Ito, E.: Multianvil cells and high-pressure experimental methods, in Treatise of Geophysics. Hrsg.: G. Schubert. Band2. Elsevier, Amsterdam, 2007, ISBN 978-0-8129-2275-2, S.197–230 (archive.org).
Henri Moissan: Nouvelles expériences sur la reproduction du diamant. In: Comptes Rendus. 118. Jahrgang, 1894, S.320–326 (bnf.fr [abgerufen am 10. März 2014]).
books.google.com
Tennant, Smithson: On the nature of the diamond. In: Philosophical Transactions of the Royal Society of London. 87. Jahrgang, 1797, S.123–127, doi:10.1098/rstl.1797.0005 (englisch, google.com [abgerufen am 30. September 2023]).
Hershey, J. Willard: The Book of Diamonds: Their Curious Lore, Properties, Tests and Synthetic Manufacture. Kessinger Publishing, 2004, ISBN 978-1-4179-7715-4, S.123–130 (google.com).
Feigelson, R. S.: 50 years progress in crystal growth: a reprint collection. Elsevier, 2004, ISBN 978-0-444-51650-3, S.194 (google.com [abgerufen am 3. Mai 2021]).
Koizumi, S., Nebel, C. E., Nesladek, M.: Physics and Applications of CVD Diamond. Wiley-VCH, 2008, ISBN 978-3-527-40801-6, S.50, 200–240 (google.com [abgerufen am 3. Mai 2021]).
Kopf, R. F. (Hrsg.): State-of-the-Art Program on Compound Semiconductors XXXIX and Nitride and Wide Bandgap Semiconductors for Sensors, Photonics and Electronics IV: proceedings of the Electrochemical Society. The Electrochemical Society, 2003, ISBN 978-1-56677-391-1, S.363 (google.com [abgerufen am 3. Mai 2021]).
Zoski, Cynthia G.: Handbook of Electrochemistry. Elsevier, 2007, ISBN 978-0-444-51958-0, S.136 (google.com [abgerufen am 3. Mai 2021]).
Neves, A. J., Nazaré, M. H.: Properties, Growth and Applications of Diamond. IET, 2001, ISBN 978-0-85296-785-0, S.142–147 (google.com [abgerufen am 3. Mai 2021]).
Tennant, Smithson: On the nature of the diamond. In: Philosophical Transactions of the Royal Society of London. 87. Jahrgang, 1797, S.123–127, doi:10.1098/rstl.1797.0005 (englisch, google.com [abgerufen am 30. September 2023]).
Ruff, O.: Über die Bildung von Diamanten. In: Zeitschrift für Anorganische und Allgemeine Chemie. 99. Jahrgang, Nr.1, 1917, S.73–104, doi:10.1002/zaac.19170990109 (zenodo.org [abgerufen am 29. Juni 2019]).
Lonsdale, K.: Further Comments on Attempts by H. Moissan, J. B. Hannay and Sir Charles Parsons to Make Diamonds in the Laboratory. In: Nature. 196. Jahrgang, Nr.4850, 1962, S.104–106, doi:10.1038/196104a0, bibcode:1962Natur.196..104L.
H. P. Bovenkerk, F. P. Bundy, R. M. Chrenko, P. J. Codella, H. M. Strong, R. H. Wentorf: Errors in diamond synthesis. In: Nature. 365. Jahrgang, Nr.6441, 1993, S.19, doi:10.1038/365019a0, bibcode:1993Natur.365...19B.
R. C. Burns, V. Cvetkovic, C. N. Dodge, D. J. F. Evans, Marie-Line T. Rooney, P. M. Spear, C. M. Welbourn: Growth-sector dependence of optical features in large synthetic diamonds. In: Journal of Crystal Growth. 104. Jahrgang, Nr.2, 1990, S.257–279, doi:10.1016/0022-0248(90)90126-6, bibcode:1990JCrGr.104..257B.
Reza Abbaschian, Henry Zhu, Carter Clarke: High pressure-high temperature growth of diamond crystals using split sphere apparatus. In: Diam. Relat. Mater. 14. Jahrgang, Nr.11–12, 2005, S.1916–1919, doi:10.1016/j.diamond.2005.09.007, bibcode:2005DRM....14.1916A.
