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42 results on '"Kulse, P."'

1. Sustainable steel through hydrogen plasma reduction of iron ore: process, kinetics, microstructure, chemistry

Author

Filho, I. R. Souza, Ma, Y., Kulse, M., Ponge, D., Gault, B., Springer, H., and Raabe, D.

Subjects
Condensed Matter - Materials Science
Abstract

Fe- and steelmaking is the largest single industrial CO2 emitter, accounting for 6.5% of all CO2 emissions on the planet. This fact challenges the current technologies to achieve carbon-lean steel production and to align with the requirement of a drastic reduction of 80% in all CO2 emissions by around 2050. Thus, alternative reduction technologies have to be implemented for extracting iron from its ores. The H-based direct reduction has been explored as a sustainable route to mitigate CO2 emissions, where the reduction kinetics of the intermediate oxide product FexO wustite into Fe is the rate-limiting step of the process. The total reaction has an endothermic net energy balance. Reduction based on a H plasma may offer an attractive alternative. Here, we present a study about the reduction of hematite using H plasma. The evolution of both, chemical composition and phase transformations was investigated in several intermediate states. We found that hematite reduction kinetics depends on the balance between the initial input mass and the arc power. For an optimized input mass-arc power ratio, complete reduction was obtained within 15 min of exposure to the H plasma. The wustite reduction is also the rate-limiting step towards complete reduction. Nonetheless, the reduction reaction is exothermic, and its rates are comparable with those found in H-based direct reduction. Chemical and microstructure analysis revealed that the gangue elements partition to the remaining oxide regions, probed by energy dispersive spectroscopy and atom probe tomography. Si-enrichment was observed in the interdendritic fayalite domains, at the wustite/Fe hetero-interfaces and in the primarily solidified oxide particles inside the Fe. With proceeding reduction, however, such elements are gradually removed from the samples so that the final iron product is nearly free of gangue-related impurities.

Published
2022
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2. Green steel at its crossroads: hybrid hydrogen-based reduction of iron ores

Author

Filho1, Isnaldi R. Souza, Springer, Hauke, Ma, Yan, Mahajan, Ankita, da Silva, Cauê C., Kulse, Michael, and Raabe, Dierk

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Iron- and steelmaking cause ~7% of the global CO2 emissions, due to the use of carbon for the reduction of iron ores. Replacing carbon by hydrogen as the reductant offers a pathway to reduce emissions. However, production of hydrogen using renewable energy will remain a bottlenecks, because making the annual crude steel production of 1.8 billion tons sustainable requires a minimum amount of ~97 million tons of green hydrogen per year. Another fundamental aspect to make ironmaking sector more sustainable lies in an optimal utilization of green hydrogen and energy, thus reducing efforts for costly in-process hydrogen recycling. We therefore demonstrate here how the efficiency in hydrogen and energy consumption during iron ore reduction can be dramatically improved by the knowledge-based combination of two technologies: partially reducing the ore at low temperature via solid-state direct reduction (DR) to a kinetically defined degree, and subsequently melting and completely transforming it to iron under a reducing plasma (i.e. via hydrogen plasma reduction, HPR). Results suggest that an optimal transition point between these two technologies occurs where their efficiency in hydrogen utilization is equal. We found that the reduction of hematite through magnetite into wustite via DR is clean and efficient, but it gets sluggish and inefficient when iron forms at the outermost layers of the iron ore pellets. Conversely, HPR starts violent and unstable with arc delocalization, but proceeds smoothly and efficiently when processing semi-reduced oxides. We performed hybrid reduction experiments by partially reducing hematite pellets via DR at 700{\deg}C to 38% global reduction (using a standard thermogravimetry system) and subsequently transferring them to HPR, conducted with a gas mixture of Ar-10%H2 in an arc-melting furnace, to achieve conversion into liquid iron.

