CELL-MET Technology Foundations

By CELL-MET ERC

NSF Engineering Research Center in Cellular Metamaterials, Boston University, Boston, MA

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Abstract

The NSF Engineering Research Center in Cellular Metamaterials (CELL-MET) plans to accomplish four goals with the cellular metamaterials it intends to build: fabricate responsive heart tissue containing muscle cells and blood vessels; understand and control the tissue using optical technologies; scale the process up to easily create multiple copies of the tissue; and personalize the product, so it can be tailored to individual patients.

The ‘Technology Foundation’ videos provide insight on the current progress of each Thrust Area (Manomanufacturing, Nanomechanics, Imaging, and Cellular Engineering) as presented by graduate students representing Boston University, the University of Michigan, and Florida International University.

Cite this work

Researchers should cite this work as follows:

  • CELL-MET ERC (2019), "CELL-MET Technology Foundations," https://nanohub.org/resources/29712.

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Submitter

Joshua A

NSF Engineering Research Center in Cellular Metamaterials, Boston University, Boston, MA

Tags

  1. CELL-MET
  2. cellular materials
  3. cellular metamaterials
  4. Engineering Research Center (ERC)

In This Series

  1. CELL-MET Thrust Area 1 - Nanomanufacturing: Organic Vapor Jet Printing (OVJP)

    Online Presentations | 05 Feb 2019 | Contributor(s): Clarence Chan, CELL-MET ERC

    The NSF Engineering Research Center in Cellular Metamaterials (CELL-MET) plans to accomplish four goals with the cellular metamaterials it intends to build: fabricate responsive heart tissue containing muscle cells and blood vessels; understand and control the tissue using optical technologies;...

  2. CELL-MET Thrust Area 1 - Nanomanufacturing: Atomic Calligraphy for Cellular Adhesion

    Online Presentations | 07 Feb 2019 | Contributor(s): Josh Javor, CELL-MET ERC

    In this presentation, BU graduate student Josh Javor explains his work on Nanomanufacturing in David Bishop's lab.

  3. CELL-MET Thrust Area 2 - Nanomechanics: Scaffold Generation Using 3D Jet Writing

    Online Presentations | 07 Feb 2019 | Contributor(s): Ayse Muniz, CELL-MET ERC

    In this presentation, UMich graduate student Ayșe Muñiz explains her work on Nanomechanics in Joerg Lahann's lab.

  4. CELL-MET Thrust Area 2 - Nanomechanics: Cell-Integrated Surface Plasmon Resonance

    Online Presentations | 08 Feb 2019 | Contributor(s): Maedeh Mozneb, CELL-MET ERC

    In this presentation, FIU graduate student Maedeh Mozneb explains her work on Nanomechanics in Chen-Zhong Li’s lab.

  5. CELL-MET Thrust Area 2 - Nanomechanics: Direct Laser Writing and Dynamic Microstructures

    Online Presentations | 08 Feb 2019 | Contributor(s): Rachael Jayne, CELL-MET ERC

    In this presentation, BU graduate student Rachael Jayne explains her work on Nanomechanics in Alice White’s lab...

  6. CELL-MET Thrust Area 4 - Optical Engineering: Micro-Electro-Mechanical based Deformable Mirrors

    Online Presentations | 08 Feb 2019 | Contributor(s): HUate Li, CELL-MET ERC

    In this presentation, BU graduate student Huate Li explains his work on Optical Engineering in Thomas Bifano’s lab..

  7. CELL-MET Thrust Area 4 - Optical Engineering: SERS-active Nanopipette Development for Intracellular Biochemical Sensing

    Online Presentations | 08 Feb 2019 | Contributor(s): Jing Guo, CELL-MET ERC

    The NSF Engineering Research Center in Cellular Metamaterials (CELL-MET) plans to accomplish four goals with the cellular metamaterials it intends to build: fabricate responsive heart tissue containing muscle cells and blood vessels; understand and control the tissue using optical technologies;...

  8. CELL-MET Thrust Area 2: Nanomechanics: Mechanical Properties of Materials, Scaffolds and Cardiac Tissues

    Online Presentations | 04 Apr 2019 | Contributor(s): Pranjal Nautiyal

    In this presentation, FIU graduate student Pranjal Nautiyal explains his work on Nanomechanics in Arvind Agarwal's Lab.