Personal information

biofabrication, physics, 3D printing, rheology, 3D bioprinting
Australia, United States

Activities

Employment (2)

Queensland University of Technology: Brisbane, Queensland, AU

Employment
Source: check_circle
Queensland University of Technology PURE

University of Oregon: Eugene, Oregon, US

2022-04 to 2023-05 | Postdoctoral Scholar (Phil and Penny Knight Campus for Accelerating Scientific Impact )
Employment
Source: Self-asserted source
Naomi Paxton

Education and qualifications (5)

Queensland University of Technology: Brisbane, Queensland, AU

Education
Source: check_circle
Queensland University of Technology PURE

Queensland University of Technology: Brisbane, QLD, AU

2017-05-01 to 2020-10-21 | PhD (Science and Engineering Faculty)
Education
Source: Self-asserted source
Naomi Paxton

University of Würzburg: Wurzburg, Bayern, DE

2017-04 to 2017-12 | Master of Science (Biofabrication) (Department for Functional Materials in Medicine and Dentistry)
Education
Source: Self-asserted source
Naomi Paxton

Queensland University of Technology: Brisbane, QLD, AU

2015-02 to 2016-02 | Master of Applied Science (Research) - Biofabrication (Science and Engineering Faculty)
Education
Source: Self-asserted source
Naomi Paxton

Queensland University of Technology: Brisbane, QLD, AU

2012-01 to 2014-07 | Bachelor of Science (Physics) (Science and Engineering Faculty)
Education
Source: Self-asserted source
Naomi Paxton

Works (32)

A Melt Electrowriting Toolbox for Automated G-Code Generation and Toolpath Correction of Flat and Tubular Constructs

Advanced Materials Technologies
2024-11-19 | Journal article | Author
SOURCE-WORK-ID:

c71ec0da-2f53-446e-a3e6-d8b1c26f39eb

EID:

2-s2.0-85198834847

Contributors: Brenna L. Devlin; Shahak Kuba; Patrick C. Hall; Audrey B. McCosker; Edmund Pickering; Paul D. Dalton; Travis Klein; Maria Woodruff; Naomi Paxton
Source: check_circle
Queensland University of Technology PURE

Tailoring Cell Attachment onto Melt Electrowritten Scaffolds via a Phase Separated Hydrogel Coating with Peptide Functionalization

Advanced Materials Interfaces
2024-11-11 | Journal article | Author
SOURCE-WORK-ID:

f7293d78-0e7c-4954-a4ad-1f9bf0398339

EID:

2-s2.0-85208556177

Contributors: Kelly L. O'Neill; Amanda Kurtz; Ievgenii Liashenko; Guilherme Rocha; Naomi Paxton; Paul D. Dalton
Source: check_circle
Queensland University of Technology PURE

[n]Cycloparaphenylenes as Compatible Fluorophores for Melt Electrowriting

Small
2024-10-03 | Journal article | Author
SOURCE-WORK-ID:

1c8274bc-eec7-4c5d-861a-68c1f9041042

EID:

2-s2.0-85195272986

Contributors: Patrick C. Hall; Harrison W. Reid; Ievgenii Liashenko; Biranche Tandon; Kelly L. O'Neill; Naomi Paxton; Gabriella C.J. Lindberg; Ramesh Jasti; Paul D. Dalton
Source: check_circle
Queensland University of Technology PURE

Polymer 3D printing in perspective

International Journal of Advanced Manufacturing Technology
2024-05-22 | Journal article | Author
SOURCE-WORK-ID:

8e9117d4-1c47-4657-97dc-83680cb86a6a

EID:

2-s2.0-85193956886

Contributors: Naomi Paxton; Jiachen Zhao; Emilie Sauret
Source: check_circle
Queensland University of Technology PURE

Materials Design Innovations in Optimizing Cellular Behavior on Melt Electrowritten (MEW) Scaffolds

Advanced Functional Materials
2024-05-02 | Journal article | Author
SOURCE-WORK-ID:

c6f6cbae-5ef4-4c7d-816d-6dda3b4dac25

EID:

