Technological Aspects in Fabrication of Micro- and Nano-Sized Carbon Based Features: Nanorods, Periodical Arrays and Self-Standing Membranes

[1] NEBEL, C. E.-REZEK, B.-SHIN, D.-UETSUKA, H.- YANG, N. : Diamond for Bio-Sensor Applications, Journal of Physics D: Applied Physics 40 No. 20 (2007), 6443-6466.10.1088/0022-3727/40/20/S21Search in Google Scholar

[2] MERSON, T. D.-CASTELLETTO, S.-AHARONOVICH, I.-TURBIC, A.-KILPATRICK, T. J.-TURNLEY, A. M. : Nanodiamonds with Silicon Vacancy Defects for Nontoxic Pho- tostable Fluorescent Labeling of Neural Precursor Cells, Optics Letters 38 No. 20 (2013), 4170-4173.10.1364/OL.38.00417024321951Search in Google Scholar

[3] BERANOVÁ, J.-SEYDLOVÁ, G.-KOZAK, H.-POTOC- KÝ, Š.-KONOPÁSEK, I.-KROMKA, A. : Antibacterial Be- havior of Diamond Nanoparticles against Escherichia Coli, Phys- ica Status Solidi (b) 249 No. 12 (2012), 2581-2584.10.1002/pssb.201200079Search in Google Scholar

[4] KAWAKITA, J.-HASHIMOTOSHINODA, Y.-SAKAMO- TO, Y. : Electrochemically Catalytic Activity of Boron-doped Diamond for I-/I0 Redox Couple, Electrochemistry 83 No. 05 (2015), 342-344.10.5796/electrochemistry.83.342Search in Google Scholar

[5] GRAUSOVA, L.-BACAKOVA, L.-KROMKA, A.-POTO- CKY, S.-VANECEK, M.-NESLADEK, M.-LISA, V. : Nan- odiamond as Promising Material for Bone Tissue Engineering, Journal of Nanoscience and Nanotechnology 09 No. 06 (2009), 3524-3534.10.1166/jnn.2009.NS26Search in Google Scholar

[6] SZUNERITS, S.-COFFINIER, Y.-BOUKHERROUB, R. : Diamond Nanowires: A Novel Platform for Electrochemistry and Matrix-Free Mass Spectrometry, Sensors 15 No. 06 (2015), 12573-12593.10.3390/s150612573450769626024422Search in Google Scholar

[7] HISCOCKS, M. P.-KAALUND, C. J.-LADOUCEUR, F.- HUNTINGTON, S. T.-GIBSON, B. C.-TRPKOVSKI, S.- SIMPSON, D.-AMPEM-LASSEN, E.-PRAWER, S.-BUT- LER, J. E. : Reactive Ion Etching of Waveguide Structures in Diamond, Diamond and Related Materials 17 No. 11 (2008), 1831-1834.10.1016/j.diamond.2008.04.019Search in Google Scholar

[8] WANG, Q.-QU, S. L.-FU, S. Y.-LIU,W. J.-LI, J. J.-GU, C. Z. : Chemical Gases Sensing Properties of Diamond Nano- cone Arrays Formed by Plasma Etching, Journal of Applied Physics 102 No. 10 (2007), 103714.10.1063/1.2817465Search in Google Scholar

[9] ONDIČ, L.-BABCHENKO, O.-VARGA, M.-KROMKA, A.-ČTYROKÝ, J.-PELANT, I. : Diamond Photonic Crystal Slab: Leaky Modes and Modified Photoluminescence Emission of Surface-Deposited Quantum Dots, Scientific Reports 2 No. 914 (2012).10.1038/srep00914351209023209874Search in Google Scholar

[10] CHEN, Y. C.-TZENG, Y.-DAVRAY, A.-CHENG, A. J.- RAMADOSS, R.-PARK, M. : Fabrication of Diamond Mi- cro-Structures by Ink-Jet Printed Diamond Seeding and Mi- crowave Plasma Assisted Chemical Vapor Deposition, Diamond and Related Materials 17 No. 4-5 (2008), 722-727.10.1016/j.diamond.2008.01.021Search in Google Scholar

