Asylum Research

Electrochemistry Cell offers compatibility with glovebox.
Optics & Photonics

Electrochemistry Cell offers compatibility with glovebox.

Designed for easy assemble and disassemble, Electrochemistry Cell supports wide range of working electrode materials and sizes for multitude environmental conditions. Allowing simultaneous electrochemistry and heating/cooling, unit can be used with any potentiostat. Providing compatibility with conventional and cutting edge electrolytes, device is suitable for studying electrochemical reactions...

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Electrochemistry Cell offers compatibility with glovebox.
Optics & Photonics

Electrochemistry Cell offers compatibility with glovebox.

Designed for easy assemble and disassemble, Electrochemistry Cell supports wide range of working electrode materials and sizes for multitude environmental conditions. Allowing simultaneous electrochemistry and heating/cooling, unit can be used with any potentiostat. Providing compatibility with conventional and cutting edge electrolytes, device is suitable for studying electrochemical reactions...

Read More »
Atomic Force Microscopes sense both resistance and capacitance.
Optics & Photonics

Atomic Force Microscopes sense both resistance and capacitance.

Based on shielded AFM probes and electronics from PrimeNano, Inc., sMIM Scanning Microwave Impedance Microscopy is integrated exclusively with MFP-3D™ and Cypher™ AFMs.- Technique enables nanoscale mapping of permittivity and conductivity on linear and non-linear materials, including conductors, semiconductors, and insulators. sMIM is applicable to broad range of samples, including...

Read More »
Atomic Force Microscopes sense both resistance and capacitance.
Optics & Photonics

Atomic Force Microscopes sense both resistance and capacitance.

Based on shielded AFM probes and electronics from PrimeNano, Inc., sMIM Scanning Microwave Impedance Microscopy is integrated exclusively with MFP-3D™ and Cypher™ AFMs.Â- Technique enables nanoscale mapping of permittivity and conductivity on linear and non-linear materials, including conductors, semiconductors, and insulators. sMIM is applicable to broad range of samples, including...

Read More »
Electrical Equipment & Systems

Atomic Force Microscopes offer photothermal excitation.

Available exclusively for Cypher™ AFMs, blueDrive Photothermal Excitation option makes tapping mode imaging stable and accurate. Feature uses blue laser to directly excite AFM cantilever photothermally, replacing conventional piezoacoustic excitation mechanism. blueDrive - is compatible with full range of tapping mode techniques in air and liquid including topographic imaging, phase imaging,...

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Electrical Equipment & Systems

Atomic Force Microscopes offer photothermal excitation.

Available exclusively for Cypher™ AFMs, blueDrive Photothermal Excitation option makes tapping mode imaging stable and accurate. Feature uses blue laser to directly excite AFM cantilever photothermally, replacing conventional piezoacoustic excitation mechanism. blueDrive Â- is compatible with full range of tapping mode techniques in air and liquid including topographic imaging, phase...

Read More »
Atomic Force Microscopes offer Contact Resonance mode.
Optics & Photonics

Atomic Force Microscopes offer Contact Resonance mode.

Available exclusively for Cypher™ and MFP-3D™ Atomic Force Microscopes, Contact Resonance Viscoelastic Mapping Mode enables high-resolution, quantitative imaging of both elastic storage modulus and viscoelastic loss modulus. Technique is particularly well-suited for characterizing moderate to high modulus materials in range of 1–200 GPa, such as composites, thin films, biomaterials, polymer...

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Atomic Force Microscopes offer Contact Resonance mode.
Optics & Photonics

Atomic Force Microscopes offer Contact Resonance mode.

Available exclusively for Cypher™ and MFP-3D™ Atomic Force Microscopes, Contact Resonance Viscoelastic Mapping Mode enables high-resolution, quantitative imaging of both elastic storage modulus and viscoelastic loss modulus. Technique is particularly well-suited for characterizing moderate to high modulus materials in range of 1–200 GPa, such as composites, thin films, biomaterials, polymer...

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Fluid & Gas Flow Equipment

AFM Probes offer automated calibration.

Supplied with MFP-3D™ and Cypher™ atomic force microscope probes, GetReal™ Automated Probe Calibration feature fully calibrates probe sensitivity and spring constant, enabling consistent, accurate results. Based on thermal noise method and Sader method, non-contact calibration also protects probe from damage that occurs with conventional calibration methods, preserving sharpest tip for...

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Fluid & Gas Flow Equipment

AFM Probes offer automated calibration.

Supplied with MFP-3D™ and Cypher™ atomic force microscope probes, GetReal™ Automated Probe Calibration feature fully calibrates probe sensitivity and spring constant, enabling consistent, accurate results. Based on thermal noise method and Sader method, non-contact calibration also protects probe from damage that occurs with conventional calibration methods, preserving sharpest tip for...

