Publikationsliste Kai Brühne

2023

Haddad M, Kurtulus O, Mertens M, Brühne K, Gluche P, Fecht HJ. Optimization of residual stresses inside diamond thin films grown by hot filament chemical vapor deposition (HFCVD). Diamond and Related Materials. 2023; 131(109564):      [DOI] 

2022

Chen X, Mohr M, Brühne K, Mertens M, Gluche P, Garrn I, Fecht HJ. Smart wear sensor device based on nanodiamond multilayers. Micro and Nano Engineering. 2022; 16100151.      [DOI] 

2021

Chen X, Mohr M, Brühne K, Fecht HJ. Highly Conductive Nanocrystalline Diamond Films and Electronic Metallization Scheme. Materials. 2021; 20214484.      [DOI] 

2017

Prakash HR, Ram S, Brühne K, Fecht HJ. Effects of Silver Doping on Microstructure of Nanostrips, Tetragonality, and Mechanical Properties in Ni<sub>41−x</sub> Ag<sub>x</sub>Mn<sub>50</sub>Sn<sub>9</sub> (x 2) Heusler Alloys. Journal of Nanoscience and Nanotechnology. 2017; 171884-1893.      [DOI] 
Mohr M, Behroudj A, Wiora N, Mertens M, Brühne K, Fecht HJ. Fabrication and Characterization of a nanocrystalline diamond membrane pressure sensor. Quantum Matter. 2017; 641-44.      [DOI] 
Wiora N, Mertens M, Brühne K, Fecht HJ, Tran IC, Willey T, van Buuren A, Biener J, Lee J-. Grain boundary dominated electrical conductivity in ultrananocrystalline diamond. Journal of Applied Physics. 2017; 122145102.      [DOI] 
Mohr M, Mertens M, Brühne K, Gluche P, Fecht HJ. Herstellung, Eigenschaften und Anwendung nano-kristalliner Diamantschichten. Keramische Zeitschrift. 2017; 69115-121.      [DOI] 
Mohr M, Daccache L, Horvat S, Brühne K, Jacob T, Fecht HJ. Influence of grain boundaries on elasticity and thermal conductivity of nanocrystalline diamond films. Acta Materialia. 2017; 12292-98.      [DOI] 
Mertens M, Lin I-, Manoharan D, Moheinian A, Brühne K, Fecht HJ. Structural properties of highly conductive ultra-nanocrystalline diamond films grown by hot-filament CVD. AIP Advances. 2017; 7015312.      [DOI] 

2016

Mertens M, Mohr M, Brühne K, Fecht HJ, Łojkowski M, Święszkowski W, Łojkowski W. Patterned hydrophobic and hydrophilic surfaces of ultra-smooth nanocrystalline diamond layers. Applied Surface Science. 2016; 390526-530.      [DOI] 
Wiora N, Mertens M, Mohr M, Brühne K, Fecht HJ. Piezoresistivity of n-type conductive ultrananocrystalline diamond. Diamond and Related Materials. 2016; 70145-150.      [DOI] 
Mohr M, Brühne K, Fecht HJ. Thermal conductivity of nanocrystalline diamond films grown by hot filament chemical vapor deposition. Physica Status Solidi A: Applications and Materials Science. 2016; 2132590-2593.      [DOI] 

2015

Mertens M, Mohr M, Wiora N, Brühne K, Fecht HJ. N-Type Conductive Ultrananocrystalline Diamond Films Grown by Hot Filament CVD. Journal of Nanomaterials. 2015; 2015527025.      [DOI] 

2014

Wiora M, Brühne K, Fecht HJ. Synthesis of Nanodiamond. In: Singapore: Pan Stanford Publishing; 2014. p. 5-48.
Mohr M, Caron A, Herbeck-Engel P, Bennewitz R, Gluche P, Brühne K, Fecht HJ. Young’s modulus, fracture strength and Poisson’s ratio of nanocrystalline diamond films. Journal of Applied Physics. 2014; 116124308.      [DOI] 
Mohr M, Gluche P, Brühne K, Fecht HJ. Stress Control in Nanocrystalline Chemical Vapor Deposition Diamond Layers. Quantum Matter. 2014; 3400-405.      [DOI] 
Fecht HJ, Brühne K, Gluche P. Carbon-based Nanomaterials and Hybrids - Synthesis, Properties, and Commercial Applications. Singapore: Pan Stanford Publishing; 2014.      [Weblink] 
Fecht HJ, Brühne K. C-Based Materials on a Nanoscale: Synthesis, Properties, Applications, and Economical Aspects. In: Singapore: Pan Stanford Publishing; 2014. p. 1-4.

