cardiovascular disease, memory deficits, Photonics, pre-eclampsia treatment, hair loss, nanoparticles, mobile security, Fluid dynamics, MXene, Metal-assisted chemical etching, nanomedicine, Colorectal cancer, cancer therapy, liver inflammation, cancer treatment, Semiconductor lasers, zika virus, catalysts, stem cells, fetal immune system, genetic disease, liver cancer, cancer, liver cancer, RNA editing, obesity, Microcapsules, genetic disease, Piezoelectrics, cancer, magnesium alloy, Quantum materials, therapeutic antibodies, diabetes, 2D materials, lithium-ion batteries, obesity, lupus, surfactants, Sterilization, skin on chip, Magnetic Skyrmions, cyber-security, wound infections, human genetics, immune system, eczema, solar cells, Antimicrobials, joint disorder, genetics, cancer

Transplant Drug Goes ‘Green’

An environmentally responsible formulation process that makes the immunosuppressant drug, Tacrolimus (TAC) more soluble, and hence more readily absorbed by the body, has been...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Shrinking Semiconductor Lasers to the Nanoscale

A tiny laser comprising an array of nanoscale semiconductor cylinders (see image) has been made by an all-A*STAR team1. This is the first time...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Another Step Closer to Tunable Liquids

Using electrical fields to modify the properties of liquids in contact with a surface can be used in several applications, such as electrophoresis, where...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Predicting Diffusion Data

The diffusion of light elements into metals has been efficiently modeled by A*STAR researchers using a machine learning approach1.Solid-state diffusion, in which atoms migrate...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Reducing Commuters’ Wait Time

Waiting endlessly for a bus to arrive may soon be a thing of the past — a method for analyzing the flow of passengers...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Stepping up Water Splitting

A low-cost and simple alternative to expensive platinum-based catalysts that generate hydrogen from water could soon be available, thanks to A*STAR researchers.A team from...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Rethinking an Inflammatory Receptor’s Obesity Connection

Toll-like receptor 4 (TLR4) is a protein that plays a vital role in the body’s immune response by sensing the presence of infection. It...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Finding the Cells and the Signals

Inflammatory Bowel Disease (IBD), which afflicts millions of people worldwide, arises when the immune system mounts an overly aggressive response against microorganisms, dietary substances,...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

DNA Test Reveals Genetic Risk Factors for Eczema

A new diagnostic test developed at A*STAR is helping researchers around the world identify gene mutations that put people at risk of severe eczema...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Image Analysis Tool Helps Pick out Human Actions

When a police officer begins to raise a hand in traffic, human drivers realize that the officer is about to signal them to stop....
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Leading the Charge Against Tumors

A new approach to fighting cancer using large, electrically charged molecules to physically disrupt tumor cells has been demonstrated by A*STAR researchers1. Tumors cannot...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

How to Make a Neutrophil

Steps in the development of first-responder immune cells have been revealed for the first time by A*STAR researchers. These insights help to illustrate how...
spintronics, cancer cells, synchrotrons, Chemoresistance, Thermochromism, shape memory alloys, drug discovery, polymers, semiconductor, machine-learning, tapeworm infections, Polymers, carbon fiber, polymer coatings, Machine Learning, liver regenerates, breast cancer, biochemistry, Quantum Optics, Human Genome, cancer, Thermoelectric materials, optical devices, Black phosphorus, lupus, digital twins, White blood cells, embryonic stem cells, robot, cancer cells, Regenerative medicine, Gut bacteria, antibiotics, cancer and aging, hydrogen gas, catalyst, 2D Semiconductors, chronic hepatitis B, Blood cells, Iron oxide nanoparticles, lightweight structural panels, gene expression, nanoscale optical antenna, fuel cells, Monopeptides, aluminum-oxide ceramic composite, immortalizing enzyme, wearable technology, infrared systems, 2D materials, flowing water, eating disorders, semiconductor lasers, nanofluidics, machine learning, public bus networks, water splitting, obesity and inflammation, Inflammatory Bowel Disease, eczema, Machine Learning, drug resistance, immune cells, potential of phosphorene, Microfluidics, rechargeable batteries, mast cells, cell cycle, damaged lungs, packaging polymers, optical lenses, metallic foam, gastric cancer, stomach cancer, Embryo, green tea

Tuning into the Potential of Phosphorene

A technique for investigating the wetting behavior of water on phosphorene — the single layer form of black phosphorus — has been developed by...