A hydrogen sensor is a gas detector that detects the presence of hydrogen. They contain micro-fabricated point-contact hydrogen

sensor A sensor is a device that produces an output signal for the purpose of sensing a physical phenomenon. In the broadest definition, a sensor is a device, module, machine, or subsystem that detects events or changes in its environment and sends ...

s and are used to locate hydrogen leaks. They are considered low-cost, compact, durable, and easy to maintain as compared to conventional gas detecting instruments.

Key issues

There are five key issues with hydrogen detectors: * Reliability: Functionality should be easily verifiable. *

Performance A performance is an act of staging or presenting a play, concert, or other form of entertainment. It is also defined as the action or process of carrying out or accomplishing an action, task, or function. Management science In the work place ...

: Detection 0.5% hydrogen in air or better *

Response time Response time may refer to: *The time lag between an electronic input and the output signal which depends upon the value of passive components used. *Responsiveness, how quickly an interactive system responds to user input *Response time (biology) ...

< 1 second. *

Lifetime Lifetime may refer to: * Life expectancy, the length of time a person is expected to remain alive Arts, entertainment, and media Music * Lifetime (band), a rock band from New Jersey * ''Life Time'' (Rollins Band album), by Rollins Band * ...

: At least the time between scheduled maintenance. * Cost: Goal is $5 per sensor and $30 per controller.

Additional requirements

* Measurement range coverage of 0.1–10.0% concentration * Operation in temperatures of −30 °C to 80 °C * Accuracy within 5% of full scale * Function in an ambient air gas environment within a 10–98% relative humidity range * Resistance to hydrocarbon and other interference. * Lifetime greater than 10 years

Types of microsensors

There are various types of hydrogen microsensors, which use different mechanisms to detect the gas. Palladium is used in many of these, because it selectively absorbs hydrogen gas and forms the compound palladium hydride. Palladium-based sensors have a strong temperature dependence which makes their response time too large at very low temperatures. Palladium sensors have to be protected against carbon monoxide,

sulfur dioxide Sulfur dioxide (IUPAC-recommended spelling) or sulphur dioxide (traditional Commonwealth English) is the chemical compound with the formula . It is a toxic gas responsible for the odor of burnt matches. It is released naturally by volcanic activ ...

and

hydrogen sulfide Hydrogen sulfide is a chemical compound with the formula . It is a colorless chalcogen-hydride gas, and is poisonous, corrosive, and flammable, with trace amounts in ambient atmosphere having a characteristic foul odor of rotten eggs. The unde ...

Optical fibre hydrogen sensors

Several types of

optical fibre An optical fiber, or optical fibre in Commonwealth English, is a flexible, transparent fiber made by drawing glass (silica) or plastic to a diameter slightly thicker than that of a human hair. Optical fibers are used most often as a means to ...

surface plasmon resonance (SPR) sensor are used for the point-contact detection of hydrogen: *

Fiber Bragg grating A fiber Bragg grating (FBG) is a type of distributed Bragg reflector constructed in a short segment of optical fiber that reflects particular wavelengths of light and transmits all others. This is achieved by creating a periodic variation in th ...

coated with a palladium layer – Detects the hydrogen by metal hindrance. *Micromirror – With a palladium thin layer at the cleaved end, detecting changes in the backreflected light. *Tapered fibre coated with palladium – Hydrogen changes the refractive index of the palladium, and consequently the amount of losses in the

evanescent wave In electromagnetics, an evanescent field, or evanescent wave, is an oscillating electric and/or magnetic field that does not propagate as an electromagnetic wave but whose energy is spatially concentrated in the vicinity of the source (oscillati ...

Other types

*Electrochemical hydrogen sensor – low (ppm) levels of hydrogen gas can be sensed using electrochemical sensors which comprise an array of electrodes packaged so as to be surrounded by a conductive electrolyte and gas ingress controlled with a diffusion limited capillary. *MEMS hydrogen sensor – The combination of

nanotechnology Nanotechnology, also shortened to nanotech, is the use of matter on an atomic, molecular, and supramolecular scale for industrial purposes. The earliest, widespread description of nanotechnology referred to the particular technological goal o ...

and

microelectromechanical systems Microelectromechanical systems (MEMS), also written as micro-electro-mechanical systems (or microelectronic and microelectromechanical systems) and the related micromechatronics and microsystems constitute the technology of microscopic devices, ...

