about
Multiscale topological guidance for cell alignment via direct laser writing on biodegradable polymer.Laser and electron-beam powder-bed additive manufacturing of metallic implants: A review on processes, materials and designs.Rapid prototyping in tissue engineering: challenges and potential.Investigation of cell viability and morphology in 3D bio-printed alginate constructs with tunable stiffness.Metallic powder-bed based 3D printing of cellular scaffolds for orthopaedic implants: A state-of-the-art review on manufacturing, topological design, mechanical properties and biocompatibility.Hybrid microscaffold-based 3D bioprinting of multi-cellular constructs with high compressive strength: A new biofabrication strategy.Engineering functionally graded tissue engineering scaffolds.Microvalve-based bioprinting - process, bio-inks and applications.Characterization, mechanical behavior and in vitro evaluation of a melt-drawn scaffold for esophageal tissue engineering.Design and Printing Strategies in 3D Bioprinting of Cell-Hydrogels: A Review.Skin Bioprinting: Impending Reality or Fantasy?Evaluation by medical students of the educational value of multi-material and multi-colored three-dimensional printed models of the upper limb for anatomical education.Investigation of Quasi-Static Indentation Response of Inkjet Printed Sandwich Structures under Various Indenter Geometries.Additive Manufacturing of Patient-Customizable Scaffolds for Tubular Tissues Using the Melt-Drawing Method.Polyvinylpyrrolidone-Based Bio-Ink Improves Cell Viability and Homogeneity during Drop-On-Demand Printing.Applying macromolecular crowding to 3D bioprinting: fabrication of 3D hierarchical porous collagen-based hydrogel constructs.Proof-of-concept: 3D bioprinting of pigmented human skin constructs.3D Printed Polycaprolactone Carbon Nanotube Composite Scaffolds for Cardiac Tissue Engineering.Aerosol-Jet-Printed Preferentially Aligned Carbon Nanotube Twin-Lines for Printed ElectronicsDevelopment of a three-dimensional printed heart from computed tomography images of a plastinated specimen for learning anatomySessile droplets containing carbon nanotubes: a study of evaporation dynamics and CNT alignment for printed electronics
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Q33522013-CD706CFA-45ED-4FFE-B902-2A1F187D2022Q35816244-71C385F0-E07F-4817-830D-9FA50658EDA4Q35948235-FD5BB4FB-04E5-46FC-BDE5-9E16353F5AB7Q36217343-6385B65B-EE2C-4E0B-8653-3702A9078E7BQ36365973-CB657570-A394-494A-8132-AB122D06CE2CQ37501828-667E2C87-0336-4F5B-8CC5-70C8BAF1DBFFQ37559969-D7ADA565-3ACF-465C-8B42-EB9C9084F5CAQ38757300-CBBB0990-78C2-4AB0-A362-B10BC70C6FDAQ38806232-76B52FDF-7C94-484F-B79F-246DC6F347A4Q38808229-7542BB18-56B0-4CCB-8DAB-AA39E1094A6DQ38831939-9E4A8020-70D7-456A-947C-12F633714C42Q40473331-7397A9B7-9425-41A0-91C3-8A3CC38FEE71Q40969414-4EC97D85-1200-4F66-A907-DB89EA855E83Q41810240-6ED4DBA6-FB99-4D4F-8859-5D030D798FEFQ42221502-39502816-A0E4-46B2-87A2-D1A99DC99B62Q48137932-2A0A4BEC-E218-4965-9C4C-F64B939409A1Q48526837-0335314A-8803-4A82-8705-1A4F037705F6Q50270373-A2D6101F-94EA-4592-9208-8A9F937C8B41Q90982862-F7E54A7A-AFAE-4975-988C-A847BA1C1B15Q91794184-361CCFD3-B2A2-42CC-9600-8B38D835C580Q92334011-8ED35BE1-886C-4312-87F5-95CE0903DAB5
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description
onderzoeker
@nl
researcher ORCID ID = 0000-0003-3640-0877
@en
name
Wai Yee Yeong
@ast
Wai Yee Yeong
@en
Wai Yee Yeong
@es
Wai Yee Yeong
@nl
type
label
Wai Yee Yeong
@ast
Wai Yee Yeong
@en
Wai Yee Yeong
@es
Wai Yee Yeong
@nl
prefLabel
Wai Yee Yeong
@ast
Wai Yee Yeong
@en
Wai Yee Yeong
@es
Wai Yee Yeong
@nl
P214
P106
P1153
16687216200
P214
P31
P496
0000-0003-3640-0877
P7859
lccn-n2014189170