J.G.Jackson-C.J. Wood Professor of Chemistry (b. 1966)
B.S., 1989, TsingHua University;
M.S., 1991, Columbia University;
Ph.D., 1994, Harvard University
Postdoctoral Fellow, 1994-1995;
Harvard University, Postdoctoral Fellow, 1995-1997;
Rice University. Camille and Henry Dreyfus New Faculty Award, 1997;
Terman Fellowship, 1998;
Packard Fellowship for Science and Engineering, 1999;
Alfred P. Sloan Research Fellow, 2001;
American Chemical Society Pure Chemistry Award, 2002;
Camille Dreyfus Teacher-Scholar Award, 2002;
Julius Springer Prize of Applied Physics 2004,
American Physical Society James McGroddy Prize for New Materials 2006;
American Academy of Arts and Sciences, 2009.
Chemistry Research Area: 

Principal Research Interests

The research of my group interfaces with chemistry, physics, materials science, and biological and medical science. We are interested in solid state and soft biological materials that have well-defined atomic structures. Our work is in the areas of materials chemistry, solid state chemistry and physics, scanning probe microscopy, molecular electronics, novel chemical and biochemical sensors and nanomaterial based biological transporters and carriers for drug, DNA and protein delivery and novel therapeutics applications of nanomaterials. Specific projects include, (1) Nanotube synthesis including self-oriented multi-walled carbon nanotube arrays [Fan et al., Science, 1999], highly quality single-walled carbon nanotubes (SWNTs) by chemical vapor deposition (CVD) and their patterned growth on substrates [Kong et al., Nature, 1998; Soh et al., Appl. Phys. Lett., 1999;] and single particle patterning for nanotube growth [Javey et al., 2005, JACS]. (2) Fundamental electrical and electromechanical Properties of Nanotubes [Tombler, Nature, 2000; Cao, PRL, 2003 & 2004; Kong, PRL, 2001]. (3) Suspended nanotube synthesis and quantum transport [Cassell, JACS, 1999; Franklin, 2000; Cao, PRL, 2004]. (3) Nanotube Molecular Sensors and Biosensors. We are exploring nanotubes as novel electronic sensors for gases and biomolecules in solutions [Kong et al., Science, 2000; Chen, PNAS, 2003; Chen, JACS, 2004]. (3) Molecular electronics with ultrahigh performance [A. Javey et al., Nature Materials, 2002; A. Javey, Nature, 2003]. (4) Organic Electronics with Quasi 1D Electrodes [Qi, JACS, 2004]. (5) Intracellular Molecular Transporters and Near Infrared Nano-Therapy. We showed recently that nanotubes are transporters capable of shuttling various cargos (e.g. proteins and SiRNA) across cell membranes [Kam, JACS, 2004&2005]. We also developed a method to destruct cancer cells selectively by using nanotubes and near-infrared light [Kam, PNAS, 2005]. This is an exciting new area in nanobiotechnology in our group with many exciting opportunities ahead. (6) Germanium Nanowires. We are exploring novel synthesis, characterization and applications of semiconducting nanowires [Wang, Angew. Chemie, 2002 *2005; JACS, 2004&2005].

Representative Publications

1) "Carbon nanotubes as multifunctional biological transporters and near-infrared agents for selective cancer cell destruction," N. Wong Shi Kam, M. O'Connell*, J. A. Wisdom, and H. Dai, PNAS, 102, 11600-11605, (2005).

2) "Chemical Synthesis Routes to Nanotube Molecular Electronics," H. Dai, Accounts of Chemical Research, 35, 1035-1044 (2002).

3) "Ballistic Carbon Nanotube Field Effect Transistors," A. Javey, J. Guo, Q. Wang, M. Lundstrom, and H. Dai, Nature, 424, 6949 (2003).

4) "Nanotube Molecular Transporters: Internalization of Carbon Nanotube-Protein Conjugates into Mammalian Cells," N.W.S. Kam, T.C. Jessop, P. Wender, and H. Dai, J. Am. Chem. Soc., 126, 6850-6851 (2004).

5) "Non-covalent Sidewall Functionalization of Single-walled Carbon Nanotubes for Protein Immobilization," R. Chen, Y. Zhang, D. Wang, and H. Dai, J. Am. Chem. Soc., 123 (16), 3838-3839 (2001).

6) "Quantum Interference and Ballistic Transmission in Nanotube Electron Wave-Guides," J. Kong, E. Yenilmez, T. Tombler, W. Kim, L. Liu, S.Y. Wu, C.S. Jayanthi, R. Laughlin, and H. Dai, Phys. Rev. Lett., 87, 106801 (2001).

7) "Nanotube Molecular Wires as Chemical Sensors," J. Kong, N. Franklin, C. Zhou, S. Peng, J.J. Cho, and H. Dai, Science, 287, 622 (2000).

8) "Reversible Nanotube Electro-mechanical Characteristics Under Local Probe Manipulation," T. Tombler, C. Zhou, L. Alexeyev, J. Kong, H. Dai, W. Liu, C Jayanthi, M. Tang, and S.Y. Wu, Nature, 405, 769 (2000).

9) "Self-Oriented Regular Arrays of Carbon Nanotubes and their Field Emission Devices," S. Fan, M. Chapline, N. Franklin , T. Tombler, A. Cassell, and H. Dai, Science, 283, 512 (1999).

10) "Synthesis of Single Single-Walled Carbon Nanotubes on Patterned Silicon Wafers," J. Kong, H.T. Soh, A. Cassell, C.F. Quate, and H. Dai, Nature, 395, 878 (1998).