Publications

New and Upcoming:

Mogas-Soldevila L., Zolotovsky K.(2024) "Printed Responsive Biomaterials (PRBs): A Review", Invited Article to 3D Printing and Additive Manufacturing Journal: Special Issue BioDesign for Health, Mary Ann Liebert (upcoming).

Bae JY, Aviv D., Mogas-Soldevila L(2024) "SimBioBrick: Symbiotic Plant-Fungi Building Systems for Environmental Bioremediation”. Proceedings of the DMS Design Modeling Symposium, Kassel GR (upcoming). 

Mogas-Soldevila, L. et al. (2024) ‘Driving macro-scale transformations in three-dimensional-printed biopolymers through controlled induction of molecular anisotropy at the nanoscale’, Interface Focus, 14(3), p. 20230077. Invited article to 'Composite Materials in Biological Systems Special Issue: Part II, Biological and Bioinspired Composites’ by W Krings and S N. Gorb, https://doi.org/10.1098/rsfs.2023.0077.

Mogas-Soldevila L. and Zolotovsky K. (2024) "Bioprinted Buildings: Nature’s Materials & Strategies in Additively Manufactured Architectures" Chapter in AM Perspectives: Research in Additive Manufacturing for Architecture and Construction. Eds: Rosendahl, Philipp L., Figueiredo B, Turrin M, Knaack U, and Cruz PJS. | BookRxiv. BookRxiv, 2024. https://doi.org/10.47982/a82n7r50

Cantadori, C., Yulita, S., & Mogas Soldevila, L. (2024). "Early Eco-Literacy for Regenerative Futures". Cambridge Open Engage. doi:10.33774/coe-2024-l9m7m https://www.cambridge.org/engage/coe/article-details/65f48b75e9ebbb4db9…  

Lasting L., Akbari M., et al., "Terrene 2.0: Biomaterial Composites Design & Shellular Structures for Augmented Earthen Construction" (2024), Materials & Design v:239 https://www.sciencedirect.com/science/article/pii/S0264127524001643

Akbari M., Oghazian F., Bae JY., Davis F., Mogas-Soldevila L., Akbarzadeh M., (2023) "Bio-based Composite Spatial Shell Structures", Proceedings of the IASS Annual Symposium Integration of Design and Fabrication, Y.M. Xie, J. Burry, T.U. Lee and J. Ma (eds.), Melbourne, Australia. http://iass2023.org.au

Bae JY, Aviv D., Mogas-Soldevila L., "SimBioBrick: Symbiotic Plant-Fungi Building Systems for Environmental Bioremediation” (2024). Proceedings of the DMSC Design Modeling Symposium, Kassel GR (upcoming).

Cen Y., Bae JY, Sojo A., Weinstein A., Mogas-Soldevila L, "CanoPIT: Valorizing Unavoidable Fruit Waste into Printable Biomaterial Surfaces for Participatory Learning" (2024). ACSA Conference, Vancouver CA https://www.acsa-arch.org/chapter/canopit-valorizing-unavoidable-fruit-…;

Keuchel D., Lee N., Goo B., and Mogas-Soldevila L., "TERRENE 3.0 Biodegradable Earthen Composite Shells" (2023) . Materialize And Build Track - Responsive Cities Conference, Barcelona SP https://drive.google.com/file/d/1zfCkHEDTa8qyKJyF681B0ip721fVYy-6/view&…;

Ho G., Kubušová V., Irabien C., Li V., Weinstein A., Chawla Sh., Yeung D., Mershin A., Zolotovsky K., Mogas-Soldevila L.(2023) "Multiscale Design of Biologically Active Architectural Structures". Edited by Martyn Dade-Robertson, Frontiers in Bioengineering Biotechnology - Biomaterials, Special Issue on Biological Fabrication Beyond Tissue Engineering, Vol(11), https://doi.org/10.3389/fbioe.2023.1125156

Mogas-Soldevila, L. (2023) "Low Energy Adaptive Biological Material Skins from Nature to Buildings". Chapter in Advanced Materials in Smart Building Skins for Sustainability: From Nano to Macroscale, Julian Wang, Donglu Shi, and Yehao Song Eds., Springer-Nature, ISBN: 9783031096945. https://link.springer.com/book/10.1007/978-3-031-09695-2 

Lasting L., Mogas Soldevila L., Akbarzadeh M. (2022), “Terrene: Sustainable Shellular Structures”, Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference: Innovation·Sustainability·Legacy, 19 – 22 September 2022, Beijing, China. http://www.iass2022.org.cn 

