Carbon Design Innovations
Nanotechnology, 1745 Adrian Rd, Burlingame, California, 94010, United States, 1-10 Employees
Who is CARBON DESIGN INNOVATIONS
Carbon Design Innovations has a novel process for producing carbon nanotubes that are predictably straight and we can also form them into any desired shape. Our first application is for A...
Read More
- Headquarters: 1745 Adrian Rd, Burlingame, California, 94010, United States
- Date Founded: 2008
- Employees: 1-10
- Revenue: $1 Million to $5 Million
- Active Tech Stack: See technologies
Industry: Nanotechnology
SIC Code: 3624 | NAICS Code: 238990 | Show More
Does something look wrong? Fix it. | View contact records from CARBON DESIGN INNOVATIONS
Carbon Design Innovations Org Chart and Mapping
Sign in to CIENCE GO Data to uncover contact details
Free credits every month
Frequently Asked Questions Regarding Carbon Design Innovations
Answer: Carbon Design Innovations's headquarters are located at 1745 Adrian Rd, Burlingame, California, 94010, United States
Answer: Carbon Design Innovations's official website is https://carbondesigninnovations.com
Answer: Carbon Design Innovations's revenue is $1 Million to $5 Million
Answer: Carbon Design Innovations's SIC: 3624
Answer: Carbon Design Innovations's NAICS: 238990
Answer: Carbon Design Innovations has 1-10 employees
Answer: Carbon Design Innovations is in Nanotechnology
Answer: Carbon Design Innovations contact info: Phone number: Website: https://carbondesigninnovations.com
Answer: Carbon Design Innovations has a novel process for producing carbon nanotubes that are predictably straight and we can also form them into any desired shape. Our first application is for Atomic Force Microscope (AFM) Probes. Although this has been attempted for years without success, the company has patented processes that allows us to make CNTs that are straight, strong and durable. This means when used as an AFM probe the angle remains normal to the surface in the compression regime and do not bend so that there are no trailing artifacts. Additionally, we stabilize them at the base so that they do not break off from the cantilever if they crash. Finally, because of the stabilization process, we can make them longer and have examples of 3 micron cell images, deep trench images of semiconductors and more.
Premium Sales Data for Prospecting
-
Sales data across over 200M records
-
Up-to-date records (less decayed data)
-
Accurate Email Lists (real-world tested)
-
Powerful search engine and intuitive interface
Sign in to CIENCE GO Data to uncover contact details
Free credits every month