Highly ordered nanowire arrays on plastic substrates for ultrasensitive flexible chemical sensors.

[1]  James R Heath,et al.  Quantitative real-time measurements of DNA hybridization with alkylated nonoxidized silicon nanowires in electrolyte solution. , 2006, Journal of the American Chemical Society.

[2]  John A Rogers,et al.  Heterogeneous Three-Dimensional Electronics by Use of Printed Semiconductor Nanomaterials , 2006, Science.

[3]  J. Youngblood,et al.  Optimization of silica silanization by 3-aminopropyltriethoxysilane. , 2006, Langmuir : the ACS journal of surfaces and colloids.

[4]  Babak A. Parviz,et al.  Self-assembled single-crystal silicon circuits on plastic , 2006, Proceedings of the National Academy of Sciences.

[5]  Mikhail Kozlov,et al.  Flexible carbon nanotube sensors for nerve agent simulants , 2006, Nanotechnology.

[6]  A. Kolmakov,et al.  Toward the nanoscopic "electronic nose": hydrogen vs carbon monoxide discrimination with an array of individual metal oxide nano- and mesowire sensors. , 2006, Nano letters.

[7]  R. Service,et al.  Inorganic Electronics Begin to Flex Their Muscle , 2006, Science.

[8]  Charles M. Lieber,et al.  Ge/Si nanowire heterostructures as high-performance field-effect transistors , 2006, Nature.

[9]  James R Heath,et al.  Silicon p-FETs from ultrahigh density nanowire arrays. , 2006, Nano letters.

[10]  Zhaoning Yu,et al.  Circuit fabrication at 17 nm half-pitch by nanoimprint lithography. , 2006, Nano letters.

[11]  Michael B Bracken,et al.  Association of indoor nitrogen dioxide exposure with respiratory symptoms in children with asthma. , 2006, American journal of respiratory and critical care medicine.

[12]  E. Tu,et al.  Label-free detection of DNA hybridization using carbon nanotube network field-effect transistors. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[13]  John A Rogers,et al.  A printable form of single-crystalline gallium nitride for flexible optoelectronic systems. , 2005, Small.

[14]  J. Heath,et al.  Bridging Dimensions: Demultiplexing Ultrahigh-Density Nanowire Circuits , 2005, Science.

[15]  Chao Li,et al.  Complementary detection of prostate-specific antigen using In2O3 nanowires and carbon nanotubes. , 2005, Journal of the American Chemical Society.

[16]  Alan Gelperin,et al.  DNA-decorated carbon nanotubes for chemical sensing , 2005, Nano letters.

[17]  John A. Rogers,et al.  Bendable GaAs metal-semiconductor field-effect transistors formed with printed GaAs wire arrays on plastic substrates , 2005 .

[18]  Michael C. McAlpine,et al.  High-Performance Nanowire Electronics and Photonics and Nanoscale Patterning on Flexible Plastic Substrates , 2005, Proceedings of the IEEE.

[19]  Robert H. Reuss,et al.  Macroelectronics: Perspectives on Technology and Applications , 2005, Proceedings of the IEEE.

[20]  Donhee Ham,et al.  Nanotechnology: High-speed integrated nanowire circuits , 2005, Nature.

[21]  John A. Rogers,et al.  Bendable single crystal silicon thin film transistors formed by printing on plastic substrates , 2005 .

[22]  Chongwu Zhou,et al.  Detection of NO2 down to ppb levels using individual and multiple In2O3 nanowire devices , 2004 .

[23]  John A. Rogers,et al.  Fabricating semiconductor nano/microwires and transfer printing ordered arrays of them onto plastic substrates , 2004 .

[24]  P.M. Smith,et al.  High-performance TFTs fabricated on plastic substrates , 2004, IEEE Electron Device Letters.

[25]  N. Magan,et al.  Electronic noses and disease diagnostics , 2004, Nature Reviews Microbiology.

