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====NanowireSensor : Integrateable Silicon Nanowire Sensor Platform====
@@{{image url="http://www.nano-tera.ch/images/uploads/61/nws.gif" title="text" alt="text"}}@@
====References about Nanowire Sensor:====
** EU-Funded project STEEPER: Prof Adrian Ionescu appointed coordinator of project** (Oct 2010)
Led by IBM and the Ecole Polytechnique Federale de Lausanne (or EPFL), STEEPER, the EU-funded project, will use nanotechnology in an attempt to reduce power consumption at the level of transistors and nanowires, with the ultimate goal being to reduce the operating voltage to less than 0.5 volts, thereby reducing overall power consumption by one order of magnitude.
====Conferences : ====
- **Prof. Janos Vörös**: Laboratory for Biosensors and Bioelectronics, **“Micro-nanotechnology for Biosensors and Bioelectronics” **
====What is NanowireSensor :====
Field-effect transistors made from semiconducting NANOWIRES (NWs) have a great potential as electronic BICHEMICAL-SENSORS if they can be integrated as an array in a CMOS-compatible architecture together with microfluidic channels and interfacing electronics. In addition to the expected high sensitivity and superior signal quality due to on-chip correlation analysis in time and space, such NW sensors could be mass manufactured at reasonable costs and readily integrated into electronic diagnostic devices to facilitate bed-site diagnostics and personalized medicine. Finally, their small size make them ideal candidate for future implanted sensing devices.
In this project we will develop a silicon nanowire-based field-effect transistor sensor platform which is applicable to label-free multiscale screening with full electronic processing and read-out capability due to silicon integration. We propose to work on nanowires etched directly into silicon (Si). This will be done along two directions: a) NWs formed by etching into SIO (Si-on-insulator) wafers and b) tri-gate body-tied nanowire structures obtained by a combination of oxidation and etching. We will start with the fabrication of single nanowires and small arrays of nanowires to characterize their electrical properties. The respective microelectronics unit will be developed in parallel, initially a two-chip solution will be pursued. In a second stage, we will extend the production of nanowires to a wafer-scale process while grouping the optimized nanowires in pixel units (arrays of wires). The NWs will be chemically functionalized. A particular emphasis will be laid on the selective functionalization of individual or groups of NWs. The sensing capability will be validated using (bio)chemically functionalized NWs to target a) environmental monitoring in air and solution, b) small molecule screening in model solutions and c) specific biomarkers with receptor-functionalized nanowires for biologically and/or medically relevant systems.
During the final phase of the project, arrays of NWs will be fabricated and tested as a biosensing platform. After validating the approach with conventional and well known biological agents (such as the biotin-avidin system), we will target a more specific medically and pharmacologically relevant system. This type of interaction was identified in the last decade, as the initial point for a vast number of biologically important processes and thus offers numerous opportunities for novel therapeutic interventions, e.g. in inflammatory diseases, neural regeneration or bacterial and viral infections.
====SEE ALSO: """"====
**[[http://www.nano-tera.ch/topdownbottomup/index.html Nano-Tera Top-Down Bottom-Up]]**
**[[HomePage NanoTeraWiki HomePage]]**
===Special Topics===
**[[Energy Energy]]**
**[[SensorNetwork Wireless Network Sensor]]**
**[[MicroFluidics Micro Fluidics]]**
**[[CarbonNanotube Carbon Nanotubes]]**
**[[GreenComputing Green Computing]]**
**[[BodyMonitoring Body Health Monitoring]]**
**[[Security Security]]**
----
[[CategoryWiki]]
@@{{image url="http://www.nano-tera.ch/images/uploads/61/nws.gif" title="text" alt="text"}}@@
====References about Nanowire Sensor:====
** EU-Funded project STEEPER: Prof Adrian Ionescu appointed coordinator of project** (Oct 2010)
Led by IBM and the Ecole Polytechnique Federale de Lausanne (or EPFL), STEEPER, the EU-funded project, will use nanotechnology in an attempt to reduce power consumption at the level of transistors and nanowires, with the ultimate goal being to reduce the operating voltage to less than 0.5 volts, thereby reducing overall power consumption by one order of magnitude.
