Orlando Trejo

Title: The Innovative Mind of Orlando Trejo

Introduction

Orlando Trejo, an inventive mind based in Ann Arbor, MI, has made significant contributions to the realm of nanofabrication. He holds a patent that embodies a groundbreaking approach to integrating electrohydrodynamic jet printing with spatial atomic layer deposition.

Latest Patents

Trejo's most notable patent is for an "Integrated Electrohydrodynamic Jet Printing and Spatial Atomic Layer Deposition System for Area Selective-Atomic Layer Deposition." This innovation combines an electrohydrodynamic jet printing station featuring an E-jet printing nozzle with a spatial atomic layer deposition station that includes a zoned ALD precursor gas distributor. This system is designed to facilitate precise nanofabrication by allowing selective area deposition through the coordinated movement of a heatable substrate plate. The system's capability to convey the substrate between printing and deposition windows exemplifies its practical application in advanced manufacturing technologies.

Career Highlights

Orlando Trejo is affiliated with the University of Michigan, where his research and development efforts support the advancement of nanofabrication techniques. His innovative work not only showcases his technical expertise but also reflects his commitment to pushing the boundaries of modern engineering.

Collaborations

Trejo collaborates with notable colleagues, including Mattison Rose and Kira Barton. Their collective efforts in research and development contribute to the dynamic environment at the University of Michigan, fostering innovation and collaboration in the field of nanotechnology.

Conclusion

Orlando Trejo stands at the forefront of innovation in nanofabrication, with a patent that merges electrohydrodynamic jet printing and spatial atomic layer deposition. His contributions, supported by his collaborations at the University of Michigan, underline the importance of creativity and interdisciplinary teamwork in advancing technological solutions.