2-s2.0-85182627665

Contributors: Brenna L. Devlin; Mark Allenby; Jiongyu Ren; Edmund Pickering; Travis Klein; Naomi Paxton; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Manufacture of Biomimetic Auricular Surgical Implants Using 3D Printed High Density Polyethylene Microfibers

Advanced Materials Technologies
2024-02-05 | Journal article | Author
SOURCE-WORK-ID:

9045b74e-ff6a-4b5d-a6f5-b01236e846a4

EID:

2-s2.0-85180459840

Contributors: Naomi Paxton; Simon Luposchainsky; Ander Reizabal; Paula G. Saiz; Stuart Bade; Maria Woodruff; Paul D. Dalton
Source: check_circle
Queensland University of Technology PURE

Personalization for surgical implants

Digital Human Modeling and Medicine
2023 | Book chapter | Author
SOURCE-WORK-ID:

22853cca-63fe-4235-9130-795ac50a80fb

EID:

2-s2.0-85150125281

Part of ISBN: 9780128242186
Part of ISBN: 9780128239131
Contributors: Naomi Paxton; Kevin Tetsworth; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Improving Infection Resistance in Tissue Engineered Scaffolds for Tensile Applications Using Vancomycin-Embedded Melt Electrowritten Scaffolds

Macromolecular Materials and Engineering
2023-10 | Journal article | Author
SOURCE-WORK-ID:

6d25ecdf-9bf4-4769-aecb-4820548eed63

EID:

2-s2.0-85164831273

Contributors: Asha Mathew; Brenna L. Devlin; Dilpreet Singh; Naomi Paxton; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Melt Electrowriting of Nylon‐12 Microfibers with an Open‐Source 3D Printer

Macromolecular Rapid Communications
2023-10-24 | Journal article
Part of ISSN: 1022-1336
Part of ISSN: 1521-3927
Contributors: Ander Reizabal; Brenna L. Devlin; Naomi C. Paxton; Paula G. Saiz; Ievgenii Liashenko; Simon Luposchainsky; Maria A. Woodruff; Senentxu Lanceros‐ Mendez; Paul Dalton
Source: Self-asserted source
Naomi Paxton
grade
Preferred source (of 2)‎

Technical improvements in preparing 3D printed anatomical models for comminuted fracture preoperative planning

3D Printing in Medicine
2023-09-11 | Journal article
Part of ISSN: 2365-6271
Contributors: Naomi C. Paxton; Brandon G. Wilkinson; Daniel Fitzpatrick; Erin C. Owen; Simon Luposchainsky; Paul D. Dalton
Source: Self-asserted source
Naomi Paxton

Navigating the intersection of 3D printing, software regulation and quality control for point-of-care manufacturing of personalized anatomical models

3D Printing in Medicine
2023-04-07 | Journal article
Part of ISSN: 2365-6271
Contributors: Naomi C. Paxton
Source: Self-asserted source
Naomi Paxton

Capturing patient anatomy for designing and manufacturing personalized prostheses

Current Opinion in Biotechnology
2022 | Journal article | Author
SOURCE-WORK-ID:

c55429b7-9fd3-4ccb-9f06-65acf174dbcb

EID:

2-s2.0-85116209922

Contributors: Naomi Paxton; Renee C. Nightingale; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Mechanical behaviour of flexible 3D printed gyroid structures as a tuneable replacement for soft padding foam

Additive Manufacturing
2022 | Journal article | Author
SOURCE-WORK-ID:

66e12e52-620f-452d-9b3c-e7751a0d234b

EID:

2-s2.0-85121098404

Contributors: David Holmes; Dilpreet Singh; Riki Lamont; Ryan Daley; David Forrestal; Peter Slattery; Edmund Pickering; Naomi Paxton; Sean Powell; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

3D Printed Tubular Scaffolds with Massively Tailorable Mechanical Behavior

Advanced Engineering Materials
2022-11 | Journal article | Author
SOURCE-WORK-ID:

c504691b-f912-4528-8383-808e5d6d4747

EID:

2-s2.0-85141652869

Contributors: Edmund Pickering; Naomi Paxton; Arixin Bo; Bridget O'Connell; Mitchell King; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Exploiting Nonlinear Fiber Patterning to Control Tubular Scaffold Mechanical Behavior

