Wide range control of microstructure and mechanical properties of carbon nanotube forests: A comparison between fixed and floating catalyst CVD techniques

Advanced Functional Materials

Volumn 22, Issue 23, 2012, Pages 5028-5037

  Yaglioglu, Onnik ^a   Cao, Anyuan ^b   Hart, A John ^c   Martens, Rod ^d   Slocum, A H ^e  

^a FORMFACTOR INC   (United States)

^b PEKING UNIVERSITY   (China)

^c UNIVERSITY OF MICHIGAN   (United States)

^d TE Connectivity   (United States)

^e Massachusetts Institute of Technology   (United States)

Author keywords

CNT deformation; CVD; energy absorption; foam; stiffness tuning

Indexed keywords

ABSORPTION PROPERTY; CVD METHOD; DEFORMATION BEHAVIOR; DESIGN TOOL; ELASTIC BEHAVIOR; ELASTIC ENERGY; ELASTIC RANGES; ELASTIC RECOVERY; ENERGY ABSORPTION CAPACITY; FIRST-ORDER; FLOATING CATALYST; FOAM MATERIAL; FORCE-DISPLACEMENT RELATIONSHIPS; FOREST DENSITY; IN-SITU SEM; LARGE PLASTIC DEFORMATION; LOW DENSITY; MECHANICAL BEHAVIOR; MICROSTRUCTURE AND MECHANICAL PROPERTIES; NANOTUBE FORESTS; OPEN-CELL FOAMS; PACKING DENSITY; STIFFNESS TUNING; STRUCTURAL STIFFNESS; SYNTHESIS METHOD; THERMAL INTERFACES; THREE ORDERS OF MAGNITUDE; TRIBOMETERS; VERTICALLY ALIGNED CARBON NANOTUBE;

CARBON NANOTUBES; CATALYSTS; CHEMICAL VAPOR DEPOSITION; COMPRESSION TESTING; DEFORMATION; ELASTICITY; ENERGY ABSORPTION; FOAMS; STIFFNESS;

FORESTRY;

ABSORPTION; CARBON; COMPRESSION TESTS; DEFORMATION; ELASTICITY; ENERGY; FOAM; FORESTRY; STIFFNESS;

EID: 84870588800     PISSN: 1616301X     EISSN: 16163028     Source Type: Journal    
DOI: 10.1002/adfm.201200852     Document Type: Article

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