John C. Angus, Herbert A. Will, Wayne S. Stanko: Growth of Diamond Seed Crystals by Vapor Deposition. In: J. Appl. Phys. 39. Jahrgang, Nr.6, 1968, S.2915, doi:10.1063/1.1656693, bibcode:1968JAP....39.2915A.
É. M. Galimov, A. M. Kudin, V. N. Skorobogatskii, V. G. Plotnichenko, O. L. Bondarev, B. G. Zarubin, V. V. Strazdovskii, A. S. Aronin, A. V. Fisenko, I. V. Bykov, A. Yu. Barinov: Experimental Corroboration of the Synthesis of Diamond in the Cavitation Process. In: Doklady Physics. 49. Jahrgang, Nr.3, 2004, S.150–153, doi:10.1134/1.1710678, bibcode:2004DokPh..49..150G.
Loshak, M. G., Alexandrova, L. I.: Rise in the efficiency of the use of cemented carbides as a matrix of diamond-containing studs of rock destruction tool. In: Int. J. Refractory Metals and Hard Materials. 19. Jahrgang, 2001, S.5–9, doi:10.1016/S0263-4368(00)00039-1.
N. Pal'Yanov, A.G. Sokol, M. Borzdov, A.F. Khokhryakov: Fluid-bearing alkaline carbonate melts as the medium for the formation of diamonds in the Earth's mantle: an experimental study. In: Lithos. 60. Jahrgang, Nr.3–4, 2002, S.145–159, doi:10.1016/S0024-4937(01)00079-2, bibcode:2002Litho..60..145P.
Barjon, J., E. Rzepka, F. Jomard, J.-M. Laroche, D. Ballutaud, T. Kociniewski, J. Chevallier: Silicon incorporation in CVD diamond layers. In: Physica Status Solidi A. 202. Jahrgang, Nr.11, 2005, S.2177–2181, doi:10.1002/pssa.200561920, bibcode:2005PSSAR.202.2177B.
Iakoubovskii, K., M.V. Baidakova, B.H. Wouters, A. Stesmans, G.J. Adriaenssens, A.Ya. Vul', P.J. Grobet: Structure and defects of detonation synthesis nanodiamond. In: Diamond and Related Materials. 9. Jahrgang, Nr.3–6, 2000, S.861–865, doi:10.1016/S0925-9635(99)00354-4, bibcode:2000DRM.....9..861I (nims.go.jp [PDF; abgerufen am 4. März 2013]).
Dolmatov, V. Yu.: Development of a rational technology for synthesis of high-quality detonation nanodiamonds. In: Russian Journal of Applied Chemistry. 79. Jahrgang, Nr.12, 2006, S.1913–1918, doi:10.1134/S1070427206120019.
A.Kh. Khachatryan, S.G. Aloyan, P.W. May, R. Sargsyan, V.A. Khachatryan, V.S. Baghdasaryan: Graphite-to-diamond transformation induced by ultrasonic cavitation. In: Diam. Relat. Mater. 17. Jahrgang, Nr.6, 2008, S.931–936, doi:10.1016/j.diamond.2008.01.112, bibcode:2008DRM....17..931K.
Chih-Shiue Yan, Ho-Kwang Mao, Wei Li, Jiang Qian, Yusheng Zhao, Russell J. Hemley: Ultrahard diamond single crystals from chemical vapor deposition. In: Physica Status Solidi A. 201. Jahrgang, Nr.4, 2005, S.R25, doi:10.1002/pssa.200409033, bibcode:2004PSSAR.201R..25Y.
Catledge, S. A., Yogesh K. Vohra: Effect of nitrogen addition on the microstructure and mechanical properties of diamond films grown using high-methane concentrations. In: Journal of Applied Physics. 86. Jahrgang, Nr.1, 1999, S.698, doi:10.1063/1.370787, bibcode:1999JAP....86..698C.
