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Tristan Giesa

Showing results (1-10 of 12) with videos related to

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Annual Review of Biophysics|May 10, 2013
Nanoconfinement and the strength of biopolymersTristan Giesa, Markus J Buehler
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|December 11, 2012
Natural stiffening increases flaw tolerance of biological fibersTristan Giesa, Nicola M Pugno, Markus J Buehler
Biomacromolecules|December 17, 2015
Secondary Structure Transition and Critical Stress for a Model of Spider Silk AssemblyTristan Giesa, Carole C Perry, Markus J Buehler
ACS Biomaterials Science & Engineering|August 30, 2016
Matriarch: A Python Library for Materials ArchitectureTristan Giesa, Ravi Jagadeesan, David I Spivak, et al.
Plos One|September 21, 2011
Category theoretic analysis of hierarchical protein materials and social networksDavid I Spivak, Tristan Giesa, Elizabeth Wood, et al.
Nano Letters|October 5, 2011
Nanoconfinement of spider silk fibrils begets superior strength, extensibility, and toughnessTristan Giesa, Melis Arslan, Nicola M Pugno, et al.
Nanotechnology|December 1, 2015
Categorical prototyping: incorporating molecular mechanisms into 3D printingDieter B Brommer, Tristan Giesa, David I Spivak, et al.
ACS Nano|August 29, 2017
Unraveling the Molecular Requirements for Macroscopic Silk SupercontractionTristan Giesa, Roman Schuetz, Peter Fratzl, et al.
Advanced Materials (Deerfield Beach, Fla.)|January 17, 2014
What's inside the box? - Length-scales that govern fracture processes of polymer fibersTristan Giesa, Nicola M Pugno, Joyce Y Wong, et al.
Physical Chemistry Chemical Physics : PCCP|December 22, 2015
The nature of the silicaphilic fluorescence of PDMPOMithun Parambath, Quentin S Hanley, Francisco J Martin-Martinez, et al.
Pageof 2

Showing results (1-10 of 12) with videos related to

Sort By:
Pageof 2
Annual Review of Biophysics|May 10, 2013
Nanoconfinement and the strength of biopolymersTristan Giesa, Markus J Buehler
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|December 11, 2012
Natural stiffening increases flaw tolerance of biological fibersTristan Giesa, Nicola M Pugno, Markus J Buehler
Biomacromolecules|December 17, 2015
Secondary Structure Transition and Critical Stress for a Model of Spider Silk AssemblyTristan Giesa, Carole C Perry, Markus J Buehler
ACS Biomaterials Science & Engineering|August 30, 2016
Matriarch: A Python Library for Materials ArchitectureTristan Giesa, Ravi Jagadeesan, David I Spivak, et al.
Plos One|September 21, 2011
Category theoretic analysis of hierarchical protein materials and social networksDavid I Spivak, Tristan Giesa, Elizabeth Wood, et al.
Nano Letters|October 5, 2011
Nanoconfinement of spider silk fibrils begets superior strength, extensibility, and toughnessTristan Giesa, Melis Arslan, Nicola M Pugno, et al.
Nanotechnology|December 1, 2015
Categorical prototyping: incorporating molecular mechanisms into 3D printingDieter B Brommer, Tristan Giesa, David I Spivak, et al.
ACS Nano|August 29, 2017
Unraveling the Molecular Requirements for Macroscopic Silk SupercontractionTristan Giesa, Roman Schuetz, Peter Fratzl, et al.
Advanced Materials (Deerfield Beach, Fla.)|January 17, 2014
What's inside the box? - Length-scales that govern fracture processes of polymer fibersTristan Giesa, Nicola M Pugno, Joyce Y Wong, et al.
Physical Chemistry Chemical Physics : PCCP|December 22, 2015
The nature of the silicaphilic fluorescence of PDMPOMithun Parambath, Quentin S Hanley, Francisco J Martin-Martinez, et al.
Pageof 2