Future and Challenges in Carbon Materials

Following is my notes based on the seminar by Prof. Ajayan from Rice University at UT AUstin on April 15, 2011.  Seminar Name: “Engineering nanocarbons: future and challenges” 

How to make better carbon?

• Grierson, JAP 107, 0333523, 2010
• Sp2/sp3 transform (beautiful TEM images), Banhart, Ajayan, Nature 1996

Defect engineering sp2- disc, cone, tube, – Thomas Ebbesen

• Sp2  carbon lattice- substitution and segregation, eg boron, Blasé PRL. 99,

Part 1: CNT, from basic science to applications

• Endo, Strano and Ajayan on“application of nanotubes”, science and application of CNT, speinger, dresslhaus
•      Battery, composite …
• Talapatra, Natue nano, 2006, aligned CNT

Small change in morphology, , big difference of functionality

•  Cao, Sicence 2005, Pushparajj, nature nano, 2007
•  CNT brush contact, 2009 Adv Mat, Ajayan
• Ge, Nanoletter, 2010, Adhesion of compliant nanohairs

Carbon extremes- darkest material to transparent films

CNT cables and fibers

•  Jinquan Wei, 2011, best conductivity of CNTS fibers –coper 5e6, carbon 1e5

Boron doping make CNT lots of junctions, 3D architectures

Part 2: 2D material

•  Graphene and hBN,
•  Controlled cutting of grapheme, Ci- Nanoresearch, 2008
•  CVD using liquid precursors, i.e. Hexane
•  Stainless steel,
•  Gullaapalli, 2011 , directely for battery electrode
•  In-planbe multifunctional thin film devices- supercap, Yooand Balakrishnan,
•  Chem, Soc. Review, 2009, 38, 2520-2531- Carbon based supercapacitors
•  S/N/P doping, Wei, nanoletters, 2009

2D hybrid carbon, HBN carbon

• Ci, Nature material 9, 430, 2010
• Angel Rubia, Nature Material, 2010
•  Ci, Nature Materials, 9, 430, 2010, 2D h=BNC sheet
• Metal-metal transition? Li, unpublished yet
• Elatic properties, Science 2008, Columbia
• BN, phase digram, Solozhenko, J.Pyhyis Chem, B, 103, 2903, 1999

Part 3. Hybrid nanostructures

Fully-functinal nanostructures

• Interfacial slippage: dample, Suhr. Nature Materials 2005
• 3D composite, Veedu, Nature Mat 2006
• SWNT-polymer nanocomposite fibers,
• Self-stiffening, Carey, ACS Nano, 2011
• Fung APL 2007, comles heterostructures with nanocarbons
• Ou, Nanoletter 2008 reconfigrurable assembly
• Supcap, PNAS,Ajayan, , 3D nanostructure
• Gowda, electrochemical devices on nanowire

Challenges:

• Self-assemblied nanotibe stctures,
• 3D assembly, (LbL, with field to overcome barrier in suspension mixed
• Hybrid nanowires
• Nanowelding
• …

Funding Sources:

• Onr, nsf, nirt, dmr
• ARL, ARO
• AFRL
• DoE, NIH, Advanced energy consortium
• Nanoholdings Inc…