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プロフィール詳細
Jack M.に依頼
Ireland
Bionanoscientist - Expert in Biomedical Nanomaterials & Neural Interfacing
プロフィール概要
専門分野
サービス
Writing
Technical Writing,
General Proofreading & Editing,
Translation
Research
Scientific and Technical Research,
Systematic Literature Review
Consulting
Scientific and Technical Consulting
Product Development
Device Fabrication
職務経験
Postdoctoral Researcher - Wound Healing & Neural Interfacing
Royal College of Surgeons in Ireland
4月 2024 - 現在 ![]()
PhD Researcher
Royal College of Surgeons in Ireland
9月 2020 - 1月 2025 ![]()
PhD Researcher
Trinity College Dublin
9月 2020 - 1月 2025 ![]()
Materials Scientist
Innovega Inc
6月 2020 - 9月 2020 ![]()
Undergraduate Research Intern
Max Planck Institute for Solid State Research
9月 2019 - 11月 2019 ![]()
Undergraduate Research Intern
Stanford University
5月 2019 - 7月 2019 ![]()
Undergraduate Research Intern
Trinity College Dublin
6月 2018 - 8月 2018 ![]()
学歴
PhD in Physics - Two-Dimensional Materials for Tissue Engineering and Neural Interfacing Applications (School of Physics (TCD) and Tissue Engineering Research Group (RCSI))
Trinity College Dublin and the Royal College of Surgeons in Ireland
9月 2020 - 1月 2025 ![]()
Nanoscience, Physics and Chemistry of Advanced Materials (School of Physics/School of Chemistry)
Trinity College Dublin
9月 2016 - 5月 2020 ![]()
認定資格
- 認定資格の詳細は未入力です。
出版物
JOURNAL ARTICLE
Jack Maughan, Juan Carlos Palomeque Chávez, Marko Dobricic, Matthew McGrath, Cian O'Connor, Tara McGuire, Adrian Dervan, James E. Dixon, Cathal J. Kearney, Shane Browne, et al. (2026). Scaffold-mediated miRNA-155 inhibition promotes regenerative macrophage polarisation leading to anti-inflammatory, angiogenic and neurogenic responses for wound healing . Bioactive Materials.
Jack Maughan, Tara K. McGuire, Martyna Stasiewicz, Cian O'Connor, Ian Woods, Marko Dobricic, Giulio Brunetti, James E. Dixon, Adrian G. Dervan, Fergal J. O'Brien (2026). Development of a PTEN-siRNA activated scaffold to promote axonal regrowth following spinal cord injury . Bioactive Materials.
(2026). Development of a<i> PTEN</i>-siRNA activated scaffold to promote axonal regrowth following spinal cord injury . BIOACTIVE MATERIALS.
(2026). Scaffold-mediated miRNA-155 inhibition promotes regenerative macrophage polarisation leading to anti-inflammatory, angiogenic and neurogenic responses for wound healing . BIOACTIVE MATERIALS.
Jack Maughan, Harneet Kaur, Lucy Prendeville, Tian Carey, Cian O’Connor, Kevin Synnatschke, Juan Carlos Palomeque, Ian Woods, Fergal J. O’Brien, Jonathan N. Coleman (2025). 2D Boron Nanoplatelets as a Multifunctional Additive for Osteogenic, Gram‐Negative Antimicrobial and Mechanically Reinforcing Bone Repair Scaffolds . Small Science.
Jack Maughan, Ian Woods, Dahnan Spurling, Sandra Sunil, Anne Marie O'Callaghan, Javier Gutierrez‐Gonzalez, Tara K. McGuire, Liam Leahy, Adrian Dervan, Valeria Nicolosi, et al. (2025). 3D‐Printing of Electroconductive MXene‐Based Micro‐Meshes in a Biomimetic Hyaluronic Acid‐Based Scaffold Directs and Enhances Electrical Stimulation for Neural Repair Applications . Advanced Science.
(2025). 3D-Printing of Electroconductive MXene-Based Micro-Meshes in a Biomimetic Hyaluronic Acid-Based Scaffold Directs and Enhances Electrical Stimulation for Neural Repair Applications . ADVANCED SCIENCE.
(2025). 2D Boron Nanoplatelets as a Multifunctional Additive for Osteogenic, Gram-Negative Anti-Microbial and Mechanically Reinforcing Bone Repair Scaffolds . bioRxiv.
(2025). Scaffold-mediated miRNA-155 inhibition promotes regenerative macrophage polarisation leading to anti-inflammatory, angiogenic, and neurogenic responses for wound healing . bioRxiv.
(2025). 2D Boron Nanoplatelets as a Multifunctional Additive for Osteogenic, Gram-Negative Antimicrobial and Mechanically Reinforcing Bone Repair Scaffolds . SMALL SCIENCE.
