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David C Luther

Showing results (11-20 of 31) with videos related to

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ACS Nano|December 6, 2018
Control of Intra- versus Extracellular Bioorthogonal Catalysis Using Surface-Engineered NanozymesRiddha Das, Ryan F Landis, Gulen Yesilbag Tonga, et al.
Theranostics|June 28, 2019
Protein Delivery into the Cell Cytosol using Non-Viral NanocarriersYi-Wei Lee, David C Luther, Jessica A Kretzmann, et al.
Chemical Science|November 9, 2022
All-natural gelatin-based bioorthogonal catalysts for efficient eradication of bacterial biofilmsAhmed Nabawy, Rui Huang, David C Luther, et al.
Chemical Science|December 15, 2022
Direct discrimination of cell surface glycosylation signatures using a single pH-responsive boronic acid-functionalized polymerMingdi Jiang, Aritra Nath Chattopadhyay, Cheng Hsuan Li, et al.
Journal of the American Chemical Society|April 22, 2021
Correction to "Direct Cytosolic Delivery of Proteins through Coengineering of Proteins and Polymeric Delivery Vehicles"Yi-Wei Lee, David C Luther, Ritabrita Goswami, et al.
Journal of the American Chemical Society|February 13, 2020
Direct Cytosolic Delivery of Proteins through Coengineering of Proteins and Polymeric Delivery VehiclesYi-Wei Lee, David C Luther, Ritabrita Goswami, et al.
Nanoscale|November 20, 2024
Controlled bioorthogonal catalyst self-assembly and activity using rationally designed polymer scaffoldsRui Huang, Cristina-Maria Hirschbiegel, David C Luther, et al.
ACS Nano|November 9, 2020
Differentiation of Cancer Stem Cells through Nanoparticle Surface EngineeringYingying Geng, John J Amante, Hira L Goel, et al.
JACS Au|August 1, 2022
Macrophage-Encapsulated Bioorthogonal Nanozymes for Targeting Cancer CellsRiddha Das, Joseph Hardie, Bishnu P Joshi, et al.
Journal of the American Chemical Society|March 11, 2021
Regulation of Proteins to the Cytosol Using Delivery Systems with Engineered Polymer ArchitectureJessica A Kretzmann, David C Luther, Cameron W Evans, et al.
Pageof 4

Showing results (11-20 of 31) with videos related to

Sort By:
Pageof 4
ACS Nano|December 6, 2018
Control of Intra- versus Extracellular Bioorthogonal Catalysis Using Surface-Engineered NanozymesRiddha Das, Ryan F Landis, Gulen Yesilbag Tonga, et al.
Theranostics|June 28, 2019
Protein Delivery into the Cell Cytosol using Non-Viral NanocarriersYi-Wei Lee, David C Luther, Jessica A Kretzmann, et al.
Chemical Science|November 9, 2022
All-natural gelatin-based bioorthogonal catalysts for efficient eradication of bacterial biofilmsAhmed Nabawy, Rui Huang, David C Luther, et al.
Chemical Science|December 15, 2022
Direct discrimination of cell surface glycosylation signatures using a single pH-responsive boronic acid-functionalized polymerMingdi Jiang, Aritra Nath Chattopadhyay, Cheng Hsuan Li, et al.
Journal of the American Chemical Society|April 22, 2021
Correction to "Direct Cytosolic Delivery of Proteins through Coengineering of Proteins and Polymeric Delivery Vehicles"Yi-Wei Lee, David C Luther, Ritabrita Goswami, et al.
Journal of the American Chemical Society|February 13, 2020
Direct Cytosolic Delivery of Proteins through Coengineering of Proteins and Polymeric Delivery VehiclesYi-Wei Lee, David C Luther, Ritabrita Goswami, et al.
Nanoscale|November 20, 2024
Controlled bioorthogonal catalyst self-assembly and activity using rationally designed polymer scaffoldsRui Huang, Cristina-Maria Hirschbiegel, David C Luther, et al.
ACS Nano|November 9, 2020
Differentiation of Cancer Stem Cells through Nanoparticle Surface EngineeringYingying Geng, John J Amante, Hira L Goel, et al.
JACS Au|August 1, 2022
Macrophage-Encapsulated Bioorthogonal Nanozymes for Targeting Cancer CellsRiddha Das, Joseph Hardie, Bishnu P Joshi, et al.
Journal of the American Chemical Society|March 11, 2021
Regulation of Proteins to the Cytosol Using Delivery Systems with Engineered Polymer ArchitectureJessica A Kretzmann, David C Luther, Cameron W Evans, et al.
Pageof 4