Published
2022

6. Ge Photodiode with -3 dB OE Bandwidth of 110 GHz for PIC and ePIC Platforms

Author

Lischke, S., primary, Peczek, A., additional, Korndorfer, F., additional, Mai, C., additional, Haisch, H., additional, Koenigsmann, M., additional, Rudisile, M., additional, Steckler, D., additional, Goetz, F., additional, Fraschke, M., additional, Marschmeyer, S., additional, Kruger, A., additional, Yamamoto, Y., additional, Schmidt, D., additional, Saarow, U., additional, Heinrich, P., additional, Kroh, A., additional, Schubert, M. A., additional, Katzer, J., additional, Kulse, P., additional, Trusch, A., additional, and Zimmermann, L., additional

Published
2020
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7. Silicon nitride waveguide coupled 67+ GHz Ge photodiode for non-SOI PIC and ePIC platforms

Author

Lischke, S., primary, Knoll, D., additional, Mai, C., additional, Hesse, A., additional, Georgieva, G., additional, Peczek, A., additional, Kroh, A., additional, Lisker, M., additional, Schmidt, D., additional, Fraschke, M., additional, Richter, H., additional, Kruger, A., additional, Saarow, U., additional, Heinrich, P., additional, Winzer, G., additional, Schulz, K., additional, Kulse, P., additional, Trusch, A., additional, and Zimmermann, L., additional

Published
2019
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8. Sensing glucose concentrations at GHz frequencies with a fully embedded Biomicro-electromechanical system (BioMEMS).

Author

Birkholz, M., Ehwald, K.-E., Basmer, T., Kulse, P., Reich, C., Drews, J., Genschow, D., Haak, U., Marschmeyer, S., Matthus, E., Schulz, K., Wolansky, D., Winkler, W., Guschauski, T., and Ehwald, R.

Subjects
SEMICONDUCTOR technology, MINIATURE electronic equipment, BIOSENSORS, MOLECULAR weights, PEOPLE with diabetes, GLUCOSE
Abstract

The progressive scaling in semiconductor technology allows for advanced miniaturization of intelligent systems like implantable biosensors for low-molecular weight analytes. A most relevant application would be the monitoring of glucose in diabetic patients, since no commercial solution is available yet for the continuous and drift-free monitoring of blood sugar levels. We report on a biosensor chip that operates via the binding competition of glucose and dextran to concanavalin A. The sensor is prepared as a fully embedded micro-electromechanical system and operates at GHz frequencies. Glucose concentrations derive from the assay viscosity as determined by the deflection of a 50 nm TiN actuator beam excited by quasi-electrostatic attraction. The GHz detection scheme does not rely on the resonant oscillation of the actuator and safely operates in fluidic environments. This property favorably combines with additional characteristics-(i) measurement times of less than a second, (ii) usage of biocompatible TiN for bio-milieu exposed parts, and (iii) small volume of less than 1 mm3-to qualify the sensor chip as key component in a continuous glucose monitor for the interstitial tissue. [ABSTRACT FROM AUTHOR]

Published
2013
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14. Graphene Synthesis and Processing on Ge Substrates

Author

Lupina, G., primary, Lukosius, M., additional, Lippert, G., additional, Dabrowski, J., additional, Kitzmann, J., additional, Lisker, M., additional, Kulse, P., additional, Krüger, A., additional, Fursenko, O., additional, Costina, I., additional, Trusch, A., additional, Yamamoto, Y., additional, Wolff, A., additional, Schroeder, T., additional, and Mai, A., additional

Published
2017
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15. SiGe HBT with fx/fmax of 505 GHz/720 GHz

Author

Heinemann, B., primary, Rucker, H., additional, Barth, R., additional, Barwolf, F., additional, Drews, J., additional, Fischer, G. G., additional, Fox, A., additional, Fursenko, O., additional, Grabolla, T., additional, Herzel, F., additional, Katzer, J., additional, Korn, J., additional, Kruger, A., additional, Kulse, P., additional, Lenke, T., additional, Lisker, M., additional, Marschmeyer, S., additional, Scheit, A., additional, Schmidt, D., additional, Schmidt, J., additional, Schubert, M. A., additional, Trusch, A., additional, Wipf, C., additional, and Wolansky, D., additional

Published
2016
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18. (Invited) Graphene Synthesis and Processing on Ge Substrates

Author

Lukosius, Mindaugas, primary, Lippert, Gunther, additional, Dabrowski, J, additional, Kitzmann, Julia, additional, Lisker, Marco, additional, Kulse, P, additional, Krüger, Andreas, additional, Fursenko, Oksana, additional, Costina, Ioan, additional, Trusch, Andreas, additional, Yamamoto, Yuji, additional, Wolff, Andre, additional, Mai, Andreas, additional, Schroeder, Thomas, additional, and Lupina, Grzegorz, additional

Published
2016
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20. Sensing glucose concentrations at GHz frequencies with a fully embedded biomicro-electromechanical system

Author

Birkholz, Mario, Ehwald, K.-E., Basmer, T., Kulse, P., Reich, C., Drews, J., Genschow, D., Haak, U., Marschmeyer, S., Matthus, E., Schulz, K., Wolansky, D., Winkler, W., Guschauski, T., and Ehwald, R.

