Nanoscience: Underlying Physical Concepts and Phenomena (2002)
Chapter: Combining constitutive materials modeling with atomic force microscopy to understand the mechanical properties of living cells
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Suggested Citation:
"Combining constitutive materials modeling with atomic force microscopy to understand the mechanical properties of living cells." National Academy of Sciences. 2002. Nanoscience: Underlying Physical Concepts and Phenomena. Washington, DC: The National Academies Press.
doi: 10.17226/10422.
Suggested Citation:
"Combining constitutive materials modeling with atomic force microscopy to understand the mechanical properties of living cells." National Academy of Sciences. 2002. Nanoscience: Underlying Physical Concepts and Phenomena. Washington, DC: The National Academies Press.
doi: 10.17226/10422.
Suggested Citation:
"Combining constitutive materials modeling with atomic force microscopy to understand the mechanical properties of living cells." National Academy of Sciences. 2002. Nanoscience: Underlying Physical Concepts and Phenomena. Washington, DC: The National Academies Press.
doi: 10.17226/10422.
Suggested Citation:
"Combining constitutive materials modeling with atomic force microscopy to understand the mechanical properties of living cells." National Academy of Sciences. 2002. Nanoscience: Underlying Physical Concepts and Phenomena. Washington, DC: The National Academies Press.
doi: 10.17226/10422.
Suggested Citation:
"Combining constitutive materials modeling with atomic force microscopy to understand the mechanical properties of living cells." National Academy of Sciences. 2002. Nanoscience: Underlying Physical Concepts and Phenomena. Washington, DC: The National Academies Press.
doi: 10.17226/10422.
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