Refine
Year of publication
Document Type
- Article (155)
- Conference Proceeding (20)
- Part of a Book (9)
- Book (1)
Language
- English (185) (remove)
Keywords
- Field-effect sensor (3)
- Label-free detection (3)
- Biosensor (2)
- Capacitive field-effect sensor (2)
- LAPS (2)
- Tobacco mosaic virus (TMV) (2)
- tobacco mosaic virus (TMV) (2)
- (Bio)degradation (1)
- Biomolecular logic gate (1)
- Biosensorik (1)
- CNOT (1)
- Capacitive field-effect (1)
- Capacitive model (1)
- Chemical imaging (1)
- Coat protein (1)
- C–V method (1)
- DNA (1)
- DNA biosensor (1)
- DNA hybridization (1)
- Electrolyte–insulator–semiconductor (1)
- Enzyme biosensor (1)
- Enzyme coverage (1)
- Enzyme logic gate (1)
- Enzyme nanocarrier (1)
- Field effect (1)
- Field-effect biosensor (1)
- Field-effect device (1)
- Glucose biosensor (1)
- Glucose oxidase (1)
- Gold nanoparticle (1)
- Gold nanoparticles (1)
- ISFET (1)
- Impedance spectroscopy (1)
- Layer-by-layer adsorption (1)
- Light-addressable potentiometric sensor (1)
- Multianalyte detection (1)
- Multicell (1)
- Multiplexing (1)
- Nanostructuring (1)
- Penicillin (1)
- Plant virus (1)
- Poly(allylamine hydrochloride) (1)
- Poly(d,l-lacticacid) (1)
- Potentiometry (1)
- Real-time monitoring (1)
- TMV adsorption (1)
- Ta₂O₅ gate (1)
- Tobacco mosaic virus (1)
- Wafer (1)
- XOR (1)
- Zeta potential (1)
- acetoin (1)
- atomic layer deposition (1)
- barium strontium titanate (1)
- biosensor (1)
- capacitive field-effect biosensor (1)
- capacitive field-effect sensor (1)
- capacitive field-effect sensors (1)
- capillary micro-droplet cell (1)
- contactless conductivity sensor (1)
- enzymatic (bio)degradation (1)
- enzyme cascade (1)
- enzyme immobilization (1)
- field-effect sensor (1)
- glucose oxidase (GOx) (1)
- high-k material (1)
- horseradish peroxidase (HRP) (1)
- hydrogen peroxide (1)
- impedance spectroscopy (1)
- in-situ monitoring (1)
- lable-free detection (1)
- layer expansion (1)
- multi-functional material (1)
- pH sensors (1)
- pattern-size reduction (1)
- plant virus detection (1)
- poly(d, l-lactic acid) (1)
- self-aligned patterning (1)
- turnip vein clearing virus (TVCV) (1)
- ultrathin gate insulators (1)
- wafer-level testing (1)
Institute
- Fachbereich Medizintechnik und Technomathematik (185) (remove)
Penicillin detection by means of field-effect based sensors: EnFET, capacitive EIS sensor or LAPS?
(2000)
Novel concepts for flow-rate and flow-direction determination by means of pH-sensitive ISFETs
(2001)
An ISFET-based penicillin sensor with high sensitivity, low detection limit and long lifetime
(2001)
Penicillin detection by means of field-effect based sensors: EnFET, capacitive EIS sensor or LAPS?
(2001)
Application of a (bio-)chemical sensor (ISFET) for the detection of physical parameters in liquids
(2003)
Functional testing and characterisation of ISFETs on wafer level by means of a micro-droplet cell
(2006)
A wafer-level functionality testing and characterisation system for ISFETs (ionsensitive field-effect transistor) is realised by means of integration of a specifically designed capillary electrochemical micro-droplet cell into a commercial wafer prober-station. The developed system allows the identification and selection of “good” ISFETs at the earliest stage and to avoid expensive bonding, encapsulation and packaging processes for nonfunctioning ISFETs and thus, to decrease costs, which are wasted for bad dies. The developed system is also feasible for wafer-level characterisation of ISFETs in terms of sensitivity, hysteresis and response time. Additionally, the system might be also utilised for wafer-level testing of further electrochemical sensors.
A new and simple method for nanostructuring using conventional photolithography and layer expansion or pattern-size reduction technique is presented, which can further be applied for the fabrication of different nanostructures and nano-devices. The method is based on the conversion of a photolithographically patterned metal layer to a metal-oxide mask with improved pattern-size resolution using thermal oxidation. With this technique, the pattern size can be scaled down to several nanometer dimensions. The proposed method is experimentally demonstrated by preparing nanostructures with different configurations and layouts, like circles, rectangles, trapezoids, “fluidic-channel”-, “cantilever”- and meander-type structures.
Handheld measurement device for field-effect sensor structures: Practical evaluation and limitations
(2007)
Optoelectronic Properties of Nanostructured Ensembles Controlled by Biomolecular Logic Systems
(2008)
Sensing charged macromolecules with nanocrystalline diamond-based field-effect capacitive sensors
(2008)
Layer-by-Layer Assembly of Carbon Nanotubes Incorporated in Light-Addressable Potentiometric Sensors
(2009)