(MEMS) technology allows the production of a hydrogen microsensor that functions properly at room temperature. One type of MEMS-based hydrogen sensor is coated with a film consisting of nanostructured indium oxide (In₂O₃) and tin oxide (SnO₂). A typical configuration for mechanical Pd-based hydrogen sensors is the usage of a free-standing cantilever that is coated with Pd. In the presence of H₂, the Pd layer expands and thereby induces a stress that causes the cantilever to bend. Pd-coated

nanomechanical resonator A nanomechanical resonator is a nanoelectromechanical systems ultra-small resonator that oscillates at a specific frequency depending on its mass and stiffness. See also *Quartz crystal microbalance *Atomic force microscopy Atomic force micros ...

s have also been reported in literature, relying on the stress-induced mechanical resonance frequency shift caused by the presence of H₂ gas. In this case, the response speed was enhanced through the use of a very thin layer of Pd (20 nm). Moderate heating was presented as a solution to the response impairment observed in humid conditions. *Thin film sensor – A palladium thin film sensor is based on an opposing property that depends on the nanoscale structures within the thin film. In the thin film, nanosized palladium particles swell when the hydride is formed, and in the process of expanding, some of them form new electrical connections with their neighbors. The resistance decreases because of the increased number of conducting pathways. *Thick film sensors – devices usually having two principal components:1) a thick (hundreds of microns) layer of some semiconductor material (SnO₂, In₂O₃), called "matrix" and an upper layer of catalytically active additives like noble metals (Pd, Pt) and metal oxides (Co_xO_y) accelerating the hydrogen oxidation reaction on the surface, which makes the sensor response much faster. The role of "matrix" is to transduce the signal to the measurement system. Thick film sensors are more stable than thin film sensors in terms of signal drifting, but generally exhibit slower sensor response due to diffusion constraints into a thick layer. Thick film sensor technology is getting substituted by thin film approaches due to the increasing need for sensor integration into modern electronic systems. Thick film sensors require increased temperatures for their operation and therefore appear to be poorly compatible with digital electronics systems. *Chemochromic hydrogen sensors – Reversible and irreversible chemochromic hydrogen sensors include a smart pigment paint that visually identifies hydrogen leaks by a change in color. The sensor is also available as tape. Other methods have been developed to assay biological hydrogen production. *Diode based Schottky sensor – A Schottky diode-based hydrogen gas sensor employs a palladium-alloy

gate A gate or gateway is a point of entry to or from a space enclosed by walls. The word derived from old Norse "gat" meaning road or path; But other terms include ''yett and port''. The concept originally referred to the gap or hole in the wall ...

. Hydrogen can be selectively absorbed in the gate, lowering the

Schottky energy barrier Notable people named Schottky include: * Ernst Max Schottky, botanist * Walter H. Schottky, physicist * Friedrich Schottky, mathematician Other links: * Schottky diode and Schottky barrier in electronics and physics * Schottky transistor in electr ...

. A Pd/ InGaP metal-semiconductor (MS) Schottky diode can detect a concentration of 15 parts per million (ppm) H₂ in air. Silicon carbide semiconductor or silicon substrates are used. *Metallic La- Mg2- Ni which is electrical conductive, absorbs hydrogen near ambient conditions, forming the nonmetallic hydride LaMg2NiH7 an insulator. Sensors are typically calibrated at the manufacturing factory and are valid for the service life of the unit.

Enhancement

Siloxane enhances the sensitivity and reaction time of hydrogen sensors. Detection of hydrogen levels as low as 25 ppm can be achieved; far below hydrogen's

lower explosive limit Mixtures of dispersed combustible materials (such as gaseous or vaporised fuels, and some dusts) and oxygen in the air will burn only if the fuel concentration lies within well-defined lower and upper bounds determined experimentally, referred to a ...

of around 40,000 ppm.

References

External links

Hydrogen sensing and detection Nanoparticle-Integrated MicrosensorFibre gratings for hydrogen sensingBragg type optic fibre sensorEU sensor sheetEERE success story H2scan2010-NCKU-Semiconductor transistor-type hydrogen sensorArgonne National Laboratory (Thin Film)Roads2HyCom
{{DEFAULTSORT:Hydrogen Sensor Sensors Hydrogen technologies Nanoelectronics Microtechnology