====Conferences : ====
- **Prof. Janos Vörös**: Laboratory for Biosensors and Bioelectronics, **“Micro-nanotechnology for Biosensors and Bioelectronics” **
====What is NanowireSensor :====
Field-effect transistors made from semiconducting NANOWIRES (NWs) have a great potential as electronic BICHEMICAL-SENSORS if they can be integrated as an array in a CMOS-compatible architecture together with microfluidic channels and interfacing electronics. In addition to the expected high sensitivity and superior signal quality due to on-chip correlation analysis in time and space, such NW sensors could be mass manufactured at reasonable costs and readily integrated into electronic diagnostic devices to facilitate bed-site diagnostics and personalized medicine. Finally, their small size make them ideal candidate for future implanted sensing devices.
In this project we will develop a silicon nanowire-based field-effect transistor sensor platform which is applicable to label-free multiscale screening with full electronic processing and read-out capability due to silicon integration. We propose to work on nanowires etched directly into silicon (Si). This will be done along two directions: a) NWs formed by etching into SIO (Si-on-insulator) wafers and b) tri-gate body-tied nanowire structures obtained by a combination of oxidation and etching. We will start with the fabrication of single nanowires and small arrays of nanowires to characterize their electrical properties. The respective microelectronics unit will be developed in parallel, initially a two-chip solution will be pursued. In a second stage, we will extend the production of nanowires to a wafer-scale process while grouping the optimized nanowires in pixel units (arrays of wires). The NWs will be chemically functionalized. A particular emphasis will be laid on the selective functionalization of individual or groups of NWs. The sensing capability will be validated using (bio)chemically functionalized NWs to target a) environmental monitoring in air and solution, b) small molecule screening in model solutions and c) specific biomarkers with receptor-functionalized nanowires for biologically and/or medically relevant systems.
During the final phase of the project, arrays of NWs will be fabricated and tested as a biosensing platform. After validating the approach with conventional and well known biological agents (such as the biotin-avidin system), we will target a more specific medically and pharmacologically relevant system. This type of interaction was identified in the last decade, as the initial point for a vast number of biologically important processes and thus offers numerous opportunities for novel therapeutic interventions, e.g. in inflammatory diseases, neural regeneration or bacterial and viral infections.
====SEE ALSO: """"====
**[[http://www.nano-tera.ch/topdownbottomup/index.html Nano-Tera Top-Down Bottom-Up]]**
**[[HomePage NanoTeraWiki HomePage]]**
===Special Topics===
**[[Energy Energy]]**
**[[SensorNetwork Wireless Network Sensor]]**
**[[MicroFluidics Micro Fluidics]]**
**[[CarbonNanotube Carbon Nanotubes]]**
**[[GreenComputing Green Computing]]**
**[[BodyMonitoring Body Health Monitoring]]**
**[[Security Security]]**
----
[[CategoryWiki]]
Deletions:
[[http://www.camnews.org/social/pg/blog/bbkkzzpp daggggdfg]]
[[http://www.iut-tlse3.fr/moodle/moot/user/view.php?id=529&course=1 aaaaaadfg]]
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[[http://www.camnews.org/social/pg/blog/bbkkzzpp daggggdfg]]
[[http://www.iut-tlse3.fr/moodle/moot/user/view.php?id=529&course=1 aaaaaadfg]]
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[[http://www.camnews.org/social/pg/blog/bbkkzzpp daggggdfg]]
[[http://www.iut-tlse3.fr/moodle/moot/user/view.php?id=529&course=1 aaaaaadfg]]
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[[http://lnx.nicola-spinelli.com/moodle/user/view.php?id=4914&course=1 daaaaaaaaaaadfg]]
[[http://dl.kture.kharkov.ua/user/view.php?id=8135&course=1 gggggffffsfgdfg]]
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@@{{image url="http://www.nano-tera.ch/images/uploads/61/nws.gif" title="text" alt="text"}}@@
====References about Nanowire Sensor:====
** EU-Funded project STEEPER: Prof Adrian Ionescu appointed coordinator of project** (Oct 2010)
Led by IBM and the Ecole Polytechnique Federale de Lausanne (or EPFL), STEEPER, the EU-funded project, will use nanotechnology in an attempt to reduce power consumption at the level of transistors and nanowires, with the ultimate goal being to reduce the operating voltage to less than 0.5 volts, thereby reducing overall power consumption by one order of magnitude.
