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Full-Text Articles in Engineering
Boron-Implanted Silicon Substrates For Physical Adsorption Of Dna Origami, Sadao Takabayashi, Shohei Kotani, Juan Flores-Estrada, Elijah Spears, Jennifer E. Padilla, Lizandra C. Godwin, Elton Graugnard, Wan Kuang, William L. Hughes
Boron-Implanted Silicon Substrates For Physical Adsorption Of Dna Origami, Sadao Takabayashi, Shohei Kotani, Juan Flores-Estrada, Elijah Spears, Jennifer E. Padilla, Lizandra C. Godwin, Elton Graugnard, Wan Kuang, William L. Hughes
Materials Science and Engineering Faculty Publications and Presentations
DNA nanostructures routinely self-assemble with sub-10 nm feature sizes. This capability has created industry interest in using DNA as a lithographic mask, yet with few exceptions, solution-based deposition of DNA nanostructures has remained primarily academic to date. En route to controlled adsorption of DNA patterns onto manufactured substrates, deposition and placement of DNA origami has been demonstrated on chemically functionalized silicon substrates. While compelling, chemical functionalization adds fabrication complexity that limits mask efficiency and hence industry adoption. As an alternative, we developed an ion implantation process that tailors the surface potential of silicon substrates to facilitate adsorption of DNA nanostructures …
De-Risking Transdisciplinary Research By Creating Shared Values, Donna C. Llewellyn, William L. Hughes
De-Risking Transdisciplinary Research By Creating Shared Values, Donna C. Llewellyn, William L. Hughes
Materials Science and Engineering Faculty Publications and Presentations
This Lessons Learned Paper describes a yearlong faculty development pilot program that was designed to help a team of faculty de-risk their pursuit of wicked research problems. Wicked problems are extraordinarily difficult to solve due to their incomplete, contradictory, and at times changing requirements. They often include multiple stakeholders with competing interests and worldviews. As a result, they are risky by definition because they are difficult to fund, publish, and collaborate on. Presented here, a team of eleven faculty, from six different academic units, explored their personal and professional values during an initial off-site two and a half day retreat. …
Improving The Relative Calculations Of Volta Potential Differences Acquired From Scanning Kelvin Probe Force Microscopy (Skpfm) From Comparing An Inert Material To First-Principle Calculations, C. M. Efaw, T. Da Silva, P. H. Davis, L. Li, E. Graugnard, M. Hurley
Improving The Relative Calculations Of Volta Potential Differences Acquired From Scanning Kelvin Probe Force Microscopy (Skpfm) From Comparing An Inert Material To First-Principle Calculations, C. M. Efaw, T. Da Silva, P. H. Davis, L. Li, E. Graugnard, M. Hurley
Materials Science and Engineering Faculty Publications and Presentations
An improved relative scaling of Volta potential differences (VPD) acquired from scanning Kelvin probe force microscopy (SKPFM) was developed by quantifying the probe work function. In corrosion studies, SKPFM has been used to identify local nobility of complex metallic systems and provide theoretical corrosion initiation sites. However, large variability in measured VPD values for metallic phases has led to controversy in their interpretation. Tracking changes of the probe work function has been shown to decrease the variability seen in SKPFM results. To quantify the work function of SKPFM probes, the measured VPD of an inert gold standard was compared to …