Jaime Santillán
University of Puerto Rico
4 Papers
13 Citations
Jaime Santillán is an academic researcher from University of Puerto Rico. The author has contributed to research in topics: Surface modification & Bone tissue. The author has an hindex of 3, co-authored 4 publications. Previous affiliations of Jaime Santillán include University of Puerto Rico, Río Piedras.
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Papers
Aptamer-Based Impedimetric Assay of Arsenite in Water: Interfacial Properties and Performance.
Karlene Vega-Figueroa,Karlene Vega-Figueroa,Jaime Santillán,Jaime Santillán,Valerie Ortiz-Gómez,Valerie Ortiz-Gómez,Edwin O. Ortiz-Quiles,Edwin O. Ortiz-Quiles,Beatriz A. Quiñones-Colón,David A. Castilla-Casadiego,Jorge Almodovar,Marvin J Bayro,Marvin J Bayro,José A. Rodríguez-Martínez,José A. Rodríguez-Martínez,Eduardo Nicolau,Eduardo Nicolau +16 more
- 02 Feb 2018
TL;DR: The obtained results are aimed at proving the development of a simple and environmentally benign sensor for the detection of As(III) as well as in elucidating the possible interactions between the ArsSApt and arsenic molecules.
43
Assessing the Suitability of Cellulose-Nanodiamond Composite As a Multifunctional Biointerface Material for Bone Tissue Regeneration
Karlene Vega-Figueroa,Jaime Santillán,Carlos García,José A. González-Feliciano,Samir A. Bello,Yaiel G. Rodríguez,Edwin O. Ortiz-Quiles,Eduardo Nicolau +7 more
TL;DR: Results suggest that cellulose-nanodiamond composites, which the authors call oxidized biocompatible interfacial nanocomposites (oBINC), have the potential to serve as a biointerface material for cell adhesion, proliferation and differentiation because of their osteoconductive properties andBiocompatibility; furthermore, they show promising applications for bone tissue regeneration.
17
Fabrication and Evaluation of Polycaprolactone Beads-on-String Membranes for Applications in Bone Tissue Regeneration
Jaime Santillán,Jaime Santillán,Emmanuel A. Dwomoh,Yaiel G. Rodríguez-Avilés,Samir A. Bello,Eduardo Nicolau,Eduardo Nicolau +6 more
- 29 Jan 2019
TL;DR: This work shows a low-cost fabrication method to produce a biodegradable scaffold with micro/nanostructured characteristics that favor cell adhesion, proliferation, maturation, and subsequent differentiation of osteoblasts.
11
•Journal Article
Synthesis and Characterization of Reinforced Chitosan Hydrogels for Bone Tissue Regeneration
TL;DR: Preliminary results suggest the successful formation of an aerogel based on their physical appearance, and hypothesize that the mechanical properties of the hydrogel composites will be superior to the unaltered chitosan, while preserving the advantages of the material.