====Conferences : ====
- **Prof. Janos Vörös**: Laboratory for Biosensors and Bioelectronics, **“Micro-nanotechnology for Biosensors and Bioelectronics” **
====What is NanowireSensor :====
Field-effect transistors made from semiconducting NANOWIRES (NWs) have a great potential as electronic BICHEMICAL-SENSORS if they can be integrated as an array in a CMOS-compatible architecture together with microfluidic channels and interfacing electronics. In addition to the expected high sensitivity and superior signal quality due to on-chip correlation analysis in time and space, such NW sensors could be mass manufactured at reasonable costs and readily integrated into electronic diagnostic devices to facilitate bed-site diagnostics and personalized medicine. Finally, their small size make them ideal candidate for future implanted sensing devices.
In this project we will develop a silicon nanowire-based field-effect transistor sensor platform which is applicable to label-free multiscale screening with full electronic processing and read-out capability due to silicon integration. We propose to work on nanowires etched directly into silicon (Si). This will be done along two directions: a) NWs formed by etching into SIO (Si-on-insulator) wafers and b) tri-gate body-tied nanowire structures obtained by a combination of oxidation and etching. We will start with the fabrication of single nanowires and small arrays of nanowires to characterize their electrical properties. The respective microelectronics unit will be developed in parallel, initially a two-chip solution will be pursued. In a second stage, we will extend the production of nanowires to a wafer-scale process while grouping the optimized nanowires in pixel units (arrays of wires). The NWs will be chemically functionalized. A particular emphasis will be laid on the selective functionalization of individual or groups of NWs. The sensing capability will be validated using (bio)chemically functionalized NWs to target a) environmental monitoring in air and solution, b) small molecule screening in model solutions and c) specific biomarkers with receptor-functionalized nanowires for biologically and/or medically relevant systems.
During the final phase of the project, arrays of NWs will be fabricated and tested as a biosensing platform. After validating the approach with conventional and well known biological agents (such as the biotin-avidin system), we will target a more specific medically and pharmacologically relevant system. This type of interaction was identified in the last decade, as the initial point for a vast number of biologically important processes and thus offers numerous opportunities for novel therapeutic interventions, e.g. in inflammatory diseases, neural regeneration or bacterial and viral infections.
====SEE ALSO: """"====
**[[http://www.nano-tera.ch/topdownbottomup/index.html Nano-Tera Top-Down Bottom-Up]]**
**[[HomePage NanoTeraWiki HomePage]]**
===Special Topics===
**[[Energy Energy]]**
**[[SensorNetwork Wireless Network Sensor]]**
**[[MicroFluidics Micro Fluidics]]**
**[[CarbonNanotube Carbon Nanotubes]]**
**[[GreenComputing Green Computing]]**
**[[BodyMonitoring Body Health Monitoring]]**
**[[Security Security]]**
----
[[CategoryWiki]]
Deletions:
Revision [4021]
Edited on 2011-05-01 11:38:17 by WikiAdmingtonAdditions:
In this project we will develop a silicon nanowire-based field-effect transistor sensor platform which is applicable to label-free multiscale screening with full electronic processing and read-out capability due to silicon integration. We propose to work on nanowires etched directly into silicon (Si). This will be done along two directions: a) NWs formed by etching into SIO (Si-on-insulator) wafers and b) tri-gate body-tied nanowire structures obtained by a combination of oxidation and etching. We will start with the fabrication of single nanowires and small arrays of nanowires to characterize their electrical properties. The respective microelectronics unit will be developed in parallel, initially a two-chip solution will be pursued. In a second stage, we will extend the production of nanowires to a wafer-scale process while grouping the optimized nanowires in pixel units (arrays of wires). The NWs will be chemically functionalized. A particular emphasis will be laid on the selective functionalization of individual or groups of NWs. The sensing capability will be validated using (bio)chemically functionalized NWs to target a) environmental monitoring in air and solution, b) small molecule screening in model solutions and c) specific biomarkers with receptor-functionalized nanowires for biologically and/or medically relevant systems.
