We report a microfluidic chip integrated with a bioengineered membrane for two-dimensional (2D) and three-dimensional (3D) spheroid tissue cultures to achieve deterministic patterning of cells ...

Cell culture plays an important role in a wide range of biological research, from modelling diseases, to testing drug toxicity, to manufacturing vaccines. Traditionally, cultures have been planar, ...

"Engineering the boundary between 2D and 3D materials." ScienceDaily. www.sciencedaily.com / releases / 2021 / 02 / 210226135531.htm (accessed June 2, 2025). Explore More ...

Fabrication of 3D cell scaffolds has gained tremendous attention in recent years because of its applications in tissue engineering and cell biology applications. The success of tissue engineering or ...

At the core of tissue engineering is the construction of three-dimensional scaffolds out of biomaterials to provide mechanical support and guide cell growth into new tissues or organs. In another ...

The CollaFibR ™ scaffold for 3D cell culture allows researchers to study cellular reactions in a more physiologically relevant 3D environment, compared to traditional 2D cultures.

Researchers agree engineered tissue could cut the cost of developing new drugs by giving researchers an alternative to animal tests, and that bone and cartilage engineering offer likely near-term ...

Scaling up tissue engineering Bioprinting technique creates thick 3-D tissues composed of human stem cells and embedded vasculature Date: March 7, 2016 ...

Bioprinting, a breakthrough field, means scientists can now move beyond the basic 2D cell cultures that have dominated biological research for decades. Creating tissues at the touch of a bubble. Most ...

Researchers at the University of Queensland have developed a 2D/3D tin halide perovskite (THP) solar cell with a certified efficiency of 16.65% and peak performance of 17.13%, maintaining stable ...