Darby B. Makel scite author profile

Darby B. Makel

4Publications

118Citation Statements Received

16Citation Statements Given

How they've been cited

117

How they cite others

Affiliations

Makel Engineering (United States), University of California, Davis, GenCorp (United States)

Publications

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Development of SiC-based Gas Sensors for Aerospace Applications

Hunter

Neudeck

et al. 2004

MRS Proc.

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Silicon carbide (SiC) based gas sensors have the ability to meet the needs of a range of aerospace applications including leak detection, environmental control, emission monitoring, and fire detection. While each of these applications require that the sensor and associated packaging be tailored for that individual application, they all require sensitive detection. The sensing approach taken to meet these needs is the use of SiC as a semiconductor in a Schottky diode configuration due to the demonstrated high sensitivity of Schottky diode-based sensors. However, Schottky diode structures require good control of the interface between the gas sensitive metal and SiC in order to meet required levels of sensitivity and stability. Two examples of effort to better control the SiC gas sensitive Schottky diode interface will be discussed. First, the use of chrome carbide as a barrier layer between the metal and SiC is discussed. Second, we report the first use of atomically flat SiC to provide an improved SiC semiconductor surface for gas sensor deposition. An example of the demonstration of a SiC gas sensor in an aerospace applications is given. It is concluded that, while significant progress has been made, the development of SiC gas sensor systems is still at a relatively early level of maturity for a number of applications.

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Case Studies in Chemical Sensor Development

Hunter

Xu²,

Makel³

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Microfabricated Chemical Sensors for Aerospace Applications

Hunter¹,

Liu²,

Makel³

2001

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Intelligent Chemical Sensor Systems for In-Space Safety Applications

Hunter

Neudeck

et al. 2006

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Future in-space and lunar operations will require significantly improved monitoring and Integrated System Health Management (ISHM) throughout the mission. In particular, the monitoring of chemical species is an important component of an overall monitoring system for space vehicles and operations. For example, in leak monitoring of propulsion systems during launch, inspace, and on lunar surfaces, detection of low concentrations of hydrogen and other fuels is important to avoid explosive conditions that could harm personnel and damage the vehicle. Dependable vehicle operation also depends on the timely and accurate measurement of these leaks. Thus, the development of a sensor array to determine the concentration of fuels such as hydrogen, hydrocarbons, or hydrazine as well as oxygen is necessary. Work has been on-going to develop an integrated smart leak detection system based on miniaturized sensors to detect hydrogen, hydrocarbons, or hydrazine, and oxygen. The approach is to implement Microelectromechanical Systems (MEMS) based sensors incorporated with signal conditioning electronics, power, data storage, and telemetry enabling intelligent systems. The final sensor system will be self-contained with a surface area comparable to a postage stamp. This paper discusses the development of this "Lick and Stick" leak detection system and it's application to In-Space Transportation and other Exploration applications.

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Darby B. Makel

Development of SiC-based Gas Sensors for Aerospace Applications

Case Studies in Chemical Sensor Development

Microfabricated Chemical Sensors for Aerospace Applications

Intelligent Chemical Sensor Systems for In-Space Safety Applications

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