Zhe Cheng, Thomas Bougher, Tingyu Bai, Steven Y. Wang, Chao Li, Luke Yates, Brian M. Foley, Mark Goorsky, Baratunde A. Cola, Firooz Faili, Samuel Graham: Probing Growth-Induced Anisotropic Thermal Transport in High-Quality CVD Diamond Membranes by Multifrequency and Multiple-Spot-Size Time-Domain Thermoreflectance. In: ACS Applied Materials & Interfaces. 10. Jahrgang, Nr.5, 7. Februar 2018, ISSN1944-8244, S.4808–4815, doi:10.1021/acsami.7b16812, PMID 29328632.
R.T. Coelho, S. Yamada, D.K. Aspinwall, M.L.H. Wise: The application of polycrystalline diamond (PCD) tool materials when drilling and reaming aluminum-based alloys including MMC. In: International Journal of Machine Tools and Manufacture. 35. Jahrgang, Nr.5, 1995, S.761–774, doi:10.1016/0890-6955(95)93044-7.
W. Ahmed, H. Sein, N. Ali, J. Gracio, R. Woodwards: Diamond films grown on cemented WC-Co dental burs using an improved CVD method. In: Diamond and Related Materials. 12. Jahrgang, Nr.8, 2003, S.1300–1306, doi:10.1016/S0925-9635(03)00074-8, bibcode:2003DRM....12.1300A.
Sakamoto, M., Endriz, J. G., Scifres, D. R.: 120 W CW output power from monolithic AlGaAs (800 nm) laser diode array mounted on diamond heatsink. In: Electronics Letters. 28. Jahrgang, Nr.2, 1992, S.197–199, doi:10.1049/el:19920123, bibcode:1992ElL....28..197S.
Mildren, Richard P., Sabella, Alexander, Kitzler, Ondrej, Spence, David J., McKay, Aaron M.: Optical Engineering of Diamond. Hrsg.: Richard P. Mildren, James R. Rabeau. Wiley, 2013, ISBN 978-3-527-64860-3, Ch. 8 Diamond Raman Laser Design and Performance, S.239–276, doi:10.1002/9783527648603.ch8.
Ali M. Khounsary, Robert K. Smither, Steve Davey, Ankor Purohit: Diamond Monochromator for High Heat Flux Synchrotron X-ray Beams. In: Ali M. Khounsary (Hrsg.): Proc. SPIE (= High Heat Flux Engineering). 1739. Jahrgang, 1992, S.628–642, doi:10.1117/12.140532, bibcode:1993SPIE.1739..628K (aps.anl.gov (Memento des Originals vom 17. September 2008 im Internet Archive) [abgerufen am 5. Mai 2009]).
Jackson, D. D., C. Aracne-Ruddle, V. Malba, S. T. Weir, S. A. Catledge, Y. K. Vohra: Magnetic susceptibility measurements at high pressure using designer diamond anvils. In: Rev. Sci. Instrum. 74. Jahrgang, Nr.4, 2003, S.2467, doi:10.1063/1.1544084, bibcode:2003RScI...74.2467J (zenodo.org (Memento des Originals vom 20. Oktober 2020 im Internet Archive) [abgerufen am 21. August 2018]).
J. Isberg, J Hammersberg, E Johansson, T Wikström, DJ Twitchen, AJ Whitehead, SE Coe, GA Scarsbrook: High Carrier Mobility in Single-Crystal Plasma-Deposited Diamond. In: Science. 297. Jahrgang, Nr.5587, 2002, S.1670–1672, doi:10.1126/science.1074374, PMID 12215638, bibcode:2002Sci...297.1670I.
S. A. O. Russell, S. Sharabi, A. Tallaire, D. A. J. Moran: Hydrogen-Terminated Diamond Field-Effect Transistors With Cutoff Frequency of 53 GHz. In: IEEE Electron Device Letters. 33. Jahrgang, Nr.10, 1. Oktober 2012, S.1471–1473, doi:10.1109/LED.2012.2210020, bibcode:2012IEDL...33.1471R.
K. Ueda, M. Kasu, Y. Yamauchi, T. Makimoto, M. Schwitters, D. J. Twitchen, G. A. Scarsbrook, S. E. Coe: Diamond FET using high-quality polycrystalline diamond with fT of 45 GHz and fmax of 120 GHz. In: IEEE Electron Device Letters. 27. Jahrgang, Nr.7, 1. Juli 2006, S.570–572, doi:10.1109/LED.2006.876325, bibcode:2006IEDL...27..570U.