Abstract

The progressive scaling in semiconductor technology allows for advanced miniaturization of intelligent systems like implantable biosensors for low-molecular weight analytes. A most relevant application would be the monitoring of glucose in diabetic patients, since no commercial solution is available yet for the continuous and drift-free monitoring of blood sugar levels. We report on a biosensor chip that operates via the binding competition of glucose and dextran to concanavalin A. The sensor is prepared as a fully embedded micro-electromechanical system and operates at GHz frequencies. Glucose concentrations derive from the assay viscosity as determined by the deflection of a 50 nm TiN actuator beam excited by quasi-electrostatic attraction. The GHz detection scheme does not rely on the resonant oscillation of the actuator and safely operates in fluidic environments. This property favorably combines with additional characteristics—(i) measurement times of less than a second, (ii) usage of biocompatible TiN for bio-milieu exposed parts, and (iii) small volume of less than 1 mm3—to qualify the sensor chip as key component in a continuous glucose monitor for the interstitial tissue.

Published
2013
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23. (Invited) Combining SiGe BiCMOS and InP Processing in an on-top of Chip Integration Approach

Author

Lisker, M., primary, Trusch, A., additional, Kruger, A., additional, Fraschke, M., additional, Kulse, P., additional, Marschmeyer, S., additional, Schmidt, J., additional, Meliani, C., additional, Tillack, B., additional, Weimann, N., additional, Kraemer, T., additional, Ostermay, I., additional, Kruger, O., additional, Jensen, T., additional, Al-Sawaf, T., additional, Krozer, V., additional, and Heinrich, W., additional

Published
2014
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24. BiCMOS integrated microfluidic platform for Bio-MEMS applications

Author

Kaynak, M., primary, Wietstruck, M., additional, Kaynak, C. Baristiran, additional, Marschmeyer, S., additional, Kulse, P., additional, Schulz, K., additional, Silz, H., additional, Kruger, A., additional, Barth, R., additional, Schmalz, K., additional, Gastrock, G., additional, and Tillack, B., additional

Published
2014
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26. (Invited) Si1-xGex/Si MQW Based Uncooled Microbolometer Development and Integration into 130 nm BiCMOS Technology

Author

Baristiran, Canan, Yamamoto, Yuji, Goritz, Alexander, Korndoerfer, Falk, Zaumseil, Peter, Kulse, Philipp, Schulz, Katrin, Fraschke, Mirko, Marschmeyer, Steffen, Wolansky, Dirk, Wietstruck, Matthias, Shafique, Atia, Gurbuz, Yasar, and Kaynak, Mehmet

Abstract

In this paper, the recent progress on Si1-xGex/Si based high performance detector structures is presented. The process optimization of the detector by means of high TCR, low 1/f noise and appropriate resistance is summarized. The method of integrating the developed Si1-xGex/Si multi quantum well (MQW) detector structures into a 130 nm BiCMOS process is provided. The optimization studies required for the full integration of the suspended uncooled microbolometer device are presented.

Published
2018

29. InP-Si BiCMOS Heterointegration Using a Substrate Transfer Process

Author

Lisker, M., primary, Trusch, A., additional, Krüger, A., additional, Fraschke, M., additional, Kulse, P., additional, Borokhovych, Y., additional, Tillack, B., additional, Ostermay, I., additional, Krämer, T., additional, Thies, A., additional, Krüger, O., additional, Schmückle, F.-J., additional, Krozer, V., additional, and Heinrich, W., additional

Published
2013
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31. Detection and reduction of via faults

Author

Wolansky, D., primary, Bauer, J., additional, Haak, U., additional, Hoppner, W., additional, Katzer, J., additional, Kulse, P., additional, Mai, A., additional, Rucker, H., additional, Scheit, A., additional, and Schulz, K., additional

