# Publications [ Cover Articles arrow\_circle\_right ](/cover-articles) Sort & Filters close ## Filters Areas of Research expand\_more - Functional Matter (17) - Living Matter (10) - Structural Matter (11) Search Within Results Search Within Results search ## 233 results Show filters filter\_alt Sort by Year of PublicationAlphabetical A-Z sort ## 233 results Download 233 citations download- [BibTeX](/node/870066/export?format=bibtex) - [EndNote X3 XML](/node/870066/export?format=endnote8) - [EndNote 7 XML](/node/870066/export?format=endnote7) - [Endnote tagged](/node/870066/export?format=tagged) - [Marc](/node/870066/export?format=marc) - [PubMedId](/node/870066/export?format=pubmed_id) - [RIS](/node/870066/export?format=ris) ### 2026 Jackson K. Wilt, Natalie M. Larson, and Jennifer A. Lewis. 2026. “[Rotational Multimaterial 3D Printing of Soft Robotic Matter With Embedded Asymmetrical Pneumatics](/publication/rotational-multimaterial-3d-printing-soft-robotic-matter-embedded-asymmetrical)”. Advanced Materials. doi:https://doi.org/10.1002/adma.202510141 Jackson K. Wilt, Natalie M. Larson, and Jennifer A. Lewis. 2026. “[Rotational Multimaterial 3D Printing of Soft Robotic Matter With Embedded Asymmetrical Pneumatics](/publication/rotational-multimaterial-3d-printing-soft-robotic-matter-embedded-asymmetrical)”. Advanced Materials. doi:https://doi.org/10.1002/adma.202510141 - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/2026-01/Rotational%20Multimaterial%203D%20Printing%20of%20Soft%20Robotic%20Matter%20With%20Embedded%20Asymmetrical%20Pneumatics.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/2026-01/Rotational%20Multimaterial%203D%20Printing%20of%20Soft%20Robotic%20Matter%20With%20Embedded%20Asymmetrical%20Pneumatics.pdf) Mustafa K. Abdelrahman, Jackson K. Wilt, Yeonsu Jung, Rodrigo Telles, Gurminder K. Paink, Natalie M. Larson, Joanna Aizenberg, L. Mahadevan, and Jennifer A. Lewis. 2026. “[Rotational 3D Printing of Active–Passive Filaments and Lattices With Programmable Shape Morphing](/publication/rotational-3d-printing-active-passive-filaments-and-lattices-programmable-shape)” Mustafa K. Abdelrahman, Jackson K. Wilt, Yeonsu Jung, Rodrigo Telles, Gurminder K. Paink, Natalie M. Larson, Joanna Aizenberg, L. Mahadevan, and Jennifer A. Lewis. 2026. “[Rotational 3D Printing of Active–Passive Filaments and Lattices With Programmable Shape Morphing](/publication/rotational-3d-printing-active-passive-filaments-and-lattices-programmable-shape)” - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/2026-04/Rotational%203D%20Printing%20of%20Active%E2%80%93Passive%20Filaments%20and%20Lattices%20with%20Programmable%20Shape%20Morphing_0.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/2026-04/Rotational%203D%20Printing%20of%20Active%E2%80%93Passive%20Filaments%20and%20Lattices%20with%20Programmable%20Shape%20Morphing_0.pdf) ### 2025 Kayla J. Wolf, Ronald C. van Gaal, Sebastien G. M. Uzel, Jonathan E. Rubins, Aline N. Klaus, Amelie Printz, Pooja Nair, Katharina T. Kroll, Paul Stankey, Lisa M. Satlin, and Jennifer A. Lewis. 2025. “[Perfusable 3D Models of Ureteric Bud and Collecting Duct Tubules](/publication/perfusable-3d-models-ureteric-bud-and-collecting-duct-tubules)”. Cell Biomaterials Kayla J. Wolf, Ronald C. van Gaal, Sebastien G. M. Uzel, Jonathan E. Rubins, Aline N. Klaus, Amelie Printz, Pooja Nair, Katharina T. Kroll, Paul Stankey, Lisa M. Satlin, and Jennifer A. Lewis. 2025. “[Perfusable 3D Models of Ureteric Bud and Collecting Duct Tubules](/publication/perfusable-3d-models-ureteric-bud-and-collecting-duct-tubules)”. Cell Biomaterials - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/2025-12/Perfusable%203D%20Models%20of%20Ureteric%20Bud%20and%20Collecting%20Duct%20Tubules%20%28Compressed%29.