J. Isberg, M. Gabrysch, A. Tajani, D. J. Twitchen: High-field Electrical Transport in Single Crystal CVD Diamond Diodes. In: Advances in Science and Technology (= Diamond and Other New Carbon Materials IV). 48. Jahrgang, 2006, S.73–76, doi:10.4028/www.scientific.net/AST.48.73.
T. A. Railkar, W. P. Kang, Henry Windischmann, A. P. Malshe, H. A. Naseem, J. L. Davidson, W. D. Brown: A critical review of chemical vapor-deposited (CVD) diamond for electronic applications. In: Critical Reviews in Solid State and Materials Sciences. 25. Jahrgang, Nr.3, 2000, S.163–277, doi:10.1080/10408430008951119, bibcode:2000CRSSM..25..163R.
Bucciolini, M., E Borchi, M Bruzzi, M Casati, P Cirrone, G Cuttone, C Deangelis, I Lovik, S Onori, L. Raffaele, S. Sciortino: Diamond dosimetry: Outcomes of the CANDIDO and CONRADINFN projects. In: Nuclear Instruments and Methods A. 552. Jahrgang, Nr.1–2, 2005, S.189–196, doi:10.1016/j.nima.2005.06.030, bibcode:2005NIMPA.552..189B.
A Benmoussa, A Soltani, K Haenen, U Kroth, V Mortet, H A Barkad, D Bolsee, C Hermans, M Richter, J C De Jaeger, J F Hochedez: New developments on diamond photodetector for VUV Solar Observations. In: Semiconductor Science and Technology. 23. Jahrgang, Nr.3, 2008, S.035026, doi:10.1088/0268-1242/23/3/035026, bibcode:2008SeScT..23c5026B.
Panizza, M., Cerisola, G.: Application of diamond electrodes to electrochemical processes. In: Electrochimica Acta. 51. Jahrgang, Nr.2, 2005, S.191–199, doi:10.1016/j.electacta.2005.04.023.
C.E. Nebel, H. Uetsuka, B. Rezek, D. Shin, N. Tokuda, T. Nakamura: Inhomogeneous DNA bonding to polycrystalline CVD diamond. In: Diamond and Related Materials. 16. Jahrgang, Nr.8, 2007, S.1648–1651, doi:10.1016/j.diamond.2007.02.015, bibcode:2007DRM....16.1648N.
D. Gandini: Oxidation of carbonylic acids at boron-doped diamond electrodes for wastewater treatment. In: Journal of Applied Electrochemistry. 20. Jahrgang, Nr.12, 2000, S.1345–1350, doi:10.1023/A:1026526729357, bibcode:1988JApEl..18..410W.
P.-A. Michaud: Preparation of peroxodisulfuric acid using Boron-Doped Diamond thin film electrodes. In: Electrochemical and Solid-State Letters. 3. Jahrgang, Nr.2, 2000, S.77, doi:10.1149/1.1390963.
A.T. Collins, A. Connor, C-H. Ly, A. Shareef, P.M. Spear: High-temperature annealing of optical centers in type-I diamond. In: Journal of Applied Physics. 97. Jahrgang, Nr.8, 2005, S.083517–083517–10, doi:10.1063/1.1866501, bibcode:2005JAP....97h3517C.
espacenet.com
worldwide.espacenet.com
Patent US3030188A: Synthesis of diamond. Angemeldet am 24. November 1961, veröffentlicht am 17. April 1962, Anmelder: Union Carbide Corp, Erfinder: William G. Eversole.
Patent US4488821A: Method and means of rapidly distinguishing a simulated diamond from natural diamond. Angemeldet am 24. November 1982, veröffentlicht am 18. Dezember 1984, Anmelder: Ceres Electronics Corp, Erfinder: Joseph F. Wenckus.
Patent US6924170B2: Diamond-silicon hybrid integrated heat spreader. Angemeldet am 30. Juni 2003, veröffentlicht am 2. August 2005, Anmelder: Intel Corp, Erfinder: Kramadhati V. Ravi, James G. Maveety.
farlang.com
Crookes, William: Diamonds. London and New York's Harper Brothers, 1909, S.140ff. (farlang.com [abgerufen am 18. August 2011]).
