Numerical investigation of moving gel wall formation in a Y-shaped microchannel

[11] Sun J(2021)Current research progress of photopolymerized hydrogels in tissue engineering Chin Chem Lett 4 1628-146

[12] Warden AR(2017)Cytocompatible cell encapsulation via hydrogel photopolymerization in microfluidic emulsion droplets Biomicrofluidics 13 13920-188

[13] Ding X(2015)Microfluidic generation of monodisperse, structurally homogeneous alginate microgels for cell encapsulation and 3D cell culture Adv Healthc Mater 134 116118-118

[14] Caliari SR(2021)Engineering tissue barrier models on hydrogel microfluidic platforms ACS Appl Mater Interfaces 20 2044-2728

[15] Burdick JA(2021)Recent advances in microfluidic technology and applications for anti-cancer drug screening TrAC Trends Anal Chem 248 117216-521

[16] Bhusal A(2017)Microfluidic bioprinting for engineering vascularized tissues and organoids J Vis Exp 83 96-730

[17] Dogan E(2020)The emerging role of microfluidics in multi-material 3D bioprinting Lab Chip 6 041101-667

[18] Nieto D(2022)Fabrication of magnetic core/shell hydrogels via microfluidics for controlled drug delivery Chem Eng Sci 61 139-1496

[19] Mousavi Shaegh SA(2019)Thermosensitive, fast gelling, photoluminescent, highly flexible, and degradable hydrogels for stem cell delivery Acta Biomater 91 180-124

[20] Cecen B(2022)Fundamentals of hydrogel-based valves and chemofluidic transistors for lab-on-a-chip technology: a tutorial review Adv Mater Technol 78 066303-317

[11] Sun J(2021)Current research progress of photopolymerized hydrogels in tissue engineering Chin Chem Lett 4 1628-146

[12] Warden AR(2017)Cytocompatible cell encapsulation via hydrogel photopolymerization in microfluidic emulsion droplets Biomicrofluidics 13 13920-188

[13] Ding X(2015)Microfluidic generation of monodisperse, structurally homogeneous alginate microgels for cell encapsulation and 3D cell culture Adv Healthc Mater 134 116118-118

[14] Caliari SR(2021)Engineering tissue barrier models on hydrogel microfluidic platforms ACS Appl Mater Interfaces 20 2044-2728

[15] Burdick JA(2021)Recent advances in microfluidic technology and applications for anti-cancer drug screening TrAC Trends Anal Chem 248 117216-521

[16] Bhusal A(2017)Microfluidic bioprinting for engineering vascularized tissues and organoids J Vis Exp 83 96-730

[17] Dogan E(2020)The emerging role of microfluidics in multi-material 3D bioprinting Lab Chip 6 041101-667

[18] Nieto D(2022)Fabrication of magnetic core/shell hydrogels via microfluidics for controlled drug delivery Chem Eng Sci 61 139-1496

[19] Mousavi Shaegh SA(2019)Thermosensitive, fast gelling, photoluminescent, highly flexible, and degradable hydrogels for stem cell delivery Acta Biomater 91 180-124

[20] Cecen B(2022)Fundamentals of hydrogel-based valves and chemofluidic transistors for lab-on-a-chip technology: a tutorial review Adv Mater Technol 78 066303-317