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/2025-12/Perfusable%203D%20Models%20of%20Ureteric%20Bud%20and%20Collecting%20Duct%20Tubules%20%28Compressed%29.pdf) Alicia Ng, Rodrigo Telles, Katherine S. Riley, Jennifer A. Lewis, Caitlyn C. Cook, Elaine Lee, and Shu Yang. 2025. “[Coaxial Direct Ink Writing of Cholesteric Liquid Crystal Elastomers in 3D Architectures](/publications/coaxial-direct-ink-writing-cholesteric-liquid-crystal-elastomers-3d)”. Advanced Materials Alicia Ng, Rodrigo Telles, Katherine S. Riley, Jennifer A. Lewis, Caitlyn C. Cook, Elaine Lee, and Shu Yang. 2025. “[Coaxial Direct Ink Writing of Cholesteric Liquid Crystal Elastomers in 3D Architectures](/publications/coaxial-direct-ink-writing-cholesteric-liquid-crystal-elastomers-3d)”. Advanced Materials - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/coaxial_direct_ink_writing_of_cholesteric_liquid_crystal_elastomers_in_3d_architectures.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/coaxial_direct_ink_writing_of_cholesteric_liquid_crystal_elastomers_in_3d_architectures.pdf) Subhasish Chaki, Benito Roman-Manso, Larissa Senatus, Jennifer A. Lewis, and Kenneth S. Schweizer. 2025. “[Theoretical Study of the Impact of Dilute Nanoparticle Additives on the Shear Elasticity of Dense Colloidal Suspensions](/publications/theoretical-study-impact-dilute-nanoparticle-additives-shear-elasticity-dense)”. Soft Matter Subhasish Chaki, Benito Roman-Manso, Larissa Senatus, Jennifer A. Lewis, and Kenneth S. Schweizer. 2025. “[Theoretical Study of the Impact of Dilute Nanoparticle Additives on the Shear Elasticity of Dense Colloidal Suspensions](/publications/theoretical-study-impact-dilute-nanoparticle-additives-shear-elasticity-dense)”. Soft Matter - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/theoretical_study_of_the_impact_of_dilute_nanoparticle_additives_on_the_shear_elasticity_of_dense_colloidal_suspensions.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/theoretical_study_of_the_impact_of_dilute_nanoparticle_additives_on_the_shear_elasticity_of_dense_colloidal_suspensions.pdf) Riccardo Rizzo, Dylan M. Barber, Jackson K. Wilt, Alexander J. Ainscough, and Jennifer A. Lewis. 2025. “[Photoinitiator-Free Light-Mediated Crosslinking of Dynamic Polymer and Pristine Protein Networks](/publications/photoinitiator-free-light-mediated-crosslinking-dynamic-polymer-and-pristine)”. Biomaterials Science Riccardo Rizzo, Dylan M. Barber, Jackson K. Wilt, Alexander J. Ainscough, and Jennifer A. Lewis. 2025. “[Photoinitiator-Free Light-Mediated Crosslinking of Dynamic Polymer and Pristine Protein Networks](/publications/photoinitiator-free-light-mediated-crosslinking-dynamic-polymer-and-pristine)”. Biomaterials Science - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/photoinitiator-free_light-mediated_crosslinking_of_dynamic_polymer_and_pristine_protein_networks.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/photoinitiator-free_light-mediated_crosslinking_of_dynamic_polymer_and_pristine_protein_networks.pdf) Dylan M. Barber, Michael D. Nelwood, and Jennifer A. Lewis. 2025. “[Rational Design and Synthesis of Zwitterionic Liquid Dielectrics](/publications/rational-design-and-synthesis-zwitterionic-liquid-dielectrics)”. Matter Dylan M. Barber, Michael D. Nelwood, and Jennifer A. Lewis. 2025. “[Rational Design and Synthesis of Zwitterionic Liquid Dielectrics](/publications/rational-design-and-synthesis-zwitterionic-liquid-dielectrics)”. Matter - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/rational_design_and_synthesis_of_zwitterionic_liquid_dielectrics.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/rational_design_and_synthesis_of_zwitterionic_liquid_dielectrics.pdf) Dylan M. Barber, Sofia Edgar, Michael S. Emanuel, Michael D. Nelwood, Bok Yeop Ahn, Benito Roman-Manso, Thomas Cochard, Justin Platero, Kiana Amini, Chris H. Rycroft, Shmuel Rubinstein, Michael J. Aziz, and Jennifer A. Lewis. 2025. “[Print-and-Plate Architected Electrodes for Electrochemical Transformations Under Flow](/publications/print-and-plate-architected-electrodes-electrochemical-transformations-under)”. Advanced Functional Materials Dylan M. Barber, Sofia Edgar, Michael S. Emanuel, Michael D. Nelwood, Bok Yeop Ahn, Benito Roman-Manso, Thomas Cochard, Justin Platero, Kiana Amini, Chris H. Rycroft, Shmuel Rubinstein, Michael J. Aziz, and Jennifer A. Lewis. 2025. “[Print-and-Plate Architected Electrodes for Electrochemical Transformations Under Flow](/publications/print-and-plate-architected-electrodes-electrochemical-transformations-under)”. Advanced Functional Materials - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/print-and-plate_architected_electrodes_for_electrochemical_transformations_under_flow.