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Showing 1–9 of 9 results
Advanced filters: Author: Ibrahim T. Ozbolat Clear advanced filters

  • HITS-Bio, a high-throughput bioprinting platform, rapidly assembles spheroids to mimic native tissue architecture. Its intraoperative application in bone shows near-complete calvarial defect repair in rats and fabrication of scalable cartilage.

    • Myoung Hwan Kim
    • Yogendra Pratap Singh
    • Ibrahim T. Ozbolat
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-21

  • Aspiration-assisted bioprinting is a versatile biofabrication technique that enables the precise and selective patterning of biologics, such as tissue spheroids and organoids, addressing the limitations of conventional bioprinting techniques.

    • Myoung Hwan Kim
    • Ibrahim T. Ozbolat
    Protocols
    Nature Protocols
    P: 1-49

  • Droplet-based bioprinting (DBB) enables the fabrication of three-dimensional structures from biomaterials. In this Primer, Gupta and colleagues describe the various DBB modalities and their applications, considerations for the selection of bioinks and substrates, methods to assess printability, the limitations of DBB and their solutions, and potential advances that might be brought about by incorporating new technologies.

    • Deepak Gupta
    • Irem Deniz Derman
    • Ibrahim T. Ozbolat
    Reviews
    Nature Reviews Methods Primers
    Volume: 5, P: 1-26

  • Controlling the positioning of spheroids in 3D during bioprinting is one of the main challenges hindering the scaffold-free fabrication of biologically-relevant tissues and organs. Here, the authors combine cutting edge aspiration-assisted freeform bioprinting of spheroids with self-healing yield-stress gels, obtaining precise positioning and self-assembly into 3D complex configurations.

    • Bugra Ayan
    • Nazmiye Celik
    • Ibrahim T. Ozbolat
    ResearchOpen Access
    Communications Physics
    Volume: 3, P: 1-14

  • In a society relying on large amount of digital information and big data, information security is of paramount importance. The authors present a concept of physically unclonable function (PUF) based on the randomness of biological systems and offering the potential for a fully unclonable, reproducible and reconfigurable PUF.

    • Akshay Wali
    • Akhil Dodda
    • Saptarshi Das
    ResearchOpen Access
    Communications Physics
    Volume: 2, P: 1-10

  • 3D bioprinting has emerged as a promising new approach for fabricating complex biological constructs in the field of tissue engineering and regenerative medicine. It aims to alleviate the hurdles of conventional tissue engineering methods by precise and controlled layer-by-layer assembly of biomaterials in a desired 3D pattern. The 3D bioprinting of cells, tissues, and organs Collection at Scientific Reports brings together a myriad of studies portraying the capabilities of different bioprinting modalities. This Collection amalgamates research aimed at 3D bioprinting organs for fulfilling demands of organ shortage, cell patterning for better tissue fabrication, and building better disease models.

    • Madhuri Dey
    • Ibrahim T. Ozbolat
    EditorialOpen Access
    Scientific Reports
    Volume: 10, P: 1-3