Hershey, J. Willard: Book of Diamonds. Heathside Press, New York, 1940, ISBN 978-0-486-41816-2, S.127–132 (farlang.com [abgerufen am 15. August 2009]).
ft.com
Diamonds from thin air: the search for a carbon-neutral jewel. In: Financial Times. 20. Februar 2021 (ft.com [abgerufen am 20. März 2023]).
Wuyi Wang, Stephanie Persaud, Elina Myagkaya: New Record Size for CVD Laboratory-Grown Diamond. In: Gems and Gemology. 58. Jahrgang, Nr.1, 2022 (gia.edu).
Lonsdale, K.: Further Comments on Attempts by H. Moissan, J. B. Hannay and Sir Charles Parsons to Make Diamonds in the Laboratory. In: Nature. 196. Jahrgang, Nr.4850, 1962, S.104–106, doi:10.1038/196104a0, bibcode:1962Natur.196..104L.
H. P. Bovenkerk, F. P. Bundy, R. M. Chrenko, P. J. Codella, H. M. Strong, R. H. Wentorf: Errors in diamond synthesis. In: Nature. 365. Jahrgang, Nr.6441, 1993, S.19, doi:10.1038/365019a0, bibcode:1993Natur.365...19B.
R. C. Burns, V. Cvetkovic, C. N. Dodge, D. J. F. Evans, Marie-Line T. Rooney, P. M. Spear, C. M. Welbourn: Growth-sector dependence of optical features in large synthetic diamonds. In: Journal of Crystal Growth. 104. Jahrgang, Nr.2, 1990, S.257–279, doi:10.1016/0022-0248(90)90126-6, bibcode:1990JCrGr.104..257B.
Reza Abbaschian, Henry Zhu, Carter Clarke: High pressure-high temperature growth of diamond crystals using split sphere apparatus. In: Diam. Relat. Mater. 14. Jahrgang, Nr.11–12, 2005, S.1916–1919, doi:10.1016/j.diamond.2005.09.007, bibcode:2005DRM....14.1916A.
John C. Angus, Herbert A. Will, Wayne S. Stanko: Growth of Diamond Seed Crystals by Vapor Deposition. In: J. Appl. Phys. 39. Jahrgang, Nr.6, 1968, S.2915, doi:10.1063/1.1656693, bibcode:1968JAP....39.2915A.
É. M. Galimov, A. M. Kudin, V. N. Skorobogatskii, V. G. Plotnichenko, O. L. Bondarev, B. G. Zarubin, V. V. Strazdovskii, A. S. Aronin, A. V. Fisenko, I. V. Bykov, A. Yu. Barinov: Experimental Corroboration of the Synthesis of Diamond in the Cavitation Process. In: Doklady Physics. 49. Jahrgang, Nr.3, 2004, S.150–153, doi:10.1134/1.1710678, bibcode:2004DokPh..49..150G.
N. Pal'Yanov, A.G. Sokol, M. Borzdov, A.F. Khokhryakov: Fluid-bearing alkaline carbonate melts as the medium for the formation of diamonds in the Earth's mantle: an experimental study. In: Lithos. 60. Jahrgang, Nr.3–4, 2002, S.145–159, doi:10.1016/S0024-4937(01)00079-2, bibcode:2002Litho..60..145P.
Barjon, J., E. Rzepka, F. Jomard, J.-M. Laroche, D. Ballutaud, T. Kociniewski, J. Chevallier: Silicon incorporation in CVD diamond layers. In: Physica Status Solidi A. 202. Jahrgang, Nr.11, 2005, S.2177–2181, doi:10.1002/pssa.200561920, bibcode:2005PSSAR.202.2177B.
Iakoubovskii, K., M.V. Baidakova, B.H. Wouters, A. Stesmans, G.J. Adriaenssens, A.Ya. Vul', P.J. Grobet: Structure and defects of detonation synthesis nanodiamond. In: Diamond and Related Materials. 9. Jahrgang, Nr.3–6, 2000, S.861–865, doi:10.1016/S0925-9635(99)00354-4, bibcode:2000DRM.....9..861I (nims.go.jp [PDF; abgerufen am 4. März 2013]).