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/print-and-plate_architected_electrodes_for_electrochemical_transformations_under_flow.pdf) Jeremy A. Herman, Rodrigo Telles, Caitlyn C. Cook, Samuel C. Leguizamon, Jennifer A. Lewis, Bryan Kaehr, Timothy J. White, and Devin J. Roach. 2025. “[Digital Light Process 3D Printing of Magnetically Aligned Liquid Crystalline Elastomer Free-Forms](/publications/digital-light-process-3d-printing-magnetically-aligned-liquid-crystalline)”. Advanced Materials. doi:10.1002/adma.202414209 Jeremy A. Herman, Rodrigo Telles, Caitlyn C. Cook, Samuel C. Leguizamon, Jennifer A. Lewis, Bryan Kaehr, Timothy J. White, and Devin J. Roach. 2025. “[Digital Light Process 3D Printing of Magnetically Aligned Liquid Crystalline Elastomer Free-Forms](/publications/digital-light-process-3d-printing-magnetically-aligned-liquid-crystalline)”. Advanced Materials. doi:10.1002/adma.202414209 - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/digital_light_process_3d_printing_of_magnetically_aligned_liquid_crystalline_elastomer_free-forms.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/digital_light_process_3d_printing_of_magnetically_aligned_liquid_crystalline_elastomer_free-forms.pdf) ### 2024 Arda Kotikian, Audrey A. Watkins, Giovanni Bordiga, Andrew Spielberg, Zoey S. Davidson, Katia Bertoldi, and Jennifer A. Lewis. 2024. “[Liquid Crystal Elastomer Lattices With Thermally Programmable Deformation via Multi-Material 3D Printing](/publications/liquid-crystal-elastomer-lattices-thermally-programmable-deformation-multi)”. Advanced Materials Arda Kotikian, Audrey A. Watkins, Giovanni Bordiga, Andrew Spielberg, Zoey S. Davidson, Katia Bertoldi, and Jennifer A. Lewis. 2024. “[Liquid Crystal Elastomer Lattices With Thermally Programmable Deformation via Multi-Material 3D Printing](/publications/liquid-crystal-elastomer-lattices-thermally-programmable-deformation-multi)”. Advanced Materials - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/lewis-lab/files/liquid_crystal_elastomer_lattices_with_thermally_programmable_deformation_via_multi-material_3d_printing.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/lewis-lab/files/liquid_crystal_elastomer_lattices_with_thermally_programmable_deformation_via_multi-material_3d_printing.pdf) Michael J. Ford, Dominique H. Porcincula, Rodrigo Telles, Julie A. Mancini, Yuchen Wang, Mehedi H. Rizvi, Colin K. Loeb, Bryan D. Moran, Joseph B. Tracy, Jennifer A. Lewis, Shu Yang, Elaine Lee, and Caitlyn C. Cook. 2024. “[Movement With Light - Photoresponsive Shape Morphing of Printed Liquid Crystal Elastomers](/publications/movement-light-photoresponsive-shape-morphing-printed-liquid-crystal)”. Matter, 7 Michael J. Ford, Dominique H. Porcincula, Rodrigo Telles, Julie A. Mancini, Yuchen Wang, Mehedi H. Rizvi, Colin K. Loeb, Bryan D. Moran, Joseph B. Tracy, Jennifer A. Lewis, Shu Yang, Elaine Lee, and Caitlyn C. Cook. 2024. “[Movement With Light - Photoresponsive Shape Morphing of Printed Liquid Crystal Elastomers](/publications/movement-light-photoresponsive-shape-morphing-printed-liquid-crystal)”. Matter, 7 - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/lewis-lab/files/movement_with_light_-_photoresponsive_shape_morphing_of_printed_liquid_crystal_elastomers.pdf) - [ picture\_as\_pdfPDF](/sites/g/files/omnuum11526/files/lewis-lab/files/movement_with_light_-_photoresponsive_shape_morphing_of_printed_liquid_crystal_elastomers.pdf) Katharina T. Kroll, Kimberly A. Homan, Sebastien G. M. Uzel, Mariana M. Mata, Kayla J. Wolf, Jonathan E. Rubins, and Jennifer A. Lewis. 2024. “[A Perfusable, Vascularized Kidney Organoid-on-Chip Model](/publications/perfusable-vascularized-kidney-organoid-chip-model)”. Biofabrication, 16 Katharina T. Kroll, Kimberly A. Homan, Sebastien G. M. Uzel, Mariana M. Mata, Kayla J. Wolf, Jonathan E. Rubins, and Jennifer A. Lewis. 2024. “[A Perfusable, Vascularized Kidney Organoid-on-Chip Model](/publications/perfusable-vascularized-kidney-organoid-chip-model)”. 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