ARTICLE
|
doi:10.20944/preprints202308.0512.v1
Subject:
Chemistry And Materials Science,
Biomaterials
Keywords:
PLLA nanosheets; laser ablation in liquid; Fe-containing nanoparticles; metal-ion release; burn wound healing
Online: 7 August 2023 (10:49:10 CEST)
ARTICLE
|
doi:10.20944/preprints201812.0125.v1
Subject:
Chemistry And Materials Science,
Nanotechnology
Keywords:
pulsed laser ablation in water; pulsed laser ablation in air; ZnO nanoparticles; biomedical materials; PLLA-scaffold; antibacterial properties
Online: 11 December 2018 (10:32:20 CET)
ARTICLE
|
doi:10.20944/preprints202211.0119.v1
Subject:
Chemistry And Materials Science,
Surfaces, Coatings And Films
Keywords:
biodegradable polymer nanosheets; wound healing; laser ablation in liquid; nanoparticles; ZnO; ZnCl2
Online: 7 November 2022 (11:20:14 CET)
ARTICLE
|
doi:10.20944/preprints202212.0576.v1
Subject:
Medicine And Pharmacology,
Pediatrics, Perinatology And Child Health
Keywords:
TiNi; structure; martensitic transformations; strength; double-barreled enterostomy; compression anastomosis
Online: 30 December 2022 (08:53:45 CET)
ARTICLE
|
doi:10.20944/preprints202104.0141.v1
Subject:
Chemistry And Materials Science,
Surfaces, Coatings And Films
Keywords:
TiNi; high-current pulsed electron beam; porous coating; surface modification; EIS in saline; cell growth.
Online: 5 April 2021 (14:11:37 CEST)
ARTICLE
|
doi:10.20944/preprints201912.0022.v1
Subject:
Physical Sciences,
Optics And Photonics
Keywords:
direct laser processing; femtosecond laser pulses; superhydrophobic textures; analyte enrichment; plasmonic nanostructures; SERS; medical drugs
Online: 3 December 2019 (11:19:55 CET)
ARTICLE
|
doi:10.20944/preprints202401.0580.v1
Subject:
Chemistry And Materials Science,
Biomaterials
Keywords:
porous TiNi alloy; ophthalmic orbital implants; powder metallurgy; self-propagating high-temperature synthesis, surface modification; biocompatibility; biointegration
Online: 8 January 2024 (10:28:15 CET)
ARTICLE
|
doi:10.20944/preprints202312.1998.v1
Subject:
Chemistry And Materials Science,
Biomaterials
Keywords:
TiNi; ophthalmic orbital implants; porous material; powder metallurgy; self-propagating high-temperature synthesis, structure; surface modification; biocompatibility
Online: 26 December 2023 (14:11:51 CET)
ARTICLE
|
doi:10.20944/preprints202304.0830.v1
Subject:
Chemistry And Materials Science,
Metals, Alloys And Metallurgy
Keywords:
TiNi; rib endoprostheses; porous coating; powder metallurgy; high-current pulsed electron beam; structure; surface modification; electrochemical corrosion; biocompatibility
Online: 25 April 2023 (03:16:40 CEST)