Published
2012
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34. 2.2.1 Minimal-invasiver Blutzuckersensor (MIBS)

Author

Birkholz, M., primary, Ehwald, K.-E., additional, Fröhlich, M., additional, Kulse, P., additional, Basmer, T., additional, Ehwald, R., additional, Guschauski, T., additional, Stoll, U., additional, Siegel, H., additional, Schmaderer, S., additional, Szeponik, J., additional, and Zahn, D., additional

Published
2012
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37. Alignment technology for backside integration

Author

Bauer, J., primary, Kulse, P., additional, Haak, U., additional, Old, G., additional, Scheuring, G., additional, Döbereiner, St., additional, Hillmann, F., additional, Brück, H.-J., additional, Kaynak, M., additional, Ehwald, K.-E., additional, Marschmeyer, St., additional, Birkholz, M., additional, and Schulz, K., additional

Published
2011
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41. InP-Si BiCMOS Heterointegration Using a Substrate Transfer Process

Author

Lisker, Marco, Trusch, Andreas, Kruger, Andreas, Fraschke, Mirko, Kulse, Philipp, Borokhovych, Yevgen, Tillack, Bernd, Ostermay, Ina, Kramer, Tomas, Thies, Andreas, Kruger, Olaf, Schmuckle, Josef, Krozer, Viktor, and Heinrich, Wolfgang

Abstract

Broadband transmitters for radio links in the mm-wave range are key building blocks for future wireless communication systems. In this work such components are to be realized by means of an InP-on-BiCMOS technology. This allows the combination of the favorable power performance of III-V transistors with the advantages of BiCMOS circuits such as complexity and integration density.This helps to avoid critical performance trade-offs compared to the pure III-V or BiCMOS versions. The heterointegration technology allows the integration of sub-mm-wave front-ends together with control logics and other lower-frequency components on a single chip. This drastically reduces packaging efforts. The strategy is to rely on BiCMOS as far as possible and to apply III-V elements only for functions for which they show clear superiority. In a first run the passive elements and the dc- and rf-interconnects between InP and BiCMOS were tested. This test showed the feasibility of the wafer bond process for the heterointegration of InP and BiCMOS. For that purpose a five metal layer Al back-end with silicon dioxide as interlayer dielectric was built on the silicon wafer. A three layer metallization (Au) in benzocyclobutene (BCB) as insulating dielectric represented the environment for the InP-HBTs. Thin film micro strip lines and special designed interconnects between the two metallization systems were characterized in dependence of frequencies up to 100 GHz to estimate the insertion losses.

Published
2013

42. Lithographic aspects for the fabrication of BiCMOS embedded bio-MEMS and RF-MEMS

Author

Kulse, P., Birkholz, M., Ehwald, K.-E., Kaynak, M., Wietstruck, M., Bauer, J., Drews, J., and Schulz, K.

Abstract

Latest developments in micro-electro-mechanical systems (MEMS) have paved the way to follow the more than Moore approach. Several key components, such as silicon pressure sensors have been developed using MEMS processing techniques. Recently, MEMS technologies have been combined with standard CMOS processes and MEMS devices such as microviscosimeters and RF-MEMS switches were successfully demonstrated. The most challenging part of this MEMS process is the last long wet etch step, which remove the sacrificial layer to make the actuator moveable. Such long etch step is strongly influenced by the previous lithography steps. Especially the type of the photoresist has a strong influence on the performance of the final MEMS device. Here, we report a novel MEMS fabrication process, applied to the back-end-off-line (BEOL) of a 0.25m SiGe BiCMOS technology. The full MEMS process flow is explained and the last lithography step is detailed. First, we show the influence of different substrate surface preconditions which defines the adhesion between the photoresist and the substrate. The final 6m thick photoresist layer is required for the critical MEMS actuator release procedure due to the long wet etch process. In this wet etch process, a buffered hydrofluoric acid etchant penetrates the resist layer due to the long etch time (>80 min). Such penetration becomes more critical in the case of low adhesion between the photoresist and the wafer surface. Improving the latter can be achieved by using different primers or dehydration bakes. Furthermore, a new approach of an alternative standard lithography process is investigated. For both studies, additional SEM cross sections and contact angle measurements is presented.

Published
2012
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