| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.COPBIO.2016.03.014 |
| P698 | PubMed publication ID | 27043763 |
| P50 | author | Wei Zhu | Q59556153 |
| P2093 | author name string | Kang Zhang | |
| Maling Gou | |||
| Shaochen Chen | |||
| Xuanyi Ma | |||
| Deqing Mei | |||
| P921 | main subject | 3D printing | Q229367 |
| tissue engineering | Q1540285 | ||
| P304 | page(s) | 103-112 | |
| P577 | publication date | 2016-04-01 | |
| P1433 | published in | Current Opinion in Biotechnology | Q15763085 |
| P1476 | title | 3D printing of functional biomaterials for tissue engineering | |
| P478 | volume | 40 |
| Q47593320 | 3D Bioprinting for Organ Regeneration |
| Q36392526 | 3D Laser Micro- and Nano-Printing: Challenges for Chemistry |
| Q89216645 | 3D bioprinting of functional tissue models for personalized drug screening and in vitro disease modeling |
| Q92426350 | 3D bioprinting of hydrogels for retina cell culturing |
| Q64892613 | 3D printed micro-scale force gauge arrays to improve human cardiac tissue maturation and enable high throughput drug testing. |
| Q58179627 | 3D printing of hydroxyapatite scaffolds with good mechanical and biocompatible properties by digital light processing |
| Q64335136 | 3D-Printing of Functional Biomedical Microdevices via Light- and Extrusion-Based Approaches |
| Q36321736 | A 3D Tissue-Printing Approach for Validation of Diffusion Tensor Imaging in Skeletal Muscle |
| Q33555407 | A 3D-engineered porous conduit for peripheral nerve repair |
| Q47228486 | A Stereolithography-Based 3D Printed Hybrid Scaffold for In Situ Cartilage Defect Repair. |
| Q52654941 | A thermoreversible, photocrosslinkable collagen bio-ink for free-form fabrication of scaffolds for regenerative medicine. |
| Q89770321 | Addressing present pitfalls in 3D printing for tissue engineering to enhance future potential |
| Q38835604 | Advanced Bioinks for 3D Printing: A Materials Science Perspective |
| Q64266179 | Aligned Scaffolds with Biomolecular Gradients for Regenerative Medicine |
| Q60052826 | An Improved Multi-Relaxation Time Lattice Boltzmann Method for the Non-Newtonian Influence of the Yielding Fluid Flow in Cement-3D Printing |
| Q57806163 | Aqueous Two-Phase Emulsion Bioink-Enabled 3D Bioprinting of Porous Hydrogels |
| Q92012707 | Bi-Layered Polymer Carriers with Surface Modification by Electrospinning for Potential Wound Care Applications |
| Q64943609 | Biofabrication strategies for 3D in vitro models and regenerative medicine. |
| Q90225111 | Bioinks and bioprinting technologies to make heterogeneous and biomimetic tissue constructs |
| Q64065867 | Biomaterials research of China from 2013 to 2017 based on bibliometrics and visualization analysis |
| Q60922884 | Bioprinting in Vascularization Strategies |
| Q49293379 | Bioprinting of skin constructs for wound healing. |
| Q98386916 | Digital Light Processing Based Three-dimensional Printing for Medical Applications |
| Q92048422 | Engineered 3D Polymer and Hydrogel Microenvironments for Cell Culture Applications |
| Q63431936 | Engineering Precision Medicine |
| Q46370488 | Fabrication and characterization of a 3D bioprinted nanoparticle-hydrogel hybrid device for biomimetic detoxification |
| Q52320545 | Fabrication of Custom Agarose Wells for Cell Seeding and Tissue Ring Self-assembly Using 3D-Printed Molds. |
| Q64263786 | Fabrication of Scaffolds for Bone-Tissue Regeneration |
| Q47415649 | Fundamentals of Laser-Based Hydrogel Degradation and Applications in Cell and Tissue Engineering |
| Q41684168 | Human Organ Culture: Updating the Approach to Bridge the Gap from In Vitro to In Vivo in Inflammation, Cancer, and Stem Cell Biology |
| Q90643352 | Is It Time to Start Transitioning From 2D to 3D Cell Culture? |
| Q99565470 | Machine intelligence for nerve conduit design and production |
| Q47266581 | Micropatterned Geometry Shape Oligodendrocyte and Microglia Plasticity |
| Q95839838 | Multi-beam two-photon polymerization for fast large area 3D periodic structure fabrication for bioapplications |
| Q89771198 | Multiphase matrix of silica, culture medium and air for 3D mammalian cell culture |
| Q57497804 | Nanoscale 3D printing of hydrogels for cellular tissue engineering |
| Q58734237 | Nanoscale and Macroscale Scaffolds with Controlled-Release Polymeric Systems for Dental Craniomaxillofacial Tissue Engineering |
| Q52310125 | Precisely printable and biocompatible silk fibroin bioink for digital light processing 3D printing. |
| Q92477671 | Rapid continuous 3D printing of customizable peripheral nerve guidance conduits |
| Q91898250 | Recent advances in the development of nature-derived photocrosslinkable biomaterials for 3D printing in tissue engineering |
| Q90616137 | Scanningless and continuous 3D bioprinting of human tissues with decellularized extracellular matrix |
| Q64237527 | Skin bioprinting: the future of burn wound reconstruction? |
| Q90047210 | Solvent-Free Approaches for the Processing of Scaffolds in Regenerative Medicine |
| Q92148599 | Spatiotemporal Control of Growth Factors in Three-Dimensional Printed Scaffolds |
| Q50851249 | Structurally and Functionally Optimized Silk-Fibroin-Gelatin Scaffold Using 3D Printing to Repair Cartilage Injury In Vitro and In Vivo. |
| Q47325065 | Supramolecular polymeric biomaterials |
| Q90729635 | Sustainable Synthesis and Characterization of Bisphenol A-Free Polycarbonate from Six-Membered Dicyclic Carbonate |
| Q99580324 | Synthetic alternatives to Matrigel |
| Q64066119 | The Role of 3D Printing in Medical Applications: A State of the Art |
| Q48220021 | Three-Dimensional Printing of Bisphenol A-Free Polycarbonates |
| Q94554163 | Three-Dimensional-Printed Poly-L-Lactic Acid Scaffolds with Different Pore Sizes Influence Periosteal Distraction Osteogenesis of a Rabbit Skull |
| Q55400543 | Three-dimensional (3D) printing and its applications for aortic diseases. |
Search more.