U16. Surface Characterization and Calorimetry Unit
- Scientific Director: Prof. M Luisa González Martín email@example.com
- Scientific Coordinator: Prof. M Luisa González Martín firstname.lastname@example.org
- Entities: Universidad de Extremadura
- Address: Avda Elvas, S/N, 06006, Badajoz, Spain
- Phone: +34 924 289 532
- Web: WEB
The purpose of this Unit is to give support for the analysis of surface composition to researchers. This facility allows a broad knowledge about the chemistry of surfaces by the combination of the information of elements presents and their coordination state, given by the XPS technique, and the molecular structure of surface provided by the ToF-SIMs equipment. Its capabilities permit to work with extended and powdered solids, including those from biological origin as cells and bacteria. The characteristics of thin films on surfaces, as thickness, composition or electrical conductivity, can be also analyzed in this unit by spectroscopic ellipsometry. In addition, calorimetric analysis can be performed to test surface reactivity on powdered solids. ITC calorimetry facility is also under the Unit scheme.
Surface analysis laboratory fulfils the ISO9001:2008 (ES050823-1).
- FOR THOSE SERVICES IDENTIFIED AS OUTSTANDING, AT LEAST 20% OF THEIR CAPACITY IS OPEN UNDER COMPETITIVE ACCESS. SEE ANNEX 1 OF ACCESS PROTOCOL FOR DETAILS ON % OF OPENNESS FOR EACH SERVICE
- U16-E01. TAM III isothermal nanocalorimeter system. (TA Instruments) – Temporarily OUT OF ORDER
- U16-E02. UVISEL ellipsometer (Horiba JovinYvon)
- U16-E03. K-Alpha X-ray photoelectron spectroscopy (XPS) system (Thermo)
- U16-E04. ToF-SIMS 5 Time-of-flight secondary-ion mass spectrometry system (ION TOF )
- U16-E05. DROP SHAPE ANALYZER – DSA100E – Goniomete- (Remote) OUTSTANDING
- U16-E06. 3D Optical Surface Metrology System Leica DCM8 – Optical profilometer- (Remote) OUTSTANDING
- U16-E07. Equipment for microbiology tests on materials. OUTSTANDING
|Ref||Title||Funding Organism||Unit Role|
|MAT2015-63974-C4-3-R||SUPERFICIAL CHARACTERIZATION AND MICROBIAL ADHESION OF BIODEGRADABLE AND BIOREABSORBIBLE MATERIALS MAGNESIUM BASE FOR BONE REPAIR||MINISTERIO DE ECONOMÍA Y COMPETITIVIDAD||Working package|
|MAT2015-63974-C4-4-R||FORMATION OF MICROBIAL BIOFILMS ON BIODEGRADABLE AND BIOREABSORBABLE MG MATERIALS FOR BONE REPAIR AND BIOCOMPATIBILITY OF THESE IN EXPERIMENTATION ANIMALS||MINISTERIO DE ECONOMÍA Y COMPETITIVIDAD||Participant|
|MAT2014-52905-REDT||RESEARCH NETWORK FOR THE DEVELOPMENT OF FUNCTIONALIZED TITANIUM IMPLANTS||MINISTERIO DE ECONOMÍA Y COMPETITIVIDAD||Oberver|
|PCIN-2016-146||SIGNAL IMPLANT FOR ACCESSION AND BONE GROWTH||MINISTERIO DE ECONOMÍA Y COMPETITIVIDAD||Oberver|
- Monje A., Gonzalez-Garcia R., Fernandez-Calderon M.C., Hierro-Oliva M., Gonzalez-Martin M.L., Del Amo F.S.-L. et al. Surface topographical changes of a failing acid-etched long-term in function retrieved dental implant. Journal of Oral Implantology. 2016;42(1):12-16.
- Constantino J.A., Delgado-Rastrollo M., Pacha-Olivenza M.A., Gonzalez-Martin M.L., Quiles M., Perez-Giraldo C. et al. In vivo bactericidal efficacy of the Ti6Al4V surface after ultraviolet C treatment. Journal of Orthopaedics and Traumatology. 2016;:1-9.
- Rodriguez-Sanchez J., Gallardo-Moreno A.M., Bruque J.M., Gonzalez-Martin M.L.. Adsorption of human fibrinogen and albumin onto hydrophobic and hydrophilic Ti6Al4V powder. Applied Surface Science. 2016;376:269-275.
