Algae hold particular promise as a feedstock for biomaterials, as they are capable of
producing a wide variety of polymers with the properties required for 3D printing. However …

Abstract 3D bioprinting is a new 3D manufacturing technology, that can be used to
accurately distribute and load microorganisms to form microbial active materials with …

Diatoms have long been used as living biological indicators for the assessment of water
quality in lakes and rivers worldwide. While this approach benefits from the great diversity of …

Living building materials (LBM) are gaining interest in the field of sustainable alternative
construction materials to reduce the significant impact of the construction industry on global …

Abstract 3D bioprinting has developed tremendously in the last couple of years and enables
the fabrication of simple, as well as complex, tissue models. The international space …

Bioprinting is considered a key technology for future space missions and is currently being
established on the International Space Station (ISS). With the aim to perform bioink …

Astronauts are spending longer periods locked up in ships or stations for scientific and
exploration spatial missions. The International Space Station (ISS) has been inhabited …

Cell death is a phenomenon, frequently perceived as an absolute event for cell, tissue and
the organ. However, the rising popularity and complexity of such 3D multicellular 'tissue …

Cultured Meat (CM) is a growing field in cellular agriculture, driven by the environmental
impact of conventional meat production, which contributes to climate change and …

Scaffold‐based tissue engineering provides an efficient approach for repairing uterine tissue
defects and restoring fertility. In the current study, a novel trilayer tissue engineering scaffold …