Mogas-Soldevila, L. (2022) “Reviving Matter: Modification, Substitution, Augmentation, and Interaction in Exemplar Biomaterial Architectures”. Chapter in Bio/Matter/Techno/Synthetics: Design Futures for the More than Human. Franca Trubiano, Marta Llor and Susan Kolber Ed., ACTAR, ISBN: 9781638409854. https://www.barnesandnoble.com/w/bio-matter-techno-synthetics-franca-tr…;

Giulia Guidetti, Luciana d'Amone, Taehoon Kim, Giusy Matzeu, Laia Mogas-Soldevila, Bradley Napier, Nicholas Ostrovsky-Snider, Jeffery Roshko, Elisabetta Ruggeri, and Fiorenzo G. Omenetto (2022). Silk materials at the convergence of science, sustainability, healthcare, and technology, Applied Physics Reviews 9, 011302. https://doi.org/10.1063/5.0060344 

 

Previous Research:

Mogas-Soldevila L., Matzeu G., Lo Presti M., Omenetto F., (2021). Additively manufactured leather-like silk protein materials, Materials & Design, 203, https://doi.org/10.1016/j.matdes.2021.109631

Matzeu G, Mogas-Soldevila, L., & Omenetto F.G. (2021). Silk Ink Compositions and Methods of Making and Using the Same (Patent No. US 20210155812). USPTO.

Matzeu, G., Mogas-Soldevila, L., Li, W., Naidu, A., Turner, T. H., Gu, R., Blumeris, P. R., Song, P., Pascal, D. G., Guidetti, G., Li, M., & Omenetto, F. G. (2020). Large‐Scale Patterning of Reactive Surfaces for Wearable and Environmentally Deployable Sensors. Advanced Materials, 32(28). https://doi.org/10.1002/adma.202001258

Duro, J., Mogas-Soldevila, L., & Oxman, N. (2019). Methods and Apparatus for Additive Manufacturing Along User-Specified Tool-Paths (Patent No. US 1028606 B2). USPTO.

Mogas-Soldevila, L. (2018). Formalizing Infinite Properties: Beyond Functionalism in Design. ACTAR UrbanNEXT, Designing Matter. https://urbannext.net/formalizing-infinite-properties/

Duro, J., Mogas-Soldevila, L., Kayser, M., & Oxman, N. (2015). Modeling Behavior for Additive & Distributed Digital Construction. Proceedings of the DMSC Design Modeling Symposium.

Mogas-Soldevila, L. (2015). Water-based Digital Design and Fabrication: Material, Product, and Architectural Explorations in Printing Chitosan and its Composites [Thesis | Massachusetts Institute of Technology]. https://dspace.mit.edu/handle/1721.1/101828

Mogas-Soldevila, L., & Oxman, N. (2015). Water-based engineering & fabrication: Large-scale additive manufacturing of biomaterials. Materials Research Society MRS Symposium Proceedings, 1800. https://doi.org/10.1557/opl.2015.659

Mogas-Soldevila, L., Duro, J., & Oxman, N. (2015). FORM FOLLOWS FLOW: A Material-driven Computational Workflow For Digital Fabrication of Large-Scale Hierarchically Structured Objects. Computational Ecologies: Design in the Anthropocene Proceedings of the 35th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA).

Mogas-Soldevila, L., Duro, J., Kayser, M., Lizardo, D., Patrick, W., Sharma, S., Keating, S., Klein, J., Inamura, C., & Oxman, N. (2015). DESIGNING THE OCEAN PAVILION: Biomaterial Templating of Structural, Manufacturing, and Environmental Performance. Proceedings of the International Association for Shell and Spatial Structures (IASS) Symposium.

Mogas-Soldevila, L., Duro, J., & Oxman, N. (2014). Water-based Robotic Fabrication: Large-scale Additive Manufacturing of Functionally-graded Hydrogel Composites via Multichamber Extrusion. 3D Printing and Additive Manufacturing, 1(3). https://doi.org/10.1089/3dp.2014.0014

Duro, J., Zolotovsky, K., Mogas-Soldevila, L., Varshney, S., Oxman, N., Boyce, M. C., & Ortiz, C. (2014). MetaMesh: A hierarchical computational model for design and fabrication of biomimetic armored surfaces. Computer-Aided Design Journal. https://doi.org/10.1016/j.cad.2014.05.005

Mogas-Soldevila, L., Duro-Royo, J., & Oxman, N. (2014). Water-Based Robotic Fabrication: Large-Scale Additive Manufacturing of Functionally Graded Hydrogel Composites via Multichamber Extrusion. 3D Printing and Additive Manufacturing, 1(3), 141–151. https://doi.org/10.1089/3dp.2014.0014

Mogas-Soldevila, L. (2013). New design companions: Opening up the Process through Self-made Computation [Thesis | Massachusetts Institute of Technology]. https://dspace.mit.edu/handle/1721.1/82271