Self Assembly as an Additive Manufacturing Process: Opportunities and Obstacles

Authors

Nathan B. Crane, University of South FloridaFollow
James Tuckerman, University of South Florida
G N. Nielson, Sandia National Laboratories

Document Type

Conference Proceeding

Publication Date

2010

Abstract

While additive manufacturing processes typically integrate functionally identical building blocks, biological growth depends on the precise assembly of molecular building blocks to achieve the remarkable functionality observed in living systems. This paper considers potential performance benefits and challenges of producing systems by controlled assembly of functional components. The work will consider the impact of self-assembly errors in two energy applications: miniature thermoelectric devices and microscale photovoltaic cells. In both, high performance is possible by assembling microscale components. While assembly errors can reduce system performance, performance models show that high levels of system performance can be achieved through system design and/or self-assembly process control.

Was this content written or created while at USF?

Yes

Citation / Publisher Attribution

2010 Solid Freeform Fabrication Symposium, p. 747-755

Scholar Commons Citation

Crane, Nathan B.; Tuckerman, James; and Nielson, G N., "Self Assembly as an Additive Manufacturing Process: Opportunities and Obstacles" (2010). Mechanical Engineering Faculty Publications. 45.
https://digitalcommons.usf.edu/egr_facpub/45