Add to ORKGPoster PresentationPhotochemical crosslinking is effective in enhancing long-term stability of protein (e.g. collagen and fibronectin) structures without compromising the tissue compatibility. In this work, multiphoton-based photochemical crosslinking was used to fabricate protein structures with micron- and sub-micron-sized structures using bovine serum albumin (BSA) as the sample protein and rose Bengal (RB) as the photosensitizer. Our ultimate goal is to study how cells respond to patterned structures with sub-micron sized topological features. Arrays of BSA micro-pillars have been fabricated. Excellent 3D resolution in defining the shape of micro-pillar structures, either pyramidal or conical, was achieved by precisely controlling vario...
Living materials are based on proteins that adapt and change in structure and function continuously ...
Two-photon and single photon laser writing are used here to fabricate 3D proteinaceous microstructur...
The goal of the work described in this thesis was to develop methods for the fabrication of micromet...
Two-photon excitation photochemical crosslinking is an efficient and rapid approach to freely fabric...
One of the challenges in tissue engineering is to fabricate scaffolds which can mimic the natural mi...
One of the challenges in tissue engineering is to fabricate scaffolds which can mimic the natural mi...
We present the successful fabrication of bovine serum albumin matrix with novel two-photon photochem...
Photochemical crosslinking is an emerging technique able to modify the physicochemical properties of...
This study reports the pico- and femtosecond laser-induced photocrosslinking of protein microstructu...
Conference Theme: In the Context of Matrix, Cells and Regenerative MedicineThe Conference program's ...
This work was aimed at advancing multi-photon excited, freeform fabrication technology with nano-sca...
International audienceWe report on the laser fabrication of BSA and type I collagen microstructures ...
Extracellular matrix is the microenvironment which interacts with cells to regulate their activities...
Micron-scale protein cross-linking or microfabrication has been carried out using an Nd3+–YAG laser ...
The trend of mimicking the real biological world has created an intensive search for methods that ar...
Living materials are based on proteins that adapt and change in structure and function continuously ...
Two-photon and single photon laser writing are used here to fabricate 3D proteinaceous microstructur...
The goal of the work described in this thesis was to develop methods for the fabrication of micromet...
Two-photon excitation photochemical crosslinking is an efficient and rapid approach to freely fabric...
One of the challenges in tissue engineering is to fabricate scaffolds which can mimic the natural mi...
One of the challenges in tissue engineering is to fabricate scaffolds which can mimic the natural mi...
We present the successful fabrication of bovine serum albumin matrix with novel two-photon photochem...
Photochemical crosslinking is an emerging technique able to modify the physicochemical properties of...
This study reports the pico- and femtosecond laser-induced photocrosslinking of protein microstructu...
Conference Theme: In the Context of Matrix, Cells and Regenerative MedicineThe Conference program's ...
This work was aimed at advancing multi-photon excited, freeform fabrication technology with nano-sca...
International audienceWe report on the laser fabrication of BSA and type I collagen microstructures ...
Extracellular matrix is the microenvironment which interacts with cells to regulate their activities...
Micron-scale protein cross-linking or microfabrication has been carried out using an Nd3+–YAG laser ...
The trend of mimicking the real biological world has created an intensive search for methods that ar...
Living materials are based on proteins that adapt and change in structure and function continuously ...
Two-photon and single photon laser writing are used here to fabricate 3D proteinaceous microstructur...
The goal of the work described in this thesis was to develop methods for the fabrication of micromet...