- Constantino J.A., Delgado-Rastrollo M., Pacha-Olivenza M.A., Perez-Giraldo C., Quiles M., Gonzalez-Martin M.L. et al. In vivo bactericidal efficacy of farnesol on Ti6Al4V implants. Revista Espanola de Cirugia Ortopedica y Traumatologia. 2016;:-.
- Crespo L., Hierro-Oliva M., Barriuso S., Vadillo-Rodriguez V., Montealegre M.A., Saldana L. et al. On the interactions of human bone cells with Ti6Al4V thermally oxidized by means of laser shock processing. Biomedical Materials (Bristol). 2016;11(1):-.
- Pena-Gonzalez C.E., Garcia-Broncano P., Ottaviani M.F., Cangiotti M., Fattori A., Hierro-Oliva M. et al. Dendronized Anionic Gold Nanoparticles: Synthesis, Characterization, and Antiviral Activity. Chemistry – A European Journal. 2016;22(9):2987-2999.
- Cordoba A., Hierro-Oliva M., Pacha-Olivenza M.A., Fernandez-Calderon M.C., Perello J., Isern B. et al. Direct Covalent Grafting of Phytate to Titanium Surfaces through Ti-O-P Bonding Shows Bone Stimulating Surface Properties and Decreased Bacterial Adhesion. ACS Applied Materials and Interfaces. 2016;8(18):11326-11335.
On May 16 representatives of the General Subdirectorate of Large Scientific-Technical Facilities of the Ministry of Science and Innovation visited unit 16 of NANBIOSIS (created by Centro de Investigación Biomédica en Red -CIBER-, and the University of Extermadura). Mrs. Beatriz Albella Rodríguez and Mrs. María Jesús Marcos Crespo, got to know first-hand the facilities of unit 16 of the CTS NANBIOSIS of “Surface Characterization and Calorimetry“ . The visit was guided by the Scientific Director of Unit 16 of NANBIOSIS, Maria Luisa González Martín, and by Mr. Javier de Francisco Morcillo, Director of the Secretariat for Scientific Infrastructure and Technologica[...]
The website for NABIHEAL, an EU-funded Horizon Europe project developing biomaterials for complex wound healing, is now online. The Horizon Europe project NABIHEALi project is coordinated by the Center for Biomedical Research Network (CIBER) at the Institute of Materials Science of Barcelona (ICMAB-CSIC). This project will apply one the “Cutting Edge Biomedical Solutions” of NANBIOSIS for the preparation of different nanoestructures with antimicrobial properties, required for the development of the final multifunctional wound healing biomaterials. This case will gather the expertise of two NANBIOSIS unit: NANBIOSIS U6 will produce and characterize these nanoestructures with antimicrobial properties, which will be tested in NANBIOSIS U16. Find out mor[...]
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The Horizon Europe project NABIHEAL, coordinated by the Center for Biomedical Research Network (CIBER) at the Institute of Materials Science of Barcelona (ICMAB-CSIC), was launched on 11-12 January 2023 in Barcelona with the first meeting of the international consortium, formed by 14 partners from 7 countries, including research centers, universities, and private companies. This project will apply one the “Cutting Edge Biomedical Solutions” of NANBIOSIS for the preparation of different nanoestructures with antimicrobial properties, required for the development of the final multifunctional wound healing biomaterials. This case will gather the expertise of two NANBIOSIS unit: NANBIOSIS U6 will produce and[...]
We are delighted to announce the publication of our new brochures which reflects the new equiments and capabilities incorporated to NANBIOSI U16 Surface Characterization and Calorimetry Unit. The equipment is available has been incorporated to the Unit thanks to European Regional Development Fund (FEDER) allocated by the Goberment of Spain for the development of ICTSs, specifically through the Project FICTS-1420-14-09. TOFSIMS_EN-1Download Profilometry_ENDownload Goniometer_ENDownload Further information: NANBIOSIS News[...]
In search of antimicrobials from natural bee products to coat implantable biomaterials, avoiding resistance.
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Chemical composition of explanted deteriorated nephrostomy polyurethane-catheters through X-ray photoelectron spectroscopy
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