2013

Wiora N, Mertens M, Mohr M, Brühne K, Fecht HJ. Synthesis and Characterization of n-type Nitrogenated Nanocrystalline Diamond. Micromaterials and Nanomaterials. 2013; 1596-98.

2011

Wiora M, Sadrifar N, Brühne K, Gluche P, Fecht HJ. Correlation of microstructure and tribological properties of dry sliding nanocrystalline diamond coatings. In: Franek, F. et al, editors. Proceedings of 3rd European Conference on Tribology (ECOTRIB 2011). Wien: Österreichische Tribologische Gesellschaft; 2011. p. 293-298.      [Weblink] 
Wiora M, Sadrifar N, Brühne K, Gluche P, Fecht HJ. Correlation of microstructure and tribological properties of dry sliding nanocrystalline diamond coatings. In: Technical Proceedings of the 2011 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2011. 2011. p. 164--167.

2010

Wiora M, Brühne K, Gluche P, Willey TM, Kucheyev SO, Biener J, Fecht HJ. High wear-resistant and ultra-hard nanocrystalline diamond films. In: Proceedings of the ASME/STLE International Joint Tribology Conference 2009, IJTC2009. 2010. p. 99-101.      [DOI] 

2009

Wiora M, Brühne K, Flöter A, Gluche P, Willey TM, Kucheyev SO, Van Buuren AW, Hamza AV, Biener J, Fecht HJ. Grain size dependent mechanical properties of nanocrystalline diamond films grown by hot-filament CVD. Diamond and Related Materials. 2009; 18(5-8):927--930.      [DOI] 

2008

Wiora M, Brühne K, Caron A, Flöter A, Gluche P, Fecht HJ. Synthesis, reliability and applications of nanocrystalline CVD-grown diamond and micro device fabrication. In: Technical Proceedings of the 2008 NSTI Nanotechnology Conference and Trade Show, NSTI-Nanotech, Nanotechnology 2008. 2008. p. 206--209.     [Datei] 

2007

Flöter A, Gluche P, Brühne K. Diamond coat hones the cutting edge. Metal Powder Report. 2007; 62(2):16--17,19-20.      [DOI] 
Sommer AP, Zhu D, Brühne K. Surface conductivity on hydrogen-terminated nanocrystalline diamond: Implication of ordered water layers. Crystal Growth and Design. 2007; 7(11):2298-2301.

2006

Biener J, Mirkarimi PB, Tringe JW, Baker SL, Wang Y, Kucheyev SO, Teslich NE, Wu KJJ, Hamza AV, Wild C, Woerner E, Koidl P, Brühne K, Fecht HJ. Diamond ablators for inertial confinement fusion. Fusion Science and Technology. 2006; 49(4):737--742.      [Weblink]      [Datei] 

2005

Brühne K, Kumar KV, Fecht HJ, Gluche P, Flöter A. Nanocrystalline HF-CVD-grown diamond and its industrial applications. Reviews on Advanced Materials Science. 2005; 10(3):224--228.      [Weblink]      [Datei] 
Kucheyev SO, Biener J, Tringe JW, Wang YM, Mirkarimi PB, Van Buuren T, Baker SL, Hamza AV, Brühne K, Fecht HJ. Ultrathick, low-stress nanostructured diamond films. Applied Physics Letters. 2005; 86(22):1--3.      [DOI] 

2003

Brühne K. Hot-Wire Gasphasenabscheidung von nanokristallinem Silicium und Silicium-Germanium . Universität Stuttgart; 2003.      [DOI] 

2001

Brühne K, Schubert MB, Köhler C, Werner JH. Nanocrystalline silicon from hot-wire deposition - A photovoltaic material?. Thin Solid Films. 2001; 395(1-2):163--168.      [DOI] 

2000

Brühne K, Klein S, Schubert MB. Nanocrystalline silicon deposited by the hot-wire technique for solar cells. In: H. Scheer, B. McNelis, W. Palz, H. A. Ossenbrink und P. Helm, editors. Proc. 16th European Photovoltaic Solar Energy Conference. James &amp; James, London; 2000. p. 478-481.

1999

Funken K-, Lüpfert E, Hermes M, Brühne K, Pohlmann B. Oxidation rates of carbon black particles exposed to concentrated sunlight. Solar Energy. 1999; 65(1):15--19.      [DOI] 

1998

Brühne K. Messung der Oxidationsgeschwindigkeit von Rußpartikeln im konzentrierten Sonnenlicht bei Temperaturen bis 400 °C [Diplomarbeit]. Universität Bonn; 1998.      [Weblink]