Advanced Materials Technologies
2022-11 | Journal article | Author
SOURCE-WORK-ID:

87dc67f7-f948-4398-b27a-87bd238ae060

EID:

2-s2.0-85133976017

Contributors: Audrey B. McCosker; Mikayla E. Snowdon; Riki Lamont; Maria Woodruff; Naomi Paxton
Source: check_circle
Queensland University of Technology PURE

Measuring contact angles on hydrophilic porous scaffolds by implementing a novel raised platform approach

Polymers for Advanced Technologies
2022-07-19 | Journal article | Author
SOURCE-WORK-ID:

3ebfbd55-8393-4f28-ba11-9a69508c4757

EID:

2-s2.0-85134220069

Contributors: Naomi Paxton; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Laser Sintering Approaches for Bone Tissue Engineering

Polymers
2022-06-01 | Journal article | Author
SOURCE-WORK-ID:

715d0e91-fd5a-4eb9-b756-78414434378a

EID:

2-s2.0-85132732515

Contributors: Jeremy N. Dinoro; Naomi Paxton; Jacob Skewes; Zhilian Yue; Philip M. Lewis; Robert G. Thompson; Stephen Beirne; Maria Woodruff; Gordon G. Wallace
Source: check_circle
Queensland University of Technology PURE

Dissolvable 3D printed PVA moulds for melt electrowriting tubular scaffolds with patient-specific geometry

Materials and Design
2022-03 | Journal article | Author
SOURCE-WORK-ID:

5cb26345-5597-49a8-8ca9-da567a15bca9

EID:

2-s2.0-85124897373

Contributors: Trent L. Brooks-Richards; Naomi Paxton; Mark Allenby; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Additive manufacturing enables personalised porous high-density polyethylene surgical implant manufacturing with improved tissue and vascular ingrowth

Applied Materials Today
2021 | Journal article
EID:

2-s2.0-85100626214

Part of ISSN: 23529407
Contributors: Paxton, N.C.; Dinoro, J.; Ren, J.; Ross, M.T.; Daley, R.; Zhou, R.; Bazaka, K.; Thompson, R.G.; Yue, Z.; Beirne, S. et al.
Source: Self-asserted source
Naomi Paxton via Scopus - Elsevier
grade
Preferred source (of 2)‎

MEW cylindrical scaffolds with massively tailorable mechanical behaviour

Centre for Biomedical Technologies Inaugural Conference, Brisbane, Australia, 11/11/21
2021 | Conference abstract | Author
SOURCE-WORK-ID:

6315bcf6-ade3-4459-8c80-2a16234d9c58

Contributors: Edmund Pickering; Naomi Paxton; Arixin Bo; Bridget O'Connell; Mitchell King; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Degradation of melt electrowritten PCL scaffolds following melt processing and plasma surface treatment

Macromolecular Rapid Communications
2021-12 | Journal article | Author
SOURCE-WORK-ID:

32e6dcb9-5c05-464a-ac11-84215de30385

EID:

2-s2.0-85118222514

Contributors: Naomi Paxton; Selina Ho; Bryan Tuten; Josh Lipton-Duffin; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Novel resin tissue array system reduces sample preparation time, labour and reagent costs in bone tissue histology

Bone
2021-12 | Journal article | Author
SOURCE-WORK-ID:

8f0d8649-379d-4445-8475-fbf368254ba2

EID:

2-s2.0-85113749321

Contributors: Jiongyu Ren; Naomi Paxton; Joshua Hammond; Siamak Saifzadeh; Roland Steck; Felicity Lawrence; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Expanding material printability for electrowriting

Journal of 3D Printing in Medicine
2021-06 | Journal article | Author
SOURCE-WORK-ID:

0adeca1c-912b-45ff-86e2-ac784978b586

EID:

2-s2.0-85167372527

Contributors: Naomi Paxton; Riki Lamont; Trent L. Brooks-Richards; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Development of mechanically enhanced polycaprolactone composites by a functionalized titanate nanofiller for melt electrowriting in 3D printing

ACS Applied Materials and Interfaces
2020-10-21 | Journal article | Author
SOURCE-WORK-ID:

