Adv Mater 2002, 14:1190.CrossRef 29. Stett A, Müller B, Fromherz P: Two-way

silicon-neuron interface by electrical induction. Phys Rev E 1997,55(2):1779–1782.CrossRef 30. Merz M, Fromherz P: Silicon chip interfaced with a geometrically buy GANT61 defined net of snail neurons. Adv Funct Mater 2005,15(5):739.CrossRef 31. Schöning MJ, Poghossian A: Recent advances in biologically sensitive field-effect transistors (BioFETs). Analyst 2002, 127:1137.CrossRef 32. Poghossian A, Schöning MJ: Silicon based chemical and biological field effect sensors. In Encyclopedia of sensors. Vol 10. American Scientific Publishers; 2006:463. 33. Schöning MJ, Poghossian A: Bio FEDs (Field-Effect Devices): state-of-the-art and new directions. Electroanalysis 1893, 2006:18. 34. Poghossian A, Schöning MJ: Chemical and biological field-effect sensors for liquids—a status report. In Handbook of biosensors and biochips. Willey-VCH; 2007:1. Ch 24 35. Hunt JA, Williams DB: Electron energy-loss spectrum-imaging. Ultramicroscopy

1991, 38:47.CrossRef 36. Scherübl H, Hescheler J, Roy P: Steady-state currents through voltage-dependent, dihydropyridine-sensitive Ca2+ channels in GH3 pituitary cells. Soc B-Biol Sci 1991, 245:127.CrossRef 37. Connollya P, Clarkb P, Curtisb ASG, Dowb JAT, Wilkinsona CDW: An extracellular microelectrode array for monitoring electrogenic cells in culture. Biosens Bioelectron 1990, 5:223–234.CrossRef 38. Aksay E, Gamkrelidze G, Seung HS, Baker R, Tank DW: In vivo intracellular recording Bucladesine and perturbation of persistent activity in a GM6001 neural integrator. Nat Neurosci 2001, 4:184–193.CrossRef 39. Kipke DR, Vetter RJ, Williams JC, Hetke JF: Silicon-substrate intracortical microelectrode arrays for long-term recording of neuronal spike activity in cerebral cortex. IEEE Trans Neural Syst Adenosine triphosphate Rehabil Eng 2003, 11:151–155.CrossRef 40. Rhim H, Baek HJ, Ho WK, Earm YE: The role of K + channels on spontaneous action potential in rat clonal pituitary GH3 cell line. Kor J Physiol Pha 2000, 4:81. 41. Hochbaum AI, Fan R, He R, Yang P: Controlled growth

of Si nanowire arrays for device integration. Nano Lett 2005,5(3):457–460.CrossRef 42. Mohan P, Motohisa J, Fukui T: Controlled growth of highly uniform, axial/radial direction-defined, individually addressable InP nanowire arrays. Nanotechnology 2005, 16:2903.CrossRef 43. Hsu CM, Connor ST, Tang MX, Cui Y: Wafer-scale silicon nanopillars and nanocones by Langmuir–Blodgett assembly and etching. Appl Phys Lett 2008, 93:133109.CrossRef 44. Xie C, Hanson L, Xie W, Lin Z, Cui B, Cui Y: Noninvasive neuron pinning with nanopillar arrays. Nano Lett 2010, 10:4020.CrossRef Competing interests The authors declare that they have no competing interests. Authors’ contributions KY, IS, SE, and DW carried out the device fabrication, cell culturing, and signalling. JJ, HR, and SH participated in the design of the study. JP carried our TEM works.