Robert C Davis
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Explore the profile of Robert C Davis including associated specialties, affiliations and a list of published articles.
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Articles
47
Citations
198
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Recent Articles
1.
Pang C, Karlinsey B, Ward M, Harrison R, Davis R, Woolley A
Langmuir
. 2024 Jun;
40(27):14076-14085.
PMID: 38934899
DNA-templated nanofabrication presents an innovative approach to creating self-assembled nanoscale metal-semiconductor-based Schottky contacts, which can advance nanoelectronics. Herein, we report the successful fabrication of metal-semiconductor Schottky contacts using a DNA...
2.
Davis R, Petersen K, Weisburd D, Taylor B
Campbell Syst Rev
. 2023 Mar;
17(4):e1200.
PMID: 36951797
The US Department of Justice has extensively funded second responder programs. In England and Wales, funding of follow-up with victims is largely funded by local Police and Crime Commissioners. While...
3.
Petersen K, Davis R, Weisburd D, Taylor B
Campbell Syst Rev
. 2023 Mar;
18(1):e1217.
PMID: 36913197
Background: Family abuse is a recurrent phenomenon within a select population of households. This form of abuse can include any physical or psychological harassment that occurs between family or household...
4.
Ranasinghe D, Doerk G, Aryal B, Pang C, Davis R, Harb J, et al.
Nanoscale
. 2023 Jan;
15(5):2188-2196.
PMID: 36633155
Directed placement of DNA origami could play a key role in future integrated nanoelectronic devices. Here we demonstrated the site-selective attachment of DNA origami on gold dots formed using a...
5.
Noyce S, Vanfleet R, Craighead H, Davis R
Nanoscale Adv
. 2022 Sep;
1(3):1148-1154.
PMID: 36133213
Microscale porous carbon mechanical resonators were formed using carbon nanotube templated microfabrication. These cantilever resonators exhibited nanoscale porosity resulting in a high surface area to volume ratio which could enable...
6.
Pang C, Aryal B, Ranasinghe D, Westover T, Ehlert A, Harb J, et al.
Nanomaterials (Basel)
. 2021 Jul;
11(7).
PMID: 34201888
Bottom-up fabrication using DNA is a promising approach for the creation of nanoarchitectures. Accordingly, nanomaterials with specific electronic, photonic, or other functions are precisely and programmably positioned on DNA nanostructures...
7.
Chen G, Dodson B, Hedges D, Steffensen S, Harb J, Puleo C, et al.
ACS Biomater Sci Eng
. 2021 Jan;
4(5):1900-1907.
PMID: 33445345
Microelectrode arrays of carbon nanotube (CNT)/carbon composite posts with high aspect ratio and millimeter-length were fabricated using carbon-nanotube-templated microfabrication with a sacrificial "hedge". The high aspect ratio, mechanical robustness, and...
8.
Ranasinghe D, Aryal B, Westover T, Jia S, Davis R, Harb J, et al.
Molecules
. 2020 Oct;
25(20).
PMID: 33092123
Self-assembly nanofabrication is increasingly appealing in complex nanostructures, as it requires fewer materials and has potential to reduce feature sizes. The use of DNA to control nanoscale and microscale features...
9.
Westover T, Aryal B, Ranasinghe D, Uprety B, Harb J, Woolley A, et al.
Langmuir
. 2020 May;
36(24):6661-6667.
PMID: 32456432
DNA origami-templated fabrication enables bottom-up fabrication of nanoscale structures from a variety of functional materials, including metal nanowires. We studied the impact of low-temperature annealing on the morphology and conductance...
10.
Laughlin K, Jamieson S, Pearson A, Wang H, Vanfleet R, Davis R, et al.
ACS Omega
. 2019 Aug;
2(6):2432-2438.
PMID: 31457591
In this study, we have fabricated nanofuses from thin-film, arc-deposited carbon for use in permanent data storage. Thin-film carbon fuses have fewer fabrication barriers and retain the required resistivity and...