Thursday, 23 February 2023

3D printing with bacteria-loaded ink produces bone-like composites

Introduction Researchers at EPFL have developed an innovative method for 3D-printing an environmentally friendly and strong ink using calcium carbonate-producing bacteria. The 3D-printed mineralized bio-composite derived from this method is light, durable and can be used for a multitude of purposes in diverse industries, including art and biomedicine. In this article, we will discuss the incredible potential of the 3D-printed mineralized bio-composite and how it could revolutionize the way we use bacteria in material production. Background on Calcium Carbonate-Producing Bacteria Calcium carbonate-producing bacteria are a type of microorganisms that produce calcium carbonate, or chalk, as part of their metabolic process. These bacteria have actually been around for millions of years, but the potential for using them in the production of mineralized bio-composites has only recently been explored. What is a Mineralized Bio-Composite Material? A mineralized bio-composite material is a type of material produced by embedding calcium carbonate-producing bacteria in a 3D-printed ink. When exposed to certain environmental conditions, the bacteria produce calcium carbonate and begin to solidify the material. This process allows for the production of strong, durable materials with higher levels of strength and flexibility than those made by traditional methods. Advantages of the 3D-Printed Mineralized Bio-Composite The 3D-Printed mineralized bio-composite offers several advantages over traditional materials. It is exceptionally lightweight, yet has a much higher strength-to-weight ratio than materials produced via traditional methods. It is also more environmentally friendly than other materials, due to the fact that its production does not require the use of toxic chemicals or high levels of energy. Additionally, its increased flexibility makes it ideal for use in a wide range of applications, including art, architecture, and biomedicine. Applications of the 3D-Printed Mineralized Bio-Composite The 3D-Printed mineralized bio-composite has a wide range of potential applications, from art to biomedicine. In the field of art, the material could be used to create intricate sculptures or structures that are lightweight yet strong and capable of withstanding environmental damage. In the field of architecture, the material could be used to create complex structures that are durable, lightweight, and environmentally friendly. In medicine, the material could be used to create devices that are safe to use in the human body, such as implants and prosthetics. Conclusion The 3D-printed mineralized bio-composite developed by EPFL’s researchers is an incredible example of the power of bacteria. By combining the impressive properties of calcium carbonate-producing bacteria with 3D-printing technology, researchers have created a strong, lightweight and environmentally friendly material with a wide range of applications. In the future, the possibilities for this material are only set to expand, and it could revolutionize the way we use bacteria in material production.

https://www.lifetechnology.com/blogs/life-technology-technology-news/3d-printing-with-bacteria-loaded-ink-produces-bone-like-composites

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