Potential Applications of Carbon Nanotubes in Bioengineering

[1]  Charles R. Martin,et al.  Nanomaterials: A Membrane-Based Synthetic Approach , 1994, Science.

[2]  P. Avouris,et al.  Engineering Carbon Nanotubes and Nanotube Circuits Using Electrical Breakdown , 2001, Science.

[3]  T. Ebbesen,et al.  Supramolecular Self-Assembly of Lipid Derivatives on Carbon Nanotubes , 2003, Science.

[4]  Malcolm L. H. Green,et al.  Bioelectrochemical single-walled carbon nanotubes. , 2002, Journal of the American Chemical Society.

[5]  T. Schiestel,et al.  A nonviral DNA delivery system based on surface modified silica-nanoparticles can efficiently transfect cells in vitro. , 2000, Bioconjugate chemistry.

[6]  M. Prato,et al.  Synthesis, structural characterization, and immunological properties of carbon nanotubes functionalized with peptides. , 2003, Journal of the American Chemical Society.

[7]  Hongjie Dai,et al.  Metal coating on suspended carbon nanotubes and its implication to metal–tube interaction , 2000 .

[8]  H. Dai,et al.  Noncovalent sidewall functionalization of single-walled carbon nanotubes for protein immobilization. , 2001, Journal of the American Chemical Society.

[9]  M. Shim,et al.  Noncovalent functionalization of carbon nanotubes for highly specific electronic biosensors , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[10]  Y. Chiang,et al.  Peptides with selective affinity for carbon nanotubes , 2003, Nature materials.

[11]  M. Shim,et al.  Functionalization of Carbon Nanotubes for Biocompatibility and Biomolecular Recognition , 2002 .

[12]  Shuming Nie,et al.  Quantum-dot nanocrystals for ultrasensitive biological labeling and multicolor optical encoding. , 2002, Journal of biomedical optics.

[13]  M. Dresselhaus Carbon nanotubes , 1995 .

[14]  P. Avouris,et al.  Multishell conduction in multiwalled carbon nanotubes , 2002 .

[15]  Jianping Lu,et al.  Carbon nanotubes and nanotube-based nano devices , 1998 .

[16]  S. Prakash,et al.  Procedures for microencapsulation of enzymes, cells and genetically engineered microorganisms , 2001, Molecular biotechnology.

[17]  A. Rinzler,et al.  Fluorination of single-wall carbon nanotubes , 1998 .

[18]  Philip Kim,et al.  Single-walled carbon nanotube probes for high-resolution nanostructure imaging , 1998 .

[19]  L. Kennedy,et al.  Metal catalyzed synthesis of carbon nanostructures in an opposed flow methane oxygen flame , 2003 .

[20]  Charles M. Lieber,et al.  Covalently functionalized nanotubes as nanometre- sized probes in chemistry and biology , 1998, Nature.

[21]  R. Smalley,et al.  Reversible water-solubilization of single-walled carbon nanotubes by polymer wrapping , 2001 .

[22]  Cees Dekker,et al.  Nanotechnology: Carbon nanotubes with DNA recognition , 2002, Nature.

[23]  A. Rinzler,et al.  Carbon nanotube actuators , 1999, Science.

[24]  Russell M. Taylor,et al.  Controlled placement of an individual carbon nanotube onto a microelectromechanical structure , 2002 .

[25]  C. R. Martin,et al.  The emerging field of nanotube biotechnology , 2003, Nature Reviews Drug Discovery.

[26]  Mitra Dutta,et al.  Quantum-based electronic devices and systems , 1998 .

[27]  Phaedon Avouris,et al.  Deformation of carbon nanotubes by surface van der Waals forces , 1998 .

[28]  C. R. Martin,et al.  Smart nanotubes for bioseparations and biocatalysis. , 2002, Journal of the American Chemical Society.

[29]  H. Kleinman,et al.  Neural cell response to multiple novel sites on laminin‐1 , 2000, Journal of neuroscience research.

[30]  Cengiz S. Ozkan,et al.  Covalent Coupling of Quantum Dots to Multiwalled Carbon Nanotubes for Electronic Device Applications , 2003 .

[31]  Kenneth A. Smith,et al.  Reversible sidewall functionalization of buckytubes , 1999 .