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Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes

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Last updated 12 janeiro 2025
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Electrochemically controlled drug-mimicking protein release from iron- alginate thin-films associated with an electrode.
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Gels, Free Full-Text
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
A) Schematics of the DNA deposition on the positively charged
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
New diagnostic and therapeutic strategies for myocardial infarction via nanomaterials - eBioMedicine
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Drug release by pH trigger and the cumulative drug release profiles. a)
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Smart Hydrogels for Tissue Regeneration - Xie - Macromolecular Bioscience - Wiley Online Library
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Gels, Free Full-Text
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Smart/stimuli-responsive hydrogels: Cutting-edge platforms for tissue engineering and other biomedical applications - ScienceDirect
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Synthesis and characterization of pH responsive alginate based-hydrogels as oral drug delivery carrier
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Schematic of closed‐loop drug release triggered by symptom‐associated
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Structural changes in alginate-based microspheres exposed to in vivo environment as revealed by confocal Raman microscopy
Stimulation–Inhibition of Protein Release from Alginate Hydrogels Using Electrochemically Generated Local pH Changes
Material Engineering in Gut Microbiome and Human Health
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