(2025). Biomimetic Scaffolds Enhance iPSC Astrocyte Progenitor Angiogenic, Immunomodulatory, and Neurotrophic Capacity in a Stiffness and Matrix-Dependent Manner for Spinal Cord Repair Applications . ADVANCED HEALTHCARE MATERIALS.
(2025). Potassium-Ion Battery Electrodes from Potassium Ferricyanide Nanoplatelets: Thin Platelets and Thick Electrodes Unlock High Areal Capacity and Excellent Rate Performance . ADVANCED ENERGY MATERIALS.
(2024). Cold sprayed Ta-Ag composites: Mechanistic insight into enhanced corrosion resistance and antibacterial ability . CORROSION SCIENCE.
(2024). Electrostimulation via a 3D-printed, biomimetic, neurotrophic, electroconductive scaffold for the promotion of axonal regrowth after spinal cord injury . MATERIALS TODAY.
(2024). Knot Architecture for Biocompatible and Semiconducting 2D Electronic Fiber Transistors . SMALL METHODS.
(2024). The role of Patient and public involvement (PPI) in pre-clinical spinal cord research: An interview study . PLOS ONE.
(2023). A Biomimetic, Bilayered Antimicrobial Collagen-Based Scaffold for Enhanced Healing of Complex Wound Conditions . ACS APPLIED MATERIALS & INTERFACES.
(2023). COLLAGEN/PRISTINE GRAPHENE AS AN ELECTROCONDUCTIVE INTERFACE MATERIAL FOR NEURONAL MEDICAL DEVICE APPLICATIONS. TISSUE ENGINEERING PART A.
(2023). Knot Architecture for Biocompatible and Semiconducting Two-Dimensional Electronic Fibre Transistors. Arxiv.
(2023). The role of Patient and Public Involvement (PPI) in pre-clinical spinal cord research: an interview study . medRxiv.
Cyclic production of biocompatible few-layer graphene ink with in-line shear-mixing for inkjet-printed electrodes and Li-ion energy storage <head>
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</head> . npj 2D Materials and Applications.
(2022). Applying Patient and Public Involvement in preclinical research: A co-created scoping review . HEALTH EXPECTATIONS.
(2022). Collagen/pristine graphene as an electroconductive interface material for neuronal medical device applications . APPLIED MATERIALS TODAY.
(2022). Cyclic production of biocompatible few-layer graphene ink with in-line shear-mixing for inkjet-printed electrodes and Li-ion energy storage . NPJ 2D MATERIALS AND APPLICATIONS.
(2022). Highly Conductive Networks of Silver Nanosheets . SMALL.
PREPRINT
Jack Maughan, Cian O’Connor, Rena Mullally, Juan Carlos Palomeque-Chávez, Marko Dobricic, Eoin McCoy, Rachel Stewart, Chayanika Saha, Julia O’Sullivan, Helen O. McCarthy, et al. (2026). Biomimetic miR-133a inhibitor activated scaffolds optimised for spinal cord repair promote neurite outgrowth and angiogenesis via neuronal cytoskeletal remodelling .
Jack Maughan, Juan Carlos Palomeque Chávez, Marko Dobricic, Matthew McGrath, Cian O’Connor, Tara K. McGuire, Adrian Dervan, James E. Dixon, Cathal J. Kearney, Shane Browne, et al. (2025). Scaffold-mediated miRNA-155 inhibition promotes regenerative macrophage polarisation leading to anti-inflammatory, angiogenic and neurogenic responses for wound healing .
Jack Maughan, Harneet Kaur, Lucy Prendeville, Tian Carey, Cian O'Connor, Kevin Synnatschke, Juan Carlos Palomeque, Ian Woods, Fergal J. O'Brien, Jonathan N. Coleman (2025). 2D Boron Nanoplatelets as a Multifunctional Additive for Osteogenic, Gram-Negative Anti-Microbial and Mechanically Reinforcing Bone Repair Scaffolds .
Jack Maughan, Ian Woods, Cian O’Connor, Pablo Quintana-Sarti, Eoin Caffrey, Jose M. Munuera, Adrian Dervan, Alejandro López Valdés, Omar Mamad, Maeve A. Caldwell, et al. (2025). PolyGraph – Flexible, Biocompatible & Electrically Optimised Graphene-Polymer Composites for Next-Generation Neural Interfaces .
Jack Maughan, Ian Woods, Dahnan Spurling, Sandra Sunil, Javier Gutierrez-Gonzalez, Tara K. McGuire, Liam Leahy, Adrian Dervan, Valeria Nicolosi, Fergal J O’Brien (2024). 3D-Printing of Electroconductive MXene-based Micro-meshes in a Biomimetic Hyaluronic Acid-based Scaffold Directs and Enhances Electrical Stimulation for Neural Repair Applications .