Search Results - "Retterer, S."

Modular microfluidics for point-of-care protein purifications by Millet, L J, Lucheon, J D, Standaert, R F, Retterer, S T, Doktycz, M J

“…Biochemical separations are the heart of diagnostic assays and purification methods for biologics. On-chip miniaturization and modularization of separation…”
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Optic imaging of single and two-phase pressure-driven flows in nano-scale channels by Wu, Qihua, Ok, Jeong Tae, Sun, Yongpeng, Retterer, S T, Neeves, Keith B, Yin, Xiaolong, Bai, Baojun, Ma, Yinfa

“…Microfluidic and nanofluidic devices have undergone rapid development in recent years. Functions integrated onto such devices provide lab-on-a-chip solutions…”
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Dexamethasone treatment reduces astroglia responses to inserted neuroprosthetic devices in rat neocortex by Spataro, L., Dilgen, J., Retterer, S., Spence, A.J., Isaacson, M., Turner, J.N., Shain, W.

“…Microfabricated neural prosthetic devices hold great potential for increasing knowledge of brain function and treating patients with lost CNS function…”
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Magnetic domain formation in ultrathin complex oxide ferromagnetic/antiferromagnetic bilayers by Bang, A. D., Olsen, F. K., Slöetjes, S. D., Scholl, A., Retterer, S. T., Vaz, C. A. F., Tybell, T., Folven, E., Grepstad, J. K.

“…In this study, we report on the magnetic domain formation in ultrathin blanket films and patterned micro- and nanostructures of ferromagnetic (FM)…”
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Néel vector reorientation in ferromagnetic/antiferromagnetic complex oxide nanostructures by Bang, A. D., Hallsteinsen, I., Olsen, F. K., Slöetjes, S. D., Retterer, S. T., Scholl, A., Arenholz, E., Folven, E., Grepstad, J. K.

“…In this study, we report on a temperature-driven antiferromagnetic (AF) spin reorientation transition in micro- and nanostructures of AF/ferromagnetic (FM)…”
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Manipulating the lateral diffusion of surface-anchored EGF demonstrates that receptor clustering modulates phosphorylation levels by Stabley, D, Retterer, S, Marshall, S, Salaita, K

“…Upon activation, the epidermal growth factor (EGF) receptor becomes phosphorylated and triggers a vast signaling network that has profound effects on cell…”
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Brain responses to micro-machined silicon devices by Szarowski, D.H., Andersen, M.D., Retterer, S., Spence, A.J., Isaacson, M., Craighead, H.G., Turner, J.N., Shain, W.

“…Micro-machined neural prosthetic devices can be designed and fabricated to permit recording and stimulation of specific sites in the nervous system…”
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Controlling the switching field in nanomagnets by means of domain-engineered antiferromagnets by Folven, E., Linder, J., Gomonay, O. V., Scholl, A., Doran, A., Young, A. T., Retterer, S. T., Malik, V. K., Tybell, T., Takamura, Y., Grepstad, J. K.

“…Using soft x-ray spectromicroscopy, we investigate the magnetic domain structure in embedded nanomagnets defined in La0.7Sr0.3MnO3 thin films and…”
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Controlling cellular reactive responses around neural prosthetic devices using peripheral and local intervention strategies by Shain, W., Spataro, L., Dilgen, J., Haverstick, K., Retterer, S., Isaacson, M., Saltzman, M., Turner, J.N.

“…While chronic use of indwelling micromachined neural prosthetic devices has great potential, the development of reactive responses around them results in a…”
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Model neural prostheses with integrated microfluidics: a potential intervention strategy for controlling reactive cell and tissue responses by Retterer, S.T., Smith, K.L., Bjornsson, C.S., Neeves, K.B., Spence, A.J.H., Turner, J.N., Shain, W., Isaacson, M.S.

“…Model silicon intracortical probes with microfluidic channels were fabricated and tested to examine the feasibility of using diffusion-mediated delivery to…”
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Comparison of the indentation and elasticity of E. coli and its spheroplasts by AFM by Sullivan, C.J., Venkataraman, S., Retterer, S.T., Allison, D.P., Doktycz, M.J.

“…Atomic force microscopy (AFM) provides a unique opportunity to study live individual bacteria at the nanometer scale. In addition to providing accurate…”
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Constant pressure fluid infusion into rat neocortex from implantable microfluidic devices by Retterer, S T, Smith, K L, Bjornsson, C S, Turner, J N, Isaacson, M S, Shain, W

“…Implantable electrode arrays capable of recording and stimulating neural activity with high spatial and temporal resolution will provide a foundation for…”
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Néel vector reorientation in ferromagnetic/antiferromagnetic complex oxide nanostructures by Bang, A. D., Hallsteinsen, I., Olsen, F. K., Slöetjes, S. D., Retterer, S. T., Scholl, A., Arenholz, E., Folven, E., Grepstad, J. K.

“…In this study, we report on a temperature-driven antiferromagnetic (AF) spin reorientation transition in micro- and nanostructures of AF/ferromagnetic (FM)…”
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Tele-immersive product evaluation: a review and an implementation framework by Thompson, D., Banerjee, A., Banerjee, P., DeFanti, T., Retterer, S.

“…A novel virtual tele-immersive product evaluation environment is conceived. The components for the tele-immersive virtual environment for product evaluation…”
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Manipulating the lateral diffusion of surface-anchored EGF demonstrates that receptor clustering modulates phosphorylation levelsElectronic supplementary information (ESI) available. See DOI: 10.1039/c3ib20239a by Stabley, D, Retterer, S, Marshall, S, Salaita, K

“…Upon activation, the epidermal growth factor (EGF) receptor becomes phosphorylated and triggers a vast signaling network that has profound effects on cell…”
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On-chip micro-biosensor for the detection of human CD4 + cells based on AC impedance and optical analysis by Mishra, Nirankar N., Retterer, Scott, Zieziulewicz, Thomas J., Isaacson, Michael, Szarowski, Donald, Mousseau, Donald E., Lawrence, David A., Turner, James N.

“…The current study was undertaken to fabricate a small micro-electrode on-chip to rapidly detect and quantify human CD4 + cells in a minimal volume of blood…”
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Cryogenic Etching of Silicon: An Alternative Method for Fabrication of Vertical Microcantilever Master Molds by Addae-Mensah, K.A., Retterer, S., Opalenik, S.R., Thomas, D., Lavrik, N.V., Wikswo, J.P.

“…This paper examines the use of deep reactive ion etching of silicon with fluorine high-density plasmas at cryogenic temperatures to produce silicon master…”
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Effects of nanostructuring and substrate symmetry on antiferromagnetic domain structure in LaFeO 3 thin films by Folven, E., Scholl, A., Young, A., Retterer, S. T., Boschker, J. E., Tybell, T., Takamura, Y., Grepstad, J. K.

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Gratings on porous silicon structures for sensing applications by Liscidini, M., Wei, X., Kang, C., Rong, G., Retterer, S.T., Patrini, M., Sipe, J.E., Weiss, S.M.

“…We investigate the use of gratings on porous silicon structures for sensing applications. Examples of two classes of systems are studied: grating-coupled…”
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Effects of nanostructuring and substrate symmetry on antiferromagnetic domain structure in LaFeO3 thin films by Folven, E., Scholl, A., Young, A., Retterer, S. T., Boschker, J. E., Tybell, T., Takamura, Y., Grepstad, J. K.

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