Optical system designs based on bi-directional sensor devices

Großmann, Constanze; Gawronski, Ute; Perske, Franziska; Notni, Gunther; Tünnermann, Andreas

doi:10.1117/12.928838

Cited by 3 publications

(2 citation statements)

References 15 publications

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“…На основі OLED також розроблено та впроваджено у виробництво низка ефективних оптичних, хімічних і біологічних сенсорів [16], [17]. OLED фіксують в цих пристроях і не використовують їхню природню відповідність.…”

Section: A датчики тиску на оледunclassified

Microminiature Pressure Sensors Based on Diode Structures

Klymenko

Semikina

2023

Microsyst., Electron. & Acoust.

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The paper analyzes modern microminiature pressure sensors made on various diode structures, in particular on organic light-emitting diodes, field-effect transistors, photovoltaic elements and multi-circuit piezoresistive sensors. The possible areas of application of such sensors, their main advantages and disadvantages are shown. The study of 4 groups of samples of diode heterostructures based on CdS / ZnS / CuS / CdTe was carried out and the perspective of using pressure sensors based on these materials as an analogue of existing semiconductor devices was shown. On the basis of experimental studies with the application of pressure, twisting and illumination, it is substantiated that these structures are piezoelectric. The complete technological process of the step-by-step creation of these structures is presented. The obtained structures were analyzed: structural diagrams, current-voltage and piezoelectric characteristics in comparison with the characteristics of other piezoelectric materials are given. Possible areas of application of such structures are described. The provided design schemes and parameters of the obtained diode structures may be of interest to a wide range of specialists in the field of sensor technology and automation of various technological processes of microelectronic equipment manufacturing. It is shown that by changing the sensor manufacturing technologies and the concentration of chemical elements in the obtained films, it is possible to change the sensitivity of the sensor and the dynamic range of its operation, adapting the sensor parameters to the field of its application in the relevant measuring electronic equipment and pressure control systems.

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Section: A датчики тиску на оледunclassified

Microminiature Pressure Sensors Based on Diode Structures

Klymenko

Semikina

2023

Microsyst., Electron. & Acoust.

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“…They rarely include an optoelectronic component, except for a few exceptions. A number of optical chemical and biological sensors have successfully integrated OLEDs [13][14][15][16][17][18][19]. The OLED is fixed in these devices and do not exploit their innate compliance, and, as of to date, they have not been implemented as a mechanical sensor, except as a light source in flexible waveguides acting as pressure sensors [20,21].…”

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confidence: 99%

Light-modulating pressure sensor with integrated flexible organic light-emitting diode

2014

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Organic light-emitting diodes (OLEDs) are used almost exclusively for display purposes. Even when implemented as a sensing component, it is rarely in a manner that exploits the possible compliance of the OLED. Here it is shown that OLEDs can be integrated into compliant mechanical micro-devices making a new range of applications possible. A light-modulating pressure sensor is considered, whereby the OLED is integrated with a silicon membrane. It is shown that such devices have potential and advantages over current measurement techniques. An analytical model has been developed that calculates the response of the device. Ray tracing numerical simulations verify the theory and show that the design can be optimized to maximize the resolution of the sensor.

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