The way to apply for VSRP internship is to apply via a project below. We have over 100 projects spanning 16 STEM disciplines, and each project has its own 'Apply' button. Each project is 3 - 6 months long and includes airfares, flights, housing, health insurance and a monthly stipend.
You'll be able to work directly with leading researchers in our state-of-the-art laboratories. We're open to applications from motivated students looking to make an impact on the world. If that sounds like you, find a project below that interests you and continue your journey at KAUST!
New research projects have been added in the following areas:
Environmental Science and Engineering
Earth Science and Engineering
Applied Mathematics and Computational Science
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Due to environmental factors such as increasing heat and pollution, coral reefs are experiencing steady and substantial degradation over the years. 3D CoraPrint can produce porous coral scaffolds for coral nurseries with a sustainable material composed of calcium carbonate photopolymer material (CCP). Biocompatible ultrashort peptide hydrogels are used as scaffolding materials for 3D bioprinting. Our work shows that hydrogels can provide a favorable environment for cellular growth. We aim to combine our coral scaffolds with our field-approved environmentally friendly peptide-based superglue in order to glue coral microfragments to the 3D printed coral structures. Afterwards, the obtained structures will be printed/sprayed with peptide hydrogels to provide growth support. The growth and general health status of the treated glued fragments will be monitored over time both in nursery and in field.
Division -Biological and Environmental Sciences and Engineering
Field of Study -tissue engineering, materials science, environmental science
About the Researcher
Desired Project Deliverables
In our vision, the proposed approach of combining in-house printing with CCP biocompatible and sustainable material and the use of an in-house designed biocompatible underwater superglue will allow the far-reaching goal of generating fast sustainable growing corals for coral reef restoration. Moreover the addition of hydrogel as a coral growth promoter will contribute to provide a better outcome.
Key Milestones and Deliverables
1. Printing of porous CCP scaffold
2. Gluing of microfragments with superglue to the coral scaffolds
3. Printing/spraying of hydrogels as growth enhancers
4. Deployment in field and in nursery
5. Monitoring of coral growth/health