[26]  H. Dai,et al.  Carbon Nanotube Field-Effect Transistors with Integrated Ohmic Contacts and High-κ Gate Dielectrics , 2003, Nano Letters.

[27]  Xiangfeng Duan,et al.  High-performance thin-film transistors using semiconductor nanowires and nanoribbons , 2003, Nature.

[28]  Dongmok Whang,et al.  Large-scale hierarchical organization of nanowire arrays for integrated nanosystems , 2003 .

[29]  Younan Xia,et al.  Langmuir-Blodgett Silver Nanowire Monolayers for Molecular Sensing Using Surface-Enhanced Raman Spectroscopy , 2003 .

[30]  N. Melosh,et al.  Ultrahigh-Density Nanowire Lattices and Circuits , 2003, Science.

[31]  Qian Wang,et al.  Toward Large Arrays of Multiplex Functionalized Carbon Nanotube Sensors for Highly Sensitive and Selective Molecular Detection. , 2003, Nano letters.

[32]  Jose Maria Kenny,et al.  Sensors for sub-ppm NO2 gas detection based on carbon nanotube thin films , 2003 .

[33]  Shuichi Uchikoga,et al.  Low-Temperature Polycrystalline Silicon Thin-Film Transist or Technologies for System-on-Glass Displays , 2002 .

[34]  Jiann Shieh,et al.  WO3 and WTiO thin-film gas sensors prepared by sol–gel dip-coating , 2002 .

[35]  Dharam Pal Gosain,et al.  Excimer laser crystallized poly-Si TFTs on plastic substrates , 2002, International Symposium on Laser Precision Microfabrication.

[36]  G. Craig,et al.  Fluidic Self-Assembly of Semiconductor Devices: A Promising New Method of Mass-Producing Flexible Circuitry , 2001, Digest of Papers. Microprocesses and Nanotechnology 2001. 2001 International Microprocesses and Nanotechnology Conference (IEEE Cat. No.01EX468).

[37]  F. Solzbacher,et al.  Enhancement of NO2 sensing properties of In2O3-based thin films using an Au or Ti surface modification , 2001 .

[38]  C. Lieber,et al.  Nanowire Nanosensors for Highly Sensitive and Selective Detection of Biological and Chemical Species , 2001, Science.

[39]  Tatsuya Shimoda,et al.  Polysilicon TFT on plastics , 2001, IS&T/SPIE Electronic Imaging.

[40]  Jimmy Xu,et al.  Plastic electronics and future trends in microelectronics , 2000 .

[41]  Takashi Noguchi,et al.  High Mobility Thin Film Transistors Fabricated on a Plastic Substrate at a Processing Temperature of 110°C , 2000 .

[42]  K. Kano Semiconductor Devices , 1997 .

[43]  P. Hauptmann Sensors: A Comprehensive Survey , 1996 .

[44]  N. Lewis,et al.  A chemically diverse conducting polymer-based "electronic nose". , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[45]  John J. Mastrototaro,et al.  An electroenzymatic glucose sensor fabricated on a flexible substrate , 1991 .

[46]  S. Sze Semiconductor Devices: Physics and Technology , 1985 .

[47]  Sara D. Alvarez,et al.  Porous SiO2 interferometric biosensor for quantitative determination of protein interactions: binding of protein A to immunoglobulins derived from different species. , 2007, Analytical chemistry.

[48]  Charles M. Lieber,et al.  High Performance Silicon Nanowire Field Effect Transistors , 2003 .

[49]  Robert A. Street,et al.  Technology and Applications of Amorphous Silicon , 2000 .

[50]  P. Mei,et al.  Laser Crystallization for Polycrystalline Silicon Device Applications , 2000 .

[51]  Gerald Urban,et al.  Miniaturized multi-enzyme biosensors integrated with pH sensors on flexible polymer carriers for in vivo applications , 1992 .

[52]  S. Wolf,et al.  Silicon Processing for the VLSI Era , 1986 .