**[[http://jwh250.blogspot.com/2011/04/jwh-250.html JWH низкие цены]]**
**[[http://jwh250.blogspot.com/2011/04/jwh-250.html JWH низкие цены]]**
Deletions:
- [[http://www.gizmag.com/steeper-project-for-energy-efficient-electronics/16737/ Gizmag: Steeper project hopes to make electronic devices more energy efficient ]]**
**[[http://www.industryday.ethz.ch/1_home_e.html 3rd Industry Day of the Micro and Nano Science Platform of ETHZ]]:**
In this project we will develop a silicon nanowire-based field-effect transistor sensor platform which is applicable to label-free multiscale screening with full electronic processing and read-out capability due to silicon integration. We propose to work on nanowires etched directly into silicon (Si). This will be done along two directions: a) NWs formed by etching into SIO (Si-on-insulator) wafers and b) tri-gate body-tied [[http://en.wikipedia.org/wiki/Nanowire Nanowire]]nanowire structures obtained by a combination of oxidation and etching. We will start with the fabrication of single nanowires and small arrays of nanowires to characterize their electrical properties. The respective microelectronics unit will be developed in parallel, initially a two-chip solution will be pursued. In a second stage, we will extend the production of nanowires to a wafer-scale process while grouping the optimized nanowires in pixel units (arrays of wires). The NWs will be chemically functionalized. A particular emphasis will be laid on the selective functionalization of individual or groups of NWs. The sensing capability will be validated using (bio)chemically functionalized NWs to target a) environmental monitoring in air and solution, b) small molecule screening in model solutions and c) specific biomarkers with receptor-functionalized nanowires for biologically and/or medically relevant systems.
Revision [3279]
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====NanowireSensor : Integrateable Silicon Nanowire Sensor Platform====
Deletions:
Revision [3278]
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====References about Nanowire Sensor:====
Revision [3277]
Edited on 2010-11-09 16:53:36 by LeonoreGolayAdditions:
** EU-Funded project STEEPER: Prof Adrian Ionescu appointed coordinator of project** (Oct 2010)
Led by IBM and the Ecole Polytechnique Federale de Lausanne (or EPFL), STEEPER, the EU-funded project, will use nanotechnology in an attempt to reduce power consumption at the level of transistors and nanowires, with the ultimate goal being to reduce the operating voltage to less than 0.5 volts, thereby reducing overall power consumption by one order of magnitude.
**- [[http://actu.epfl.ch/news/des-appareils-moins-gourmands/ EPFL News: Energy saving devices]]
- [[http://www.gizmag.com/steeper-project-for-energy-efficient-electronics/16737/ Gizmag: Steeper project hopes to make electronic devices more energy efficient ]]**
Led by IBM and the Ecole Polytechnique Federale de Lausanne (or EPFL), STEEPER, the EU-funded project, will use nanotechnology in an attempt to reduce power consumption at the level of transistors and nanowires, with the ultimate goal being to reduce the operating voltage to less than 0.5 volts, thereby reducing overall power consumption by one order of magnitude.
