Adam Jakus, Ph.D.
Adam Jakus, Ph.D.
BioThera3 Advising & Consulting, LLC
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Cited by
Cited by
Three-dimensional printing of high-content graphene scaffolds for electronic and biomedical applications
AE Jakus, EB Secor, AL Rutz, SW Jordan, MC Hersam, RN Shah
ACS nano 9 (4), 4636-4648, 2015
A multi-material bioink method for 3D printing tunable, cell-compatible hydrogels
AL Rutz, KE Hyland, AE Jakus, WR Burghardt, RN Shah
Advanced materials (Deerfield Beach, Fla.) 27 (9), 1607, 2015
Hyperelastic “bone”: A highly versatile, growth factor–free, osteoregenerative, scalable, and surgically friendly biomaterial
AE Jakus, AL Rutz, SW Jordan, A Kannan, SM Mitchell, C Yun, KD Koube, ...
Science translational medicine 8 (358), 358ra127-358ra127, 2016
Metallic architectures from 3D‐printed powder‐based liquid inks
AE Jakus, SL Taylor, NR Geisendorfer, DC Dunand, RN Shah
Advanced Functional Materials 25 (45), 6985-6995, 2015
Advancing the field of 3D biomaterial printing
AE Jakus, AL Rutz, RN Shah
Biomedical Materials 11 (1), 014102, 2016
Initiation of puberty in mice following decellularized ovary transplant
MM Laronda, AE Jakus, KA Whelan, JA Wertheim, RN Shah, TK Woodruff
Biomaterials 50, 20-29, 2015
Multi and mixed 3 D‐printing of graphene‐hydroxyapatite hybrid materials for complex tissue engineering
AE Jakus, RN Shah
Journal of Biomedical Materials Research Part A 105 (1), 274-283, 2017
Three-dimensional printing of cytocompatible, thermally conductive hexagonal boron nitride nanocomposites
LM Guiney, ND Mansukhani, AE Jakus, SG Wallace, RN Shah, ...
Nano letters 18 (6), 3488-3493, 2018
“Tissue Papers” from organ‐specific decellularized extracellular matrices
AE Jakus, MM Laronda, AS Rashedi, CM Robinson, C Lee, SW Jordan, ...
Advanced functional materials 27 (34), 1700992, 2017
Iron and nickel cellular structures by sintering of 3D‐printed oxide or metallic particle inks
SL Taylor, AE Jakus, RN Shah, DC Dunand
Advanced Engineering Materials 19 (11), 1600365, 2017
Robust and elastic lunar and martian structures from 3D-printed regolith inks
AE Jakus, KD Koube, NR Geisendorfer, RN Shah
Scientific reports 7 (1), 44931, 2017
3D-printing porosity: a new approach to creating elevated porosity materials and structures
AE Jakus, NR Geisendorfer, PL Lewis, RN Shah
Acta biomaterialia 72, 94-109, 2018
Functional maturation of induced pluripotent stem cell hepatocytes in extracellular matrix—a comparative analysis of bioartificial liver microenvironments
B Wang, AE Jakus, PM Baptista, S Soker, A Soto-Gutierrez, ...
Stem cells translational medicine 5 (9), 1257-1267, 2016
Sintering of micro-trusses created by extrusion-3D-printing of lunar regolith inks
SL Taylor, AE Jakus, KD Koube, AJ Ibeh, NR Geisendorfer, RN Shah, ...
Acta Astronautica 143, 1-8, 2018
Methods for fabricating three-dimensional metallic objects via additive manufacturing using metal oxide pastes
RN Shah, AE Jakus, DC Dunand
US Patent 9,327,448, 2016
3D extruded composite thermoelectric threads for flexible energy harvesting
J Peng, I Witting, N Geisendorfer, M Wang, M Chang, A Jakus, C Kenel, ...
Nature communications 10 (1), 5590, 2019
Chapter 1: An Introduction to 3D Printing-Past, Present, and Future Promise
A Jakus
3D Printing In Orthopaedic Surgery, 1-15, 2018
Three-dimensionally printed hyperelastic bone scaffolds accelerate bone regeneration in critical-size calvarial bone defects
YH Huang, AE Jakus, SW Jordan, Z Dumanian, K Parker, L Zhao, ...
Plastic and reconstructive surgery 143 (5), 1397-1407, 2019
3D printed hyperelastic “bone” scaffolds and regional gene therapy: A novel approach to bone healing
R Alluri, A Jakus, S Bougioukli, W Pannell, O Sugiyama, A Tang, R Shah, ...
Journal of Biomedical Materials Research Part A 106 (4), 1104-1110, 2018
Microstructure and processing of 3D printed tungsten microlattices and infiltrated W–Cu composites
M Calvo, AE Jakus, RN Shah, R Spolenak, DC Dunand
Advanced Engineering Materials 20 (9), 1800354, 2018
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