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Search for "stereolithography" in Full Text gives 7 result(s) in Beilstein Journal of Nanotechnology.

Industrial perspectives for personalized microneedles

  • Remmi Danae Baker-Sediako,
  • Benjamin Richter,
  • Matthias Blaicher,
  • Michael Thiel and
  • Martin Hermatschweiler

Beilstein J. Nanotechnol. 2023, 14, 857–864, doi:10.3762/bjnano.14.70

Graphical Abstract
  • that can overcome these challenges [27]. Specifically, light-based 3D printing techniques such as stereolithography (SLA), digital light processing (DLP), and two-photon polymerization (2PP) simplify the rapid prototyping workflow when compared to traditional micro- and nanofabrication methods [28][29
  • ”, “microneedle SLA”, and “microneedle Stereolithography”. Similarly, we used the following keywords for 2PP-fabricated microneedles: “microneedle 2-photon polymerization”, “microneedle 2-photon polymerisation”, “microneedle 2PP”, “microneedle TPP”, and “microneedle multiphoton lithography”. Conical microneedles
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Perspective
Published 15 Aug 2023

Silver-based SERS substrates fabricated using a 3D printed microfluidic device

  • Phommachith Sonexai,
  • Minh Van Nguyen,
  • Bui The Huy and
  • Yong-Ill Lee

Beilstein J. Nanotechnol. 2023, 14, 793–803, doi:10.3762/bjnano.14.65

Graphical Abstract
  • [30]; also, it does not require a clean room. The stereolithography (SLA) technique is an additive manufacturing technique in which a photopolymer resin is cured and converted from a liquid to a solid by an ultraviolet laser. The resolution of SLA printers is determined by the radial beam scattering
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Full Research Paper
Published 21 Jul 2023

Fabrication and testing of polymer microneedles for transdermal drug delivery

  • Vahid Ebrahiminejad,
  • Zahra Faraji Rad,
  • Philip D. Prewett and
  • Graham J. Davies

Beilstein J. Nanotechnol. 2022, 13, 629–640, doi:10.3762/bjnano.13.55

Graphical Abstract
  • , 500 µm interspacing, and 75 µm base fillet were initially designed in SolidWorks (Dassault Systems SolidWorks Corporation, Concord, NH, USA), then exported to stereolithography (STL) code. The generated STL code is then imported into the DeScribe (Nanoscribe GmbH, Karlsruhe, Germany) software to
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Published 08 Jul 2022

An overview of microneedle applications, materials, and fabrication methods

  • Zahra Faraji Rad,
  • Philip D. Prewett and
  • Graham J. Davies

Beilstein J. Nanotechnol. 2021, 12, 1034–1046, doi:10.3762/bjnano.12.77

Graphical Abstract
  • procedure for producing γ-PGA microneedles, (b) microneedles fabricated via the procedure represented in (a) as used to penetrate pig and mouse cadaver skin [72]. (c) Stereolithography (STL) used to manufacture microneedle arrays followed by coatings of insulin and sugar solution using an inkjet printer [83
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Review
Published 13 Sep 2021

Surface functionalization of 3D-printed plastics via initiated chemical vapor deposition

  • Christine Cheng and
  • Malancha Gupta

Beilstein J. Nanotechnol. 2017, 8, 1629–1636, doi:10.3762/bjnano.8.162

Graphical Abstract
  • flow regulated by a piezoelectric actuator [10][11]. Selective laser sintering uses a laser beam to heat a layer of powder above its melting point, fusing it to the previous layers, and then new powder is subsequently rolled over the printed object [12][13]. In stereolithography (SLA), a laser or UV
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Published 08 Aug 2017

Nano- and microstructured materials for in vitro studies of the physiology of vascular cells

  • Alexandra M. Greiner,
  • Adria Sales,
  • Hao Chen,
  • Sarah A. Biela,
  • Dieter Kaufmann and
  • Ralf Kemkemer

Beilstein J. Nanotechnol. 2016, 7, 1620–1641, doi:10.3762/bjnano.7.155

Graphical Abstract
  • beam lithography, stereolithography, direct laser writing, and block co-polymer micellar nanolithography are applied. Based on the fabrication approach, fabrication techniques can be divided whether they follow a top-down approach or a bottom-up approach. In the first approach, an already existing bulk
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Review
Published 08 Nov 2016

Fabrication of hybrid nanocomposite scaffolds by incorporating ligand-free hydroxyapatite nanoparticles into biodegradable polymer scaffolds and release studies

  • Balazs Farkas,
  • Marina Rodio,
  • Ilaria Romano,
  • Alberto Diaspro,
  • Romuald Intartaglia and
  • Szabolcs Beke

Beilstein J. Nanotechnol. 2015, 6, 2217–2223, doi:10.3762/bjnano.6.227

Graphical Abstract
  • composite thin films of hydroxyapatite (HA) and biodegradable polymers by combining pulsed laser ablation in liquid and mask-projection excimer laser stereolithography (MPExSL). Ligand-free HA nanoparticles were prepared by ultrafast laser ablation of a HA target in a solvent, and then the nanoparticles
  • gradual release of the hydroxyapatite nanoparticles over thin film biodegradation is reported. Keywords: biodegradable scaffolds; biodegradation; hydroxyapatite; laser ablation in liquid; stereolithography; Introduction Interfaces between osteochondral prosthetics and the surrounding bone tissue are of
  • dissolved in purified PPF and in the PPF:DEF (7:3 w/w) blend. Diethyl fumarate (DEF) is applied as diluent to reduce the resin viscosity as needed for the proper resin recast for MPExSL. MPExSL Mask-projected excimer laser stereolithography (MPExSL) is a rapid prototyping stereolithography method, relying
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Published 25 Nov 2015
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