Zobrazeno 1 - 10
of 49
pro vyhledávání: '"Jason J. Benkoski"'
Autor:
Jason J. Benkoski, W. Lloyd Luedeman, Narendra N. De, Michael C. Brupbacher, Michael Presley, David M. Deglau, Joseph A. Scroggins, W. Mark Buchta, Dajie Zhang, Joshua D. Mitchell
Publikováno v:
Journal of Propulsion and Power. :1-10
A powered gravity assist around the sun, also known as an Oberth maneuver, has the potential to achieve a solar system escape velocity of 20 astronomical units (AUs) per year, which is desirable for an interstellar mission. Unfortunately, current hea
Autor:
Christopher M. Hoffman, Reid E. Messersmith, Douglas A. Smith, Mairead E. Bartlett, Daniel J. Rose, Jason J. Benkoski, Marcia W. Patchan, Morgana M. Trexler
Publikováno v:
ACS Applied Polymer Materials. 3:996-1002
Rapidly curing underwater adhesives were tested on untreated substrates and demonstrated high ultimate shear strength. An isocyanate resin was combined with microcapsules containing both a polyol c...
Autor:
Jason J. Benkoski, Timothy J. Montalbano, William L. Luedeman, John O. Teehan, Ralph D. Lorenz
Publikováno v:
Planetary and Space Science. 225:105599
Publikováno v:
Hemijska Industrija, Vol 72, Iss 2, Pp 69-80 (2018)
Topographical features on a substrate can greatly influence stem cell fate through contact guidance. While the response of stem cells to topography at the nano-, micro-, and meso-scale has been studied extensively, little is known about the interplay
Autor:
Jason J. Benkoski, Emre Ölçeroğlu, Matthew McCarthy, Konstantinos Gerasopoulos, William L. Luedeman
Publikováno v:
ACS applied materialsinterfaces. 10(4)
Surface wettability plays an important role in dew collection. Nucleation is faster on hydrophilic surfaces, while droplets slide more readily on hydrophobic surfaces. Plants and animals in coastal desert environments appear to overcome this trade-of
Autor:
Lance M. Baird, Marcia W. Patchan, Rengaswamy Srinivasan, Adam J. Maisano, Terry E. Phillips, Jason J. Benkoski, Melanie L. Morris
Publikováno v:
Langmuir. 31:10610-10617
Painting is a cost-effective technique to delay the onset of corrosion in metals. However, the protection is only temporary, as corrosion begins once the coating becomes scratched. Thus, an increasingly common practice is to add microencapsulated che
Autor:
Nicola Pinna, Younghun Sung, Jeffrey Pyun, Lawrence J. Hill, Philip T. Dirlam, Nathaniel E. Richey, Walter Vogel, Kookheon Char, Eli Lavoie-Higgins, In Bo Shim, Jason J. Benkoski, Jared J. Griebel, Marc Georg Willinger
Publikováno v:
ACS Nano. 8:3272-3284
The synthesis of a modular colloidal polymer system based on the dipolar assembly of CdSe@CdS nanorods functionalized with a single cobalt nanoparticle "tip" (CoNP-tip) is reported. These heterostructured nanorods spontaneously self-assembled via mag
Autor:
William L. Luedeman, Chao He, Sarah M. Hörst, Jason J. Benkoski, John O. Teehan, Ralph D. Lorenz
Publikováno v:
Planetary and Space Science. 179:104721
We report an experimental investigation of organic Titan regolith simulant interactions with transparent surfaces. In the absence of prior triboelectrification of the particles and surface, the area coverage of sprinkled particles increases with incr
Autor:
Rengaswamy Srinivasan, Jeffrey Pyun, Ryan M. Deacon, Pei Yuin Keng, Lance M. Baird, Jason J. Benkoski, Jennifer L. Breidenich, H. Bruce Land, Guy V. Clatterbaugh
Publikováno v:
Soft Matter. 6:602-609
Taking inspiration from eukaryotic cilia, we report a method for growing dense arrays of magnetically actuated microscopic filaments. Fabricated from the bottom-up assembly of polymer-coated cobalt nanoparticles, each segmented filament measures appr
Autor:
Alamgir Karim, Ronald L. Jones, Jack F. Douglas, Jason J. Benkoski, Steven E. Bowles, Jeffrey Pyun
Publikováno v:
Journal of Polymer Science Part B: Polymer Physics. 46:2267-2277
The self-assembly of dispersed polymer-coated ferromagnetic nanoparticles into micron-sized one-dimensional mesostructures at a liquid–liquid interface was reported. When polystyrene-coated Co nanoparticles (19 nm) are driven to an oil/water interf