Results 251 to 260 of about 847,794 (302)
Service preferences of printing houses as a basis for developing product-service system solutions. [PDF]
Sci RepSalwin M, Kraslawski A.
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Three-Dimensionally Printed Paediatric Medicines: Formulation, Process, and Regulatory Considerations. [PDF]
PharmaceuticsPetrinca K +4 more
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Recognition model for counterfeit protection system in colour-laser-printed documents based on improved ShuffleNet V2. [PDF]
Sci RepZhou QM, Yuan LW, Zhou Q, Li JC, Han XZ.
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Critical Size/Viscosity for Coffee-Ring-Free Printing of Perovskite Micro/Nanopatterns
ACS Applied Materials & Interfaces, 2022Inkjet printing is the most encouraging method for patterning and integrating perovskite materials into microminiature application scenarios. However, it is still challenging to achieve high-resolution, coffee-ring-free, and perfect crystallized patterns.
Guannan Zhang +5 more
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Journal of Periodontology, 2020
AbstractBackgroundThree‐dimensional (3D) printing has become an available technology to fabricate customized tissue engineering scaffolds with delicate architecture. This exploratory study aimed to evaluate the potential of a 3D‐printed hydroxyapatite‐based scaffold as a biomaterial for obtaining guided bone regeneration (GBR) in vivo.MethodsScaffolds ...
Po-Chun, Chang +7 more
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AbstractBackgroundThree‐dimensional (3D) printing has become an available technology to fabricate customized tissue engineering scaffolds with delicate architecture. This exploratory study aimed to evaluate the potential of a 3D‐printed hydroxyapatite‐based scaffold as a biomaterial for obtaining guided bone regeneration (GBR) in vivo.MethodsScaffolds ...
Po-Chun, Chang +7 more
openaire +2 more sources
Biofabrication, 2020
While scaffold-based tissue engineering has been widely used to treat bone critical-size defects, challenges such as implantation of scaffolds in defects with irregular shapes and implantation of scaffolds through minimally invasive surgery remain in the tissue engineering field.
Chong Wang +10 more
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While scaffold-based tissue engineering has been widely used to treat bone critical-size defects, challenges such as implantation of scaffolds in defects with irregular shapes and implantation of scaffolds through minimally invasive surgery remain in the tissue engineering field.
Chong Wang +10 more
openaire +2 more sources
Plastic & Reconstructive Surgery, 2023
Background: Three-dimensional printed bioceramic scaffolds composed of 100% β-tricalcium phosphate augmented with dipyridamole (3DPBC-DIPY) can regenerate bone across critically sized defects in skeletally mature and immature animal models.
Evellyn M, DeMitchell-Rodriguez +9 more
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Background: Three-dimensional printed bioceramic scaffolds composed of 100% β-tricalcium phosphate augmented with dipyridamole (3DPBC-DIPY) can regenerate bone across critically sized defects in skeletally mature and immature animal models.
Evellyn M, DeMitchell-Rodriguez +9 more
openaire +2 more sources