Preparation and printability of ultrashort self-assembling peptide nanoparticles

Year:2019 DOI:doi: 10.18063/ijb.v5i2.239
Authors: Sarah Ghalayini, Hepi Hari Susapto, Sophie Hall, Kowther Kahin, Charlotte A. E. Hauser
Nanoparticles Ultrashort peptides Self-assembly Microfluidics Biomaterials

Exploring nanofibrous self-assembling peptide hydrogels using mouse myoblast cells for three-dimensional bioprinting and tissue engineering applications

Year:2019
Authors: W. Arab, K. Kahin, Z. Khan, C.A.E. Hauser
Three-dimensional bioprinting Peptide Biomaterials Bioinks Tissue engineering Myoblasts

A chemically well-defined, self-assembling 3D substrate for long-term culture of human pluripotent stem cells

Year:2019
Authors: Y. Loo, Y.S. Chan, I. Szczerbinska, B.C.P. Tan, A.C.A. Wan, H.H. Ng, C.A.E. Hauser
Xeno-free nanofibrous scaffolds Ultrashort peptides Self-assembled peptide hydrogels Human pluripotent stem cells

Self‐assembling amyloid‐like peptides as exogenous second harmonic probes for bioimaging applications

Year:2019
Authors: M. Ni, Sh. Zhuo, C. Iliescu, P.T.C. So, J.S. Mehta, H. Yu, C.A.E. Hauser
Bioimaging Nonlinear optical materials Second harmonic generation Self‐assembly Ultrashort peptides

Development of a robotic 3D bioprinting and microfluidic pumping system for tissue and organ engineering

Year:2019
Authors: K. Kahin, Z. Khan, M. Albagami, S. Usman, S. Bahnshal, H. Alwazani, M.A. Majid, S. Rauf, C. Hauser
Robotics 3D printing 3D modeling MATLAB 3D image processing

Optimization of a 3D bioprinting process using ultrashort peptide bioinks

Year:2019
Authors: Z. Khan, K. Kahin, S. Rauf, G. Ramirez-Calderon, N. Papagiannis, M. Abdulmajid, C.A.E. Hauser
3D bioprinting Ultrashort peptides Biomaterials Bioinks Tissue engineering Vacuum system

Thin peptide hydrogel membranes suitable as scaffolds for engineering layered biostructures

Year:2019
Authors: W.Y. Seow, K. Kandasamy, K. Purnamawati, W. Sun, C.A.E. Hauser
Ultrashort peptide hydrogel Disulfide bonds Tissue engineering scaffolds Layered biostructures Membranes
KAUST

"KAUST shall be a beacon for peace, hope and reconciliation, and shall serve the people of the Kingdom and the world."

King Abdullah bin Abdulaziz Al Saud, 1924 – 2015

Contact Us

  • 4700 King Abdullah University of Science and Technology

    Thuwal 23955-6900, Kingdom of Saudi Arabia

    Al-Haytham Building (Bldg. 2)

Quick links

© King Abdullah University of Science and Technology. All rights reserved