Carlos Palo Nieto
Affiliated Researcher at Department of Surgical Sciences; Orthopaedics and Handsurgery
- Mobile phone:
- +46 76 580 64 53
- E-mail:
- carlos.nieto@uu.se
- Visiting address:
- Rudbeckslaboratoriet Hus 11 Bv
Dag Hammarskjölds v 20
SE-75185 Uppsala
Sweden - Postal address:
- Rudbeckslaboratoriet Hus 11 Bv
Dag Hammarskjölds v 20
SE-75185 Uppsala
Sweden
- CV:
- Download CV
- ORCID:
- 0000-0002-1591-3828
Publications
Recent publications
Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
Part of Biofabrication, 2026
- DOI for Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
- Download full text (pdf) of Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
Ionic silver coating of orthopedic implants may impair osteogenic differentiation and mineralization
Part of Experimental and Therapeutic Medicine, 2025
- DOI for Ionic silver coating of orthopedic implants may impair osteogenic differentiation and mineralization
- Download full text (pdf) of Ionic silver coating of orthopedic implants may impair osteogenic differentiation and mineralization
Part of ACS Applied Materials and Interfaces, p. 30385-30395, 2024
- DOI for A Simple and Cost-Effective FeCl3-Catalyzed Functionalization of Cellulose Nanofibrils: Toward Adhesive Nanocomposite Materials for Medical Implants
- Download full text (pdf) of A Simple and Cost-Effective FeCl3-Catalyzed Functionalization of Cellulose Nanofibrils: Toward Adhesive Nanocomposite Materials for Medical Implants
Part of ACS Applied Materials and Interfaces, p. 24186-24196, 2023
Chemical Modification of cellulose nanofibrils to develop novel ROS-sensitive biomaterials
2023
All publications
Articles in journal
Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
Part of Biofabrication, 2026
- DOI for Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
- Download full text (pdf) of Direct ink writing of osteoconductive scaffolds using a crosslinked collagen–hydroxyapatite ink
Ionic silver coating of orthopedic implants may impair osteogenic differentiation and mineralization
Part of Experimental and Therapeutic Medicine, 2025
- DOI for Ionic silver coating of orthopedic implants may impair osteogenic differentiation and mineralization
- Download full text (pdf) of Ionic silver coating of orthopedic implants may impair osteogenic differentiation and mineralization
Part of ACS Applied Materials and Interfaces, p. 30385-30395, 2024
- DOI for A Simple and Cost-Effective FeCl3-Catalyzed Functionalization of Cellulose Nanofibrils: Toward Adhesive Nanocomposite Materials for Medical Implants
- Download full text (pdf) of A Simple and Cost-Effective FeCl3-Catalyzed Functionalization of Cellulose Nanofibrils: Toward Adhesive Nanocomposite Materials for Medical Implants
Part of ACS Applied Materials and Interfaces, p. 24186-24196, 2023
Functionalization of cellulose nanofibrils to develop novel ROS-sensitive biomaterials
Part of Materials Advances, p. 1555-1565, 2023
- DOI for Functionalization of cellulose nanofibrils to develop novel ROS-sensitive biomaterials
- Download full text (pdf) of Functionalization of cellulose nanofibrils to develop novel ROS-sensitive biomaterials
In Vitro Anticancer Activity and Mechanism of Action of an Aziridinyl Galactopyranoside
Part of Biomedicines, 2022
- DOI for In Vitro Anticancer Activity and Mechanism of Action of an Aziridinyl Galactopyranoside
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Angiotensin II AT2 receptor ligands with phenylthiazole scaffolds
Part of Bioorganic & Medicinal Chemistry, 2022
- DOI for Angiotensin II AT2 receptor ligands with phenylthiazole scaffolds
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Diastereoselective Synthesis of N-Methylspiroindolines by Intramolecular Mizoroki–Heck Annulations
Part of ACS Omega, 2022
- DOI for Diastereoselective Synthesis of N-Methylspiroindolines by Intramolecular Mizoroki–Heck Annulations
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Part of Polymers, 2021
- DOI for In Vitro Investigation of Thiol-Functionalized Cellulose Nanofibrils as a Chronic Wound Environment Modulator
- Download full text (pdf) of In Vitro Investigation of Thiol-Functionalized Cellulose Nanofibrils as a Chronic Wound Environment Modulator
Part of Journal of Organic Chemistry, p. 2415-2424, 2019
- DOI for Substrate-Controlled Direct α-Stereoselective Synthesis of Deoxyglycosides from Glycals Using B(C6F5)3 as Catalyst
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Articles, review/survey
Conference papers
Chemical Modification of cellulose nanofibrils to develop novel ROS-sensitive biomaterials
2023
2022
Developing reactive oxygen species-sensitive cellulose nanofibers for chronic wound care
2022
2022
Cysteine functionalized cellulose nanofibrils for the treatment of chronic wounds
Part of The International Chemical Congress of Pacific Basin Societies, Pacifichem 2021, 16/12 2021., 2021
Bioactive nanofibrillated cellulose modulates the chronic wound environment in vitro
Part of 31st Conference of the European Society for Biomaterials, 2021