| 01-07-2024 |
Biofilms
Estudio de biopelículas de microorganismos
Keywords:
biotecnologia
biofilms
Prerequisitos:
ICH3350
Tiene un método de evaluación Nota 1-7, con 10 créditos y tiene 5/5 vacantes disponibles |
Mentor(es): Ver en la plataforma |
| 04-12-2023 |
Remoción biológica de compuestos nitrogenados desde aguas contaminadas
El proyecto consiste evaluar la factibilidad del aplicar el proceso feammox acoplado a anammox para la optimización de la remocipón de amonio desde aguas contaminadas aguas grises
Prerequisitos:
no tiene.
Tiene un método de evaluación Nota 1-7, con 10 créditos y tiene 3/4 vacantes disponibles |
Mentor(es): Ver en la plataforma |
| 01-07-2024 |
Biofilms
Study of microbial biofilms
Keywords:
biotecnologia
biofilms
Prerequisites:
ICH3350
Evaluation method: Nota 1-7, with 5/5 available vacants |
Mentor(s): Open in the plataform |
| 14-06-2024 |
Este trabajo consistirá en realizar una revisión bibliográfica para identificar desechos industriales posibles a utilizar y trabajo experimental donde se probarán distintas fuentes de carbono y se optimizará su uso.
Prerequisites:
IBM2222
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
| 16-12-2023 |
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
| 04-12-2023 |
Prerequisites:
None.
Evaluation method: Nota 1-7, with 3/4 available vacants |
Mentor(s): Open in the plataform |
| 29-12-2022 |
Study of the specificity determinants in the recognition process between the transcription factor MarA and DNA
This research opportunity offers the possibility to explore, to analyze and to generate specificity models of DNA binding for the transcription factor MarA through computational biology approaches. We have large amounts of data generated by directed evolution experiments performed in vivo in bacteria (hundreds of Gbytes). Also, this research will involve searching and assessing specificity models of MarA binding in the whole genome of E. coli bacteria ( 5 Mbytes).
Prerequisites:
IIC1103
Evaluation method: Nota 1-7, with 0/2 available vacants |
Mentor(s): Open in the plataform |
| 05-06-2022 |
Fabrication of 2D material-reinforced metal matrix composites by additive manufacturing.
Numerous medical devices are employed to treat or alleviate various diseases and injuries as well as anatomy and physiological process support. Their failures or malfunctions often relate to processes/problems occurring rubbing interfaces. Therefore, the biotribological behavior of such systems plays a crucial role in prolonging their safe and reliable operation. In this sense, there is a need to further enhance the mechanical properties and biotribological behavior of the materials. This can for example be done by reinforcing the materials with fillers. 2D materials such as graphene feature great potential for biological/biomedical applications. Moreover, the fabrication of multifunctional composite structures using additive manufacturing (AM) techniques like selective laser melting (SLM) for biomedical/biotribological applications remains relatively underexplored. Undoubtedly, combining additive manufacturing with 2D material-based metal matrix composites (MMCs) has the potential to offer up new opportunities for patient-specific (tailor-made) and wear-resistant implants.
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/3 available vacants |
Mentor(s): Open in the plataform |