3D Bioplotter Research Papers
Sustainable highly stretchable and tough gelatin-alkali lignin hydrogels for scaffolding and 3D printing applications
Hydrogels and bioinks obtained from gelatin (Gel) generally present poor mechanical properties and require a series of time-consuming and stepwise chemical processes to exhibit improved elasticity and resistance to fatigue. Alkali lignin (AL) is an underutilized by-product of the paper and pulp industry. It is a widely available and inexpensive biomaterial that presents enormous potential for high-value applications owing to its ease of chemical modification and unique naturally occurring polyaromatic structure. This work aims to develop different GelAL hydrogel formulations with a single-step method that are innovative and sustainable. The results obtained from the mechanical, rheological, and degradation studies of…
A 3D-Printed Biomimetic Porous Cellulose-Based Artificial Seed with Photonic Cellulose Nanocrystals for Colorimetric Humidity Sensing
Distributed sensing of environmental parameters is going towards solutions that are more efficient by taking inspiration from flying plant seeds. Yet, present technologies mostly rely on electronics, and they are often heavy and not biodegradable. Here, we develop a biodegradable and porous material, based on cellulose acetate and lignin, and characterize its degree of porosity. We use this material to 3D print lightweight and porous artificial fliers inspired by Ailanthus altissima seeds. By 3D printing, we can tailor in a precise way the morphology of the artificial flier that strongly influences its aerodynamic behavior. We add a cellulose-based photonic crystal…
Direct Ink Writing of Fully Bio-Based Liquid Crystalline Lignin/ Hydroxypropyl Cellulose Aqueous Inks: Optimization of Formulations and Printing Parameters
Following the recent demonstration of the potential to direct ink write lyotropic blends of organosolv lignin (OSL) and hydroxypropyl cellulose (HPC), this study aims to optimize the formulations and direct ink writing parameters for fully bio-based lignin/HPC inks. A prescreening identifies the theoretical window of printability for different compositions for formulations based on OSL solutions of 45, 47.5, and 50% solid contents and OSL/HPC wt %/wt % ratios of 30/70, 40/60, and 50/50. Measurements of shear–viscosity and recovery behavior evidence the shear-thinning contribution of HPC and the viscosity recovery contribution of lignin. Shape fidelity, morphology, and mechanical properties of printed…
Tough and Processable Hydrogels Based on Lignin and Hydrophilic Polyurethane
Lignin is a low-cost, natural polymer with abundant polar sites on its backbone that can be utilized for physical cross-linking of polymers. Here, we use lignin for additional cross-linking of hydrophilic polyether-based polyurethane (HPU) hydrogels, aiming to improve their mechanical properties and processability. Without reducing the swelling, simple addition of 2.5 wt % lignin increases the fracture energy and Young’s modulus of HPU hydrogels from, respectively, 1540 ± 40 to 2050 ± 50 J m–2 and 1.29 ± 0.06 to 2.62 ± 0.84 MPa. Lignin also increases the lap shear adhesiveness of hydrogels and induces an immediate load recovery of…