Instructions 012: Biosilk® and Biolaminin® free-floating scaffolds in 96-well plate for hPSC culture
Guideline for human Pluripotent Stem Sell integration into free-floating Biosilk scaffolds fitted into 96-well plates.
Application note 018-02: BioLamina products in research and manufacturing – Biolaminin® matrices for all steps and scales
Clinically adaptable Biolaminin cell adhesion coating for higher yield in bioreactor systems
A Biomimetic Electrospun Membrane Supports the Differentiation and Maturation of Kidney Epithelium from Human Stem Cells
A Biomimetic Electrospun Membrane Supports the Differentiation and Maturation of Kidney Epithelium from Human Stem Cells Mou, X., Shah, J., […]
Application note 018: Large-scale cell production
Clinically adaptable Biolaminin cell adhesion coating for higher yield in bioreactor systems
Laminin as a Potent Substrate for Large-Scale Expansion of Human Induced Pluripotent Stem Cells in a Closed Cell Expansion System
Laminin as a Potent Substrate for Large-Scale Expansion of Human Induced Pluripotent Stem Cells in a Closed Cell Expansion System […]
Application note 001: Weekend free hPSC culture using Biolaminin 521
No need to feed your stem cells during weekends with the help of the biorelevant matrix
Instructions 011: Biosilk 3D scaffolds for differentiation and proliferation of hPSCs
Protocol for human pluripotent stem cell expansion, differentiation and organoid formation in 3D
Instructions 002: Culturing mouse ES and iPS cells on human recombinant Biolaminin 511
Protocol for the transition of mouse pluripotent stem cells to Biolaminin from another matrix
Instructions 010: Embryoid body formation from human pluripotent stem cells
Protocol for a standardized, serum-free EB formation of hPSCs cultured on Biolaminin
Instructions 003: Culturing human ES and iPS cells
Protocol for the transition of human PSCs to Biolaminin cell culture matrices (LN, MX, and CTG)