**- [[http://actu.epfl.ch/news/des-appareils-moins-gourmands/ EPFL News: Energy saving devices]]
- [[http://www.gizmag.com/steeper-project-for-energy-efficient-electronics/16737/ Gizmag: Steeper project hopes to make electronic devices more energy efficient ]]**
Revision [3096]
Edited on 2010-09-23 15:36:55 by LeonoreGolayAdditions:
- **Prof. Janos Vörös**: Laboratory for Biosensors and Bioelectronics, **“Micro-nanotechnology for Biosensors and Bioelectronics” **
Deletions:
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@@{{image url="http://www.nano-tera.ch/images/uploads/61/nws.gif" title="text" alt="text"}}@@
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Field-effect transistors made from semiconducting NANOWIRES (NWs) have a great potential as electronic BICHEMICAL-SENSORS if they can be integrated as an array in a CMOS-compatible architecture together with microfluidic channels and interfacing electronics. In addition to the expected high sensitivity and superior signal quality due to on-chip correlation analysis in time and space, such NW sensors could be mass manufactured at reasonable costs and readily integrated into electronic diagnostic devices to facilitate bed-site diagnostics and personalized medicine. Finally, their small size make them ideal candidate for future implanted sensing devices.
Deletions:
Revision [3093]
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====NANOWIRE SENSOR : Integrateable Silicon Nanowire Sensor Platform====
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====NANOWIRE SENSOR : Integrateable Silicon Nanowire Sensor Platform=====
@@{{image url="http://www.nano-tera.ch/images/uploads/61/nws.giff" title="text" alt="text"}}@@
====Conferences : ====
**[[http://www.industryday.ethz.ch/1_home_e.html 3rd Industry Day of the Micro and Nano Science Platform of ETHZ]]:**
- **Prof. Bradley Nelson**: Institute of Robotics and Intelligent Systems, **"Microrobotics and its Market Potential"**
====What is NanowireSensor :====
====SEE ALSO: """"====
===Special Topics===
**[[Energy Energy]]**
**[[SensorNetwork Wireless Network Sensor]]**
**[[MicroFluidics Micro Fluidics]]**
**[[CarbonNanotube Carbon Nanotubes]]**
**[[GreenComputing Green Computing]]**
**[[BodyMonitoring Body Health Monitoring]]**
**[[Security Security]]**
@@{{image url="http://www.nano-tera.ch/images/uploads/61/nws.giff" title="text" alt="text"}}@@
====Conferences : ====
**[[http://www.industryday.ethz.ch/1_home_e.html 3rd Industry Day of the Micro and Nano Science Platform of ETHZ]]:**
- **Prof. Bradley Nelson**: Institute of Robotics and Intelligent Systems, **"Microrobotics and its Market Potential"**
====What is NanowireSensor :====
====SEE ALSO: """"====
===Special Topics===
**[[Energy Energy]]**
**[[SensorNetwork Wireless Network Sensor]]**
**[[MicroFluidics Micro Fluidics]]**
**[[CarbonNanotube Carbon Nanotubes]]**
**[[GreenComputing Green Computing]]**
**[[BodyMonitoring Body Health Monitoring]]**
**[[Security Security]]**
Deletions:
=====Integrateable Silicon Nanowire Sensor Platform=====
""
**======{{color text=" See Also:" c="#000000"}}======**
Revision [2576]
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====NANOWIRE SENSOR====
=====Integrateable Silicon Nanowire Sensor Platform=====
=====Integrateable Silicon Nanowire Sensor Platform=====
Deletions:
Revision [2188]
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**======{{color text=" See Also:" c="#000000"}}======**
**[[http://www.nano-tera.ch/topdownbottomup/index.html Nano-Tera Top-Down Bottom-Up]]**
**[[HomePage NanoTeraWiki HomePage]]**
**[[http://www.nano-tera.ch/topdownbottomup/index.html Nano-Tera Top-Down Bottom-Up]]**
**[[HomePage NanoTeraWiki HomePage]]**