Read More »
Company News

Upcoming Asylum Research Webinar Probing Nanoscale Structure & Properties of Polymers: Advances in Atomic Force Microscopy," October 16, 2019

October 1, 2019 (Santa Barbara, CA) Oxford Instruments Asylum Research, in partnership with SelectScience, will be hosting a free webinar titled “Probing Nanoscale Structure & Properties of Polymers: Advances in Atomic Force Microscopy” on October 16th. Polymer science is a very active and vibrant field for research and development, both commercially and in academia. Material and product...

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Company News

Upcoming Asylum Research Webinar “Probing Nanoscale Structure & Properties of Polymers: Advances in Atomic Force Microscopy,” October 16, 2019

October 1, 2019 (Santa Barbara, CA) Oxford Instruments Asylum Research, in partnership with SelectScience, will be hosting a free webinar titled “Probing Nanoscale Structure & Properties of Polymers: Advances in Atomic Force Microscopy” on October 16th. Polymer science is a very active and vibrant field for research and development, both commercially and in academia. Material and product...

Read More »
Company News

Asylum Research Quantifies the Last Axis" in Atomic Force Microscopy

February 8, 2018 (Santa Barbara, CA) - Oxford Instruments Asylum Research announces their development of an interferometric displacement sensor (IDS) that provides a direct measure of AFM cantilever displacement. The IDS interfaces the existing optical system of the Asylum Research Cypher AFM with an external laser Doppler vibrometer. It does not replace the standard laser and detector; rather,...

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Company News

Asylum Research Quantifies the “Last Axis” in Atomic Force Microscopy

February 8, 2018 (Santa Barbara, CA) - Oxford Instruments Asylum Research announces their development of an interferometric displacement sensor (IDS) that provides a direct measure of AFM cantilever displacement. The IDS interfaces the existing optical system of the Asylum Research Cypher AFM with an external laser Doppler vibrometer. It does not replace the standard laser and detector; rather,...

Read More »
Company News

New Application Note Describes Electrochemical Atomic Force Microscopy for Understanding Corrosion Mechanisms at the Nanoscale

January 30, 2018 (Santa Barbara, CA) - Combining an atomic force microscope (AFM) with electrochemical capabilities creates a powerful tool for studying corrosion, oxidation, and mass transfer of metals at the nanoscale. The new application note “Exploring Corrosion with Electrochemical AFM” from Oxford Instruments Asylum Research discusses how AFM can be used to study the nanoscale evolution...

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Company News

New Application Note Describes Electrochemical Atomic Force Microscopy for Understanding Corrosion Mechanisms at the Nanoscale

January 30, 2018 (Santa Barbara, CA) - Combining an atomic force microscope (AFM) with electrochemical capabilities creates a powerful tool for studying corrosion, oxidation, and mass transfer of metals at the nanoscale. The new application note “Exploring Corrosion with Electrochemical AFM” from Oxford Instruments Asylum Research discusses how AFM can be used to study the nanoscale evolution...

Read More »
Electrochemistry Cell offers compatibility with glovebox.
Optics & Photonics

Electrochemistry Cell offers compatibility with glovebox.

Designed for easy assemble and disassemble, Electrochemistry Cell supports wide range of working electrode materials and sizes for multitude environmental conditions. Allowing simultaneous electrochemistry and heating/cooling, unit can be used with any potentiostat. Providing compatibility with conventional and cutting edge electrolytes, device is suitable for studying electrochemical reactions...

Read More »
Electrochemistry Cell offers compatibility with glovebox.
Optics & Photonics

Electrochemistry Cell offers compatibility with glovebox.

Designed for easy assemble and disassemble, Electrochemistry Cell supports wide range of working electrode materials and sizes for multitude environmental conditions. Allowing simultaneous electrochemistry and heating/cooling, unit can be used with any potentiostat. Providing compatibility with conventional and cutting edge electrolytes, device is suitable for studying electrochemical reactions...

Read More »
Atomic Force Microscopes sense both resistance and capacitance.
Optics & Photonics

Atomic Force Microscopes sense both resistance and capacitance.

Based on shielded AFM probes and electronics from PrimeNano, Inc., sMIM Scanning Microwave Impedance Microscopy is integrated exclusively with MFP-3D™ and Cypher™ AFMs.- Technique enables nanoscale mapping of permittivity and conductivity on linear and non-linear materials, including conductors, semiconductors, and insulators. sMIM is applicable to broad range of samples, including...

Read More »
Atomic Force Microscopes sense both resistance and capacitance.
Optics & Photonics

Atomic Force Microscopes sense both resistance and capacitance.

Based on shielded AFM probes and electronics from PrimeNano, Inc., sMIM Scanning Microwave Impedance Microscopy is integrated exclusively with MFP-3D™ and Cypher™ AFMs.Â- Technique enables nanoscale mapping of permittivity and conductivity on linear and non-linear materials, including conductors, semiconductors, and insulators. sMIM is applicable to broad range of samples, including...

Read More »

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