University spin-off
University spin-offs are companies that transform technological inventions developed from university research that are likely to remain unexploited otherwise. They are a subcategory of research spin-offs. Prominent examples of university spin-offs are Genentech, Crucell, Lycos and Plastic Logic. In most countries, universities can claim the intellectual property rights on technologies developed in their laboratories. In the United States, the Bayh–Dole Act permits universities to pursue ownership of inventions made by researchers at their institutions using funding from the federal government, where previously federal research funding contracts and grants obligated inventors to assign the resulting IP to the government. This IP typically draws on patents or, in exceptional cases, copyrights. Therefore, the process of establishing the spin-off as a new corporation involves transferring the IP to the new corporation or giving the latter a license on this IP. Most research universities now have Technology Licensing Offices to facilitate and pursue such opportunities.
Critical steps in developing a spin-off
University spin-offs typically go through a number of critical steps to develop the initial invention into a successful business venture. The following steps are critical in creating a successful spin-off.- Developing a successful Business Model Canvas for the spin-off; a business model depicts the rationale of how the spin-off will create, deliver and capture value.
- Acquiring the first customers. The first customer, also called an early adopter, can provide candid feedback to help the spin-off refine future product releases and also provide access to a distribution channel or other forms of support.
- Developing a proof of concept, or proof of principle, that demonstrates that the invented method or new theory is probably useful in a particular application - for example a new product.
- Developing a fully functioning prototype of this new product; the prototype also serves to learn about how to produce, use and sell the new product.
- Attracting startup funding to finance the development of prototypes and new products; this may involve acquiring financial resources from venture capital firms, angel Investors, banks, or other providers of early-stage financial capital.
Conditions for spin-off creation
Some universities generate substantially higher numbers of spin-offs than others. Universities with high numbers of successful spin-offs:- draw on university-wide awareness of entrepreneurial opportunities and/or benefit from a strong entrepreneurship culture at the national or regional level;
- have developed a university culture that thrives on entrepreneurial role models among their alumni and academic staff as well as successful spin-offs that serve as inspiring examples ;
- actively stimulate the development of entrepreneurial talent and help founders of spin-offs obtain access to investors, consultants and other forms of support; these activities are particularly critical in countries that suffer from an entrepreneurial culture that is weaker than elsewhere.
Other issues
Examples of university spin-offs
- Akamai
- Bose Corporation
- Boston Dynamics
- Cambridge Mobile Telematics
- Crucell
- Genentech
- iRobot
- Locus Biosciences
- Lycos
- Maplesoft
- MATLAB
- Meraki
- Nimble VR
- Plastic Logic
- OkCupid
- RSA Security
- TK Solver