Resources
Seed NanoTech, a leading nanotechnology corporation, provides a variety of resources to support the development and commercialization of products based on nanotechnology. The company offers access to state-of-the-art nanofabrication facilities and specialized equipment, as well as guidance on the design, synthesis, and characterization of nanomaterials. In addition, Seed Nanotech facilitates collaboration for funding nanotechnology firms and academics in Canada and abroad. These resources enable companies and researchers to expedite the development and commercialization of innovative nanotechnology products and solutions, thereby contributing to the field’s overall advancement.
Latest Innovations
Surface Plasmon Resonance (SPR) is a prevalent technique in biochemistry and molecular biology. It is typically employed to measure interactions between biomolecules such as proteins, nucleic acids, and small molecules. Recently, a new technology known as MOSPR (Magneto-optics-Based Surface Plasmon Resonance) has been developed that offers numerous advantages over conventional SPR. The following are recent developments in MOSPR technology:
- MOSPR technology provides increased sensitivity compared to conventional SPR. This is accomplished by adding a thin layer of metal oxide to the metal’s surface, which enhances the plasmon resonance signal.
- Better stability: MOSPR sensors are more stable than standard SPR sensors. The metal oxide layer on the surface of MOSPR sensors reduces non-specific binding and increases the stability of the sensor over time.
- Real-time monitoring: MOSPR sensors enable real-time monitoring of biomolecular interactions, which is not possible with conventional SPR. Biomolecular interactions can be measured with greater precision and dynamism using real-time monitoring.
- Label-free detection: MOSPR sensors enable label-free detection of biomolecules, thereby removing the need for fluorescent or radioactive labeling. This simplifies the experimental protocol and reduces the possibility of influencing the biomolecular interactions being measured.
- Multiplexed detection: MOSPR technology permits the detection of multiple biomolecular interactions simultaneously. Various biomolecules are functionalized on an array of MOSPR sensors to accomplish this result.
- MOSPR sensors are manufactured at a lower cost than conventional SPR sensors. This is because the metal oxide layer on the surface of MOSPR sensors is less expensive than the gold layer used in conventional SPR sensors.
MOSPR technology represents a significant advance in the field of biomolecular interaction analysis and is likely to have a substantial impact on the development of novel drugs and therapies.
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Collaborators
Seed NanoTech collaborates with a number of universities and research institutions worldwide to advance its research endeavors. These partnerships enable the company to gain access to cutting-edge research and technologies and to recruit top talent in the nanotechnology field.
Seed NanoTech collaborates with a variety of industry collaborators in diverse fields, including agriculture, pharmaceuticals, and cosmetics. These partnerships enable the company to develop innovative products and technologies that are tailored to the requirements of particular industries.
Government agencies: To advance its research and development initiatives, Seed NanoTech collaborates with various government agencies, including the National Institutes of Health and the Department of Energy. These partnerships help the company secure funding and support for its initiatives.
Seed NanoTech collaborates with several non-governmental organizations (NGOs) to address social and environmental issues using nanotechnology. These partnerships enable the company to create innovative solutions that can aid in addressing global issues such as climate change and agricultural insecurity.
Overall, Seed NanoTech’s collaborations with local and international partners are essential to its success in developing innovative nanotechnology-based products and technologies. By collaborating with a variety of collaborators, the company can advance its research and development efforts and bring new products and technologies to market by leveraging their expertise, resources, and funding.
Company Video(s)
– ICAPMOT-2022 An International Conference on Advanced Plasmonics, Magnetics, and Optical Technologies.
– International Conference on Advanced Plasmonics, Magnetics, and Optical Technologies (ICAPMOT) 2021
– International Conference on Advance Plasmonics | Magnetics and optical Technologies (ICAPMOT)- 2020
– Magneto-optic Surface Plasmon Resonance Sensors
– Building a Magnetoplasmonic Sensors
– New Biosensor technologies



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ICAPMOT Conference 2026

Important Information for the ICAPMOT 2026 Event!
Early Bird Registration Starting : April 22, 2025
Early Bird Registration Closes : –
Regular Rate Starts: November 24, 2025 ~
Program Days: April 17-19, 2026
Abstract Submission Deadlines
Opens: July 15, 2026
Digest/Interest Submission Opens: July 15, 2025
Final Program: April 17-19, 2026
Regular Submission: August 26, 2026
Submissin Ends: December 15, 2025 (Special Topics Still Accepted)
VENUE: University of Toronto
27 King’s College Cir, Toronto, ON M5S 1A1