Chih-Shiue Yan, Ho-Kwang Mao, Wei Li, Jiang Qian, Yusheng Zhao, Russell J. Hemley: Ultrahard diamond single crystals from chemical vapor deposition. In: Physica Status Solidi A. 201. Jahrgang, Nr.4, 2005, S.R25, doi:10.1002/pssa.200409033, bibcode:2004PSSAR.201R..25Y.
Catledge, S. A., Yogesh K. Vohra: Effect of nitrogen addition on the microstructure and mechanical properties of diamond films grown using high-methane concentrations. In: Journal of Applied Physics. 86. Jahrgang, Nr.1, 1999, S.698, doi:10.1063/1.370787, bibcode:1999JAP....86..698C.
W. Ahmed, H. Sein, N. Ali, J. Gracio, R. Woodwards: Diamond films grown on cemented WC-Co dental burs using an improved CVD method. In: Diamond and Related Materials. 12. Jahrgang, Nr.8, 2003, S.1300–1306, doi:10.1016/S0925-9635(03)00074-8, bibcode:2003DRM....12.1300A.
Sakamoto, M., Endriz, J. G., Scifres, D. R.: 120 W CW output power from monolithic AlGaAs (800 nm) laser diode array mounted on diamond heatsink. In: Electronics Letters. 28. Jahrgang, Nr.2, 1992, S.197–199, doi:10.1049/el:19920123, bibcode:1992ElL....28..197S.
Ali M. Khounsary, Robert K. Smither, Steve Davey, Ankor Purohit: Diamond Monochromator for High Heat Flux Synchrotron X-ray Beams. In: Ali M. Khounsary (Hrsg.): Proc. SPIE (= High Heat Flux Engineering). 1739. Jahrgang, 1992, S.628–642, doi:10.1117/12.140532, bibcode:1993SPIE.1739..628K (aps.anl.gov (Memento des Originals vom 17. September 2008 im Internet Archive) [abgerufen am 5. Mai 2009]).
Jackson, D. D., C. Aracne-Ruddle, V. Malba, S. T. Weir, S. A. Catledge, Y. K. Vohra: Magnetic susceptibility measurements at high pressure using designer diamond anvils. In: Rev. Sci. Instrum. 74. Jahrgang, Nr.4, 2003, S.2467, doi:10.1063/1.1544084, bibcode:2003RScI...74.2467J (zenodo.org (Memento des Originals vom 20. Oktober 2020 im Internet Archive) [abgerufen am 21. August 2018]).
J. Isberg, J Hammersberg, E Johansson, T Wikström, DJ Twitchen, AJ Whitehead, SE Coe, GA Scarsbrook: High Carrier Mobility in Single-Crystal Plasma-Deposited Diamond. In: Science. 297. Jahrgang, Nr.5587, 2002, S.1670–1672, doi:10.1126/science.1074374, PMID 12215638, bibcode:2002Sci...297.1670I.
S. A. O. Russell, S. Sharabi, A. Tallaire, D. A. J. Moran: Hydrogen-Terminated Diamond Field-Effect Transistors With Cutoff Frequency of 53 GHz. In: IEEE Electron Device Letters. 33. Jahrgang, Nr.10, 1. Oktober 2012, S.1471–1473, doi:10.1109/LED.2012.2210020, bibcode:2012IEDL...33.1471R.
K. Ueda, M. Kasu, Y. Yamauchi, T. Makimoto, M. Schwitters, D. J. Twitchen, G. A. Scarsbrook, S. E. Coe: Diamond FET using high-quality polycrystalline diamond with fT of 45 GHz and fmax of 120 GHz. In: IEEE Electron Device Letters. 27. Jahrgang, Nr.7, 1. Juli 2006, S.570–572, doi:10.1109/LED.2006.876325, bibcode:2006IEDL...27..570U.
T. A. Railkar, W. P. Kang, Henry Windischmann, A. P. Malshe, H. A. Naseem, J. L. Davidson, W. D. Brown: A critical review of chemical vapor-deposited (CVD) diamond for electronic applications. In: Critical Reviews in Solid State and Materials Sciences. 25. Jahrgang, Nr.3, 2000, S.163–277, doi:10.1080/10408430008951119, bibcode:2000CRSSM..25..163R.
