Login
Molecular micromanagement: DNA nanotechnology establishes spatio-temporal control for precision medicine
Biophysics Reviews
2020
1
1
011305
DNA Strands Trigger the Intracellular Release of Drugs from Mucin-Based Nanocarriers
ACS Nano
2020
15
2
2350-2362
Repulsive Backbone–Backbone Interactions Modulate Access to Specific and Unspecific Binding Sites on Surface-Bound Mucins
Langmuir
2020
36
43
12973-12982
Bioinspired Dopamine/Mucin Coatings Provide Lubricity, Wear Protection, and Cell‐Repellent Properties for Medical Applications
Advanced Healthcare Materials
2020
2000831
Smart Biopolymer‐Based Multi‐Layers Enable Consecutive Drug Release Events on Demand
Advanced Materials Interfaces
2020
7
19
2000735
Regulating Chemically Fueled Peptide Assemblies by Molecular Design
Journal of the American Chemical Society
2020
142
33
14142-14149
Highly Transparent Covalent Mucin Coatings Improve the Wettability and Tribology of Hydrophobic Contact Lenses
ACS Applied Materials & Interfaces
2020
12
25
28024-28033
Biopolymer-Based Coatings: Promising Strategies to Improve the Biocompatibility and Functionality of Materials Used in Biomedical Engineering
Advanced Materials Interfaces
2020
2000850
Covalent Mucin Coatings Form Stable Anti‐Biofouling Layers on a Broad Range of Medical Polymer Materials
Advanced Materials Interfaces
2020
7
4
1902069
Charged glycan residues critically contribute to the adsorption and lubricity of mucins
Colloids and Surfaces B: Biointerfaces
2020
187
110614