Daniel D. McKinnon, Ph.D.
Affiliations: | 2014 | Chemical Engineering | University of Colorado, Boulder, Boulder, CO, United States |
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"Daniel McKinnon"Parents
Sign in to add mentor| Kristi Anseth | grad student | 2014 | CU Boulder | |
| (Process Extension from Embryonic Stem Cell-Derived Motor Neurons through Synthetic Extracellular Matrix Mimics.) | ||||
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| Azagarsamy MA, McKinnon DD, Alge DL, et al. (2014) Coumarin-Based Photodegradable Hydrogel: Design, Synthesis, Gelation, and Degradation Kinetics. Acs Macro Letters. 3: 515-519 |
| McKinnon DD, Domaille DW, Brown TE, et al. (2014) Measuring cellular forces using bis-aliphatic hydrazone crosslinked stress-relaxing hydrogels. Soft Matter. 10: 9230-6 |
| McKinnon DD, Brown TE, Kyburz KA, et al. (2014) Design and characterization of a synthetically accessible, photodegradable hydrogel for user-directed formation of neural networks. Biomacromolecules. 15: 2808-16 |
| McKinnon DD, Domaille DW, Cha JN, et al. (2014) Biophysically defined and cytocompatible covalently adaptable networks as viscoelastic 3D cell culture systems. Advanced Materials (Deerfield Beach, Fla.). 26: 865-72 |
| Azagarsamy MA, McKinnon DD, Alge DL, et al. (2014) Coumarin-based photodegradable hydrogel: Design, synthesis, gelation, and degradation kinetics Acs Macro Letters. 3: 515-519 |
| McKinnon DD, Domaille DW, Cha JN, et al. (2014) Bis-aliphatic hydrazone-linked hydrogels form most rapidly at physiological pH: Identifying the origin of hydrogel properties with small molecule kinetic studies Chemistry of Materials. 26: 2382-2387 |
| McKinnon DD, Domaille DW, Cha JN, et al. (2014) Hydrogels: Biophysically Defined and Cytocompatible Covalently Adaptable Networks as Viscoelastic 3D Cell Culture Systems (Adv. Mater. 6/2014) Advanced Materials. 26: 821-821 |
| McKinnon DD, Kloxin AM, Anseth KS. (2013) Synthetic hydrogel platform for three-dimensional culture of embryonic stem cell-derived motor neurons. Biomaterials Science. 1: 460-469 |
| McKinnon DD, Kloxin AM, Anseth KS. (2013) Synthetic hydrogel platform for three-dimensional culture of embryonic stem cell-derived motor neurons Biomaterials Science. 1: 460-469 |