[11] BONGRAIN, A.-SCORSONE, E.-ROUSSEAU, L.-LIS- SORGUES, G.-GESSET, C.-SAADA, S.-BERGONZO, P. : Selective Nucleation in Silicon Moulds for Diamond MEMS Fab- rication, Journal of Micromechanics and Microengineering 19 No. 07 (2009), 074015.10.1088/0960-1317/19/7/074015Search in Google Scholar

[12] LIU, H.-WANG, C.-GAO, C.-HAN, Y.-LUO, J.-ZOU, G.-WEN, C. : New Insights into Selected-Area Deposition of Diamond Films by Means of Selective Seeding, Journal of Physics: Condensed Matter 14 No. 44 (2002), 10973-10977.Search in Google Scholar

[13] HIRABAYASHI, K.-TANIGUCHI, Y.-TAKAMATSU, O.- IKEDA, T.-IKOMA, K.-IWASAKI-KURIHARA, N. : Selec- tive Deposition of Diamond Crystals by Chemical Vapor De- position using a Tungsten-Filament Method, Applied Physics Letters 53 No. 19 (1988), 1815.10.1063/1.99789Search in Google Scholar

[14] MORTET, V.-KROMKA, A.-KRAVETS, R.-ROSA, J.- VORLICEK, V.-ZEMEK, J.-VANECEK, M. : Investigation of Diamond Growth at High Pressure by Microwave Plasma Chemical Vapor Deposition, Diamond and Related Materials 13 No. 4-8 (2004), 604-609.10.1016/j.diamond.2003.11.034Search in Google Scholar

[15] BABCHENKO, O.-KROMKA, A.-HRUSKA, K.-MI- CHALKA, M.-POTMESIL, J.-VANECEK, M. : Nanostruc- turing of Diamond Films using Self-Assembled Nanoparticles, Central European Journal of Physics 7 No. 02 (2009), 310-314.Search in Google Scholar

[16] DOMONKOS, M.-IŽÁK, T.-ŠTOLCOVA, L.-PROŠKA, J.-DEMO, P.-KROMKA, A. : Structuring of Diamond Films using Microsphere Lithography, Acta Polytechnica 54 No. 05 (2014), 320-324.10.14311/AP.2014.54.0320Search in Google Scholar

[17] VARGA, M.-BABCHENKO, O.-BAUEROVA, P.-HRUS- KA, K.-JURKA, V.-KROMKA, A.-REZEK, B. : Fabri- cation of 3D Diamond Membranes for Microfluidic Systems, NANOCON (2015), 556-562.Search in Google Scholar

[18] JANSSEN, W.-GHEERAERT, E. : Dry Etching of Diamond Nanowires using Self-Organized Metal Droplet Masks, Diamond and Related Materials 20 No. 03 (2011), 389-394.10.1016/j.diamond.2011.01.037Search in Google Scholar

[19] CHANG, S. C.-LIN, T. C.-LEE, J. H. : Converting Nickel Film to Nano Particles using Hydrogen Plasma Treatment, Solid State Technology 50 No. 11 (2007), 44.Search in Google Scholar

[20] YIN, Z.-TAN, H. S.-SMITH, F. W. : Determination of the Optical Constants of Diamond Films with a Rough Growth Surface, Diamond and Related Materials 05 No. 12 (1996), 1490-1496.10.1016/S0925-9635(96)00562-6Search in Google Scholar

[21] DAVYDOVA, M.-KROMKA, A.-REZEK, B.-BABCHEN- KO, O.-STUCHLIK, M.-HRUSKA, K. : Fabrication of Dia- mond Nanorods for Gas Sensing Applications, Applied Surface Science 256 No. 18 (2010), 5602-5605.10.1016/j.apsusc.2010.03.034Search in Google Scholar

[22] KOZAK, H.-BABCHENKO, O.-ARTEMENKO, A.-UK- RAINTSEV, E.-REMES, Z.-REZEK, B.-KROMKA, A. : Nanostructured Diamond Layers Enhance the Infrared Spec- troscopy of Biomolecules, Langmuir 30 No. 8 (2014), 2054-2060. 10.1021/la404814c24524343Search in Google Scholar