microESR product catalog
The World’s Smallest Electron Spin Resonance Spectrometer
The World’s Smallest Electron Spin Resonance Spectrometer
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Bruker Lab NEWS Kalina Ranguelova A Radical Solution
Understanding reactive oxygen species is vital for tackling many diseases – but you need to catch them first. Here Dr Kalina Ranguelova talks us through this challenge and a possible solution in the shape of electron paramagnetic resonance
Understanding reactive oxygen species is vital for tackling many diseases – but you need to catch them first. Here Dr Kalina Ranguelova talks us through this challenge and a possible solution in the shape of electron paramagnetic resonance
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Biological ROS and RNS Detection, Part III. Nitric Oxide
Human skin contains photolabile nitric oxide (NO) derivatives which upon UVA radiation decompose under high-output NO formation and exert NO-specific biological responses such as increased local blood flow or reduced blood pressure.
Human skin contains photolabile nitric oxide (NO) derivatives which upon UVA radiation decompose under high-output NO formation and exert NO-specific biological responses such as increased local blood flow or reduced blood pressure.
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Biological ROS and RNS, Part II. EPR Spin Probes
In vascular cells, increased generation of superoxide (O2.-) has been suggested to occur in hypertension, diabetes, and heart failure. Thus the accurate detection and ability to quantify O2.- are critically important in understanding the pathogenesis of these various cardiovascular disorders and other noncardiovascular diseases.
In vascular cells, increased generation of superoxide (O2.-) has been suggested to occur in hypertension, diabetes, and heart failure. Thus the accurate detection and ability to quantify O2.- are critically important in understanding the pathogenesis of these various cardiovascular disorders and other noncardiovascular diseases.
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Everyday EPR
EPR (Electron Paramagnetic Resonance) spectroscopy is the only technique that unambiguously detects and quantifies species with unpaired electrons. These include free radicals, many transition metals, and defects in materials.
EPR (Electron Paramagnetic Resonance) spectroscopy is the only technique that unambiguously detects and quantifies species with unpaired electrons. These include free radicals, many transition metals, and defects in materials.
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