8 WiSys Technologies in "Materials & Chemicals" or "Clean Technology" or "Micro & Nanotech" and "UW-Platteville"
WiSys is seeking a strategic partner skilled in the design, modeling, and fabrication of Quantum Dots and Quantum wires. There is interest in working with a partner to test the beta version of the CAE simulation tool and provide feedback when modeling both Quantum Wires and Quantum Dots. Additionally, there is interest in identifying a partner with a 3D finite element method solver for further development and testing of the CAE simulation tool.
WiSys is currently seeking strategic partners in the 3D printing material supply industry that are interested in further optimizing the formulation of these biocomposites for production-scale manufacturing, ultimately providing a path to market for commercialization.
WiSys is currently seeking strategic partners in the next generation transistor industry that are interested in further optimizing the design for large-scale manufacturing, ultimately providing a path to market for its commercialization.
WiSys is seeking a strategic partner skilled in the development and manufacturing of membranes used for the separation and/or detection of biologic molecules in solution. There is additional interest in a partner with the expertise to identify and test novel applications for these nanomembranes.
WiSys is seeking a strategic partner for further optimization of the design for efficiency and manufacturing, followed by marketing, sales, and distribution.
WiSys is currently seeking a strategic partner in the power monitoring and control industry that is interested in further developing this innovative energy grid management system, ultimately providing a route to market for its commercialization.
WiSys is seeking a strategic partner that operates in the field of carbon capture who is interested in accessing WiSys’ novel organic polymers with ultra-small pores for use in the sequestration and/or utilization of carbon dioxide from gas mixtures. WiSys is also seeking a partner to assist in the continued development of membranes that incorporate the novel organic polymers.