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The University of Utah

7 ARTICLES PUBLISHED IN JoVE

Engineering

Hydrogel Synthesis

Amber N. Barron¹, Ashlea Patterson¹, Taylor D. Sparks¹

¹The University of Utah

Hydrogel Synthesis

Engineering

Differential Scanning Calorimetry

Danielle N. Beatty¹, Taylor D. Sparks¹

¹The University of Utah

Differential Scanning Calorimetry

Engineering

Thermal Diffusivity and the Laser Flash Method

Elise S.D. Buki¹, Danielle N. Beatty¹, Taylor D. Sparks¹

¹The University of Utah

Thermal Diffusivity and the Laser Flash Method

Engineering

Electroplating of Thin Films

Logan G. Kiefer¹, Andrew R. Falkowski¹, Taylor D. Sparks¹

¹The University of Utah

Electroplating of Thin Films

Engineering

Analysis of Thermal Expansion via Dilatometry

J. Jacob Chavez¹, Ryan T. Davis¹, Taylor D. Sparks¹

¹The University of Utah

Analysis of Thermal Expansion via Dilatometry

Engineering

Electrochemical Impedance Spectroscopy

Kara Ingraham¹, Jared McCutchen¹, Taylor D. Sparks¹

¹The University of Utah

Electrochemical Impedance Spectroscopy

Engineering

Patterning via Optical Saturable Transitions - Fabrication and Characterization

Precious Cantu¹, Trisha L. Andrew², Rajesh Menon¹

¹Department of Electrical and Computer Engineering, The University of Utah, ²Department of Chemistry, The University of Wisconsin-Madison

We report that the diffraction limit of conventional optical lithography can be overcome by exploiting the transitions of organic photochromic derivatives induced by their photoisomerization at low light intensities.^1-3 This paper outlines our fabrication technique and two locking mechanisms, namely: dissolution of one photoisomer and electrochemical oxidation.

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