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- Biofabrication - IOPscience
Biofabrication focuses on cutting-edge research regarding the use of cells, proteins, biological materials and biomaterials as building blocks to manufacture biological systems and or therapeutic products
- About the journal - Biofabrication - IOPscience
This page now only hosts journal metric information You can find more information about the journal including scope, article types, and peer review process here Journal metrics All metrics are for the last complete calendar year Peer review times are median figures unless otherwise stated
- About Biofabrication - IOPscience - Publishing Support
Biofabrication™ focuses on cutting-edge research regarding the use of cells, proteins, biological materials and biomaterials as building blocks to manufacture biological systems and or therapeutic products
- Biofabrication - IOPscience - Publishing Support
Biofabrication focuses on cutting-edge research regarding the use of cells, proteins, biological materials and biomaterials as building blocks to manufacture biological systems and or therapeutic products
- Biofabrication: reappraising the definition of an evolving field
Within this context, we propose a refined working definition of Biofabrication, including Bioprinting and Bioassembly as complementary strategies within Biofabrication
- Submission options - Biofabrication - IOPscience
Biofabrication Purpose-led Publishing is a coalition of three not-for-profit publishers in the field of physical sciences: AIP Publishing, the American Physical Society and IOP Publishing
- Biofabrication: a 21st century manufacturing paradigm
Biofabrication can be defined as the production of complex living and non-living biological products from raw materials such as living cells, molecules, extracellular matrices, and biomaterials
- Issue 3 - Volume 13 - Biofabrication - IOPscience
Biofabrication tools can be applied to engineer human three-dimensional (3D) culture systems that complement current preclinical research models Here, we describe the development of the first in vitro 3D model of DM1 human skeletal muscle
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