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Stanford Advanced Materials (SAM) supplies gadolinium compounds for research applications. The product range comprises gadolinium oxalate (Gd2(C2O4)3), gadolinium(III) nitrate (Gd(NO3)3), gadolinium oxide (Gd2O3) (gadolinia), gadolinium hydroxide (Gd(OH)3) and gadolinium sulphate (Gd2(SO4)3), among others.
Stanford Advanced Materials (SAM) supplies a range of gadolinium compounds. These include gadolinium oxalate (Gd2(C2O4)3), gadolinium(III) nitrate (Gd(NO3)3), gadolinium oxide (Gd2O3) / Gadolinia, gadolinium hydroxide (Gd(OH)3) and gadolinium sulphate (Gd2(SO4)3). These compounds are used in magnetic resonance imaging (MRI), particularly for diagnosing cancer tumours. Gadolinium exhibits measurable properties in alloys. A concentration of 1 % gadolinium can improve the processability of iron and chromium alloys and increase their resistance to high temperatures and oxidation. It is also employed in the manufacture of magnets, electronic components and data storage devices.
Diverse Range: Our range of gadolinium compounds encompasses numerous forms and compositions. We supply powders, solutions and customised compounds that meet your project requirements.
Properties: Gadolinium compounds are recognised for their magnetic, optical and catalytic characteristics.
Precision Manufacturing: Our gadolinium compounds are produced using modern manufacturing techniques. These techniques ensure consistent material properties, thereby enabling accurate design and fabrication.
Customised Solutions: Collaborate with us to develop gadolinium compounds that precisely meet your project requirements. Whether you require specific compositions or certain forms, we provide solutions that conform to your objectives.
Magnetic Devices: Gadolinium compounds are employed in the manufacture of magnets, sensors and electronic devices.
Catalysis: The catalytic activity of gadolinium compounds contributes to improved reaction rates and increased process efficiency.
Optical Devices: They are used in optical applications, including lasers, phosphors and light-emitting devices, thereby enhancing device performance.
Medical Imaging: Gadolinium compounds contribute to medical imaging techniques such as magnetic resonance imaging (MRI), thereby supporting advancements in healthcare practise.
Energy Technologies: Gadolinium compounds are applicable to energy-related fields, including solid oxide fuel cells and renewable energy systems, given their material properties.
Quality Assurance: Our gadolinium compounds are subjected to rigorous quality control procedures to ensure that they meet industry standards for purity and performance.
Expertise: Benefit from our substantial experience in the synthesis and application of these compounds. Our team is available to assist in identifying solutions that align with your project requirements.
Customised Solutions: Collaborate with us to develop customised gadolinium compounds that meet your specific project targets.
Reliability: With a demonstrated track record in supplying consistent materials, we are a reliable source for gadolinium compounds that perform as anticipated.
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