9841cfce-a367-40e1-9906-ba95819495f4

EID:

2-s2.0-85094220259

Contributors: Le Pang; Naomi Paxton; Jiongyu Ren; Fan Liu; HF Zhan; Maria Woodruff; Arixin Bo; Yuantong Gu
Source: check_circle
Queensland University of Technology PURE
grade
Preferred source (of 2)‎

Auxetic tubular scaffolds via melt electrowriting

Materials and Design
2020-08-01 | Journal article | Author
SOURCE-WORK-ID:

e0714bc2-2086-40b1-a7f4-c1691590c8a7

EID:

2-s2.0-85084834718

Contributors: Naomi Paxton; Ryan Daley; David Forrestal; Mark Allenby; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE
grade
Preferred source (of 2)‎

Design tools for patient specific and highly controlled melt electrowritten scaffolds

Journal of the Mechanical Behavior of Biomedical Materials
2020-05 | Journal article | Author
SOURCE-WORK-ID:

71600d59-0d60-4f5f-a642-9361d23c7cf3

EID:

2-s2.0-85079695020

Contributors: Naomi Paxton; Matthew Lanaro; Arixin Bo; Nathan Crooks; Maureen T. Ross; Nicholas Green; Kevin Tetsworth; Mark Allenby; Yuantong Gu; Cynthia S. Wong et al.
Source: check_circle
Queensland University of Technology PURE
grade
Preferred source (of 2)‎

Bone morphogenetic protein-assisted bone regeneration and applications in biofabrication

Biomaterials for Organ and Tissue Regeneration
2020-01-01 | Book chapter | Author
SOURCE-WORK-ID:

135b68ed-02dc-4fa7-9eee-2cc6a9d6ba21

EID:

2-s2.0-85118489487

Part of ISBN: 9780081029077
Part of ISBN: 9780081029060
Contributors: Naomi Paxton; Cynthia Wong; Mathilde Desselle; Mark Allenby; Maria Woodruff
Source: check_circle
Queensland University of Technology PURE

Rheological Characterization of Biomaterials Directs Additive Manufacturing of Strontium‐Substituted Bioactive Glass/Polycaprolactone Microfibers

Macromolecular Rapid Communications
2019-06 | Journal article
Part of ISSN: 1022-1336
Part of ISSN: 1521-3927
Source: Self-asserted source
Naomi Paxton
grade
Preferred source (of 3)‎

Biomedical applications of polyethylene

European Polymer Journal
2019-05 | Journal article
Part of ISSN: 0014-3057
Source: Self-asserted source
Naomi Paxton
grade
Preferred source (of 3)‎

Double printing of hyaluronic acid/poly(glycidol) hybrid hydrogels with poly(ϵ-caprolactone) for MSC chondrogenesis

Biofabrication
2017 | Journal article
EID:

2-s2.0-85036450746

Contributors: Stichler, S.; Böck, T.; Paxton, N.; Bertlein, S.; Levato, R.; Schill, V.; Smolan, W.; Malda, J.; Teßmar, J.; Blunk, T. et al.
Source: Self-asserted source
Naomi Paxton via Scopus - Elsevier
grade
Preferred source (of 2)‎

Proposal to assess printability of bioinks for extrusion-based bioprinting and evaluation of rheological properties governing bioprintability

Biofabrication
2017 | Journal article
EID:

2-s2.0-85036462296

Contributors: Paxton, N.; Smolan, W.; Böck, T.; Melchels, F.; Groll, J.; Jungst, T.
Source: Self-asserted source
Naomi Paxton via Scopus - Elsevier
grade
Preferred source (of 2)‎

Biofabrication: The future of regenerative medicine

Techniques in Orthopaedics
2016 | Journal article
EID:

2-s2.0-84984655391

Contributors: Paxton, N.C.; Powell, S.K.; Woodruff, M.A.
Source: Self-asserted source
Naomi Paxton via Scopus - Elsevier
grade
Preferred source (of 2)‎

Peer review (5 reviews for 3 publications/grants)

Review activity for ACS applied polymer materials. (1)
Review activity for Advanced functional materials. (2)
Review activity for Advanced healthcare materials (2)