Bucciolini, M., E Borchi, M Bruzzi, M Casati, P Cirrone, G Cuttone, C Deangelis, I Lovik, S Onori, L. Raffaele, S. Sciortino: Diamond dosimetry: Outcomes of the CANDIDO and CONRADINFN projects. In: Nuclear Instruments and Methods A. 552. Jahrgang, Nr.1–2, 2005, S.189–196, doi:10.1016/j.nima.2005.06.030, bibcode:2005NIMPA.552..189B.
A Benmoussa, A Soltani, K Haenen, U Kroth, V Mortet, H A Barkad, D Bolsee, C Hermans, M Richter, J C De Jaeger, J F Hochedez: New developments on diamond photodetector for VUV Solar Observations. In: Semiconductor Science and Technology. 23. Jahrgang, Nr.3, 2008, S.035026, doi:10.1088/0268-1242/23/3/035026, bibcode:2008SeScT..23c5026B.
C.E. Nebel, H. Uetsuka, B. Rezek, D. Shin, N. Tokuda, T. Nakamura: Inhomogeneous DNA bonding to polycrystalline CVD diamond. In: Diamond and Related Materials. 16. Jahrgang, Nr.8, 2007, S.1648–1651, doi:10.1016/j.diamond.2007.02.015, bibcode:2007DRM....16.1648N.
D. Gandini: Oxidation of carbonylic acids at boron-doped diamond electrodes for wastewater treatment. In: Journal of Applied Electrochemistry. 20. Jahrgang, Nr.12, 2000, S.1345–1350, doi:10.1023/A:1026526729357, bibcode:1988JApEl..18..410W.
A.T. Collins, A. Connor, C-H. Ly, A. Shareef, P.M. Spear: High-temperature annealing of optical centers in type-I diamond. In: Journal of Applied Physics. 97. Jahrgang, Nr.8, 2005, S.083517–083517–10, doi:10.1063/1.1866501, bibcode:2005JAP....97h3517C.
imperial-consultants.co.uk
Dr Gbemi Oluleye: Environmental Impacts of Mined Diamonds. In: Centre for Environmental Policy, Imperial College London. 5. Mai 2022 (imperial-consultants.co.uk [PDF]).
Royère, C.: The electric furnace of Henri Moissan at one hundred years: connection with the electric furnace, the solar furnace, the plasma furnace? In: Annales Pharmaceutiques Françaises. 57. Jahrgang, Nr.2, 1999, S.116–30, PMID 10365467.
Zhe Cheng, Thomas Bougher, Tingyu Bai, Steven Y. Wang, Chao Li, Luke Yates, Brian M. Foley, Mark Goorsky, Baratunde A. Cola, Firooz Faili, Samuel Graham: Probing Growth-Induced Anisotropic Thermal Transport in High-Quality CVD Diamond Membranes by Multifrequency and Multiple-Spot-Size Time-Domain Thermoreflectance. In: ACS Applied Materials & Interfaces. 10. Jahrgang, Nr.5, 7. Februar 2018, ISSN1944-8244, S.4808–4815, doi:10.1021/acsami.7b16812, PMID 29328632.
J. Isberg, J Hammersberg, E Johansson, T Wikström, DJ Twitchen, AJ Whitehead, SE Coe, GA Scarsbrook: High Carrier Mobility in Single-Crystal Plasma-Deposited Diamond. In: Science. 297. Jahrgang, Nr.5587, 2002, S.1670–1672, doi:10.1126/science.1074374, PMID 12215638, bibcode:2002Sci...297.1670I.
nims.go.jp
pubman.nims.go.jp
Iakoubovskii, K., M.V. Baidakova, B.H. Wouters, A. Stesmans, G.J. Adriaenssens, A.Ya. Vul', P.J. Grobet: Structure and defects of detonation synthesis nanodiamond. In: Diamond and Related Materials. 9. Jahrgang, Nr.3–6, 2000, S.861–865, doi:10.1016/S0925-9635(99)00354-4, bibcode:2000DRM.....9..861I (nims.go.jp [PDF; abgerufen am 4. März 2013]).
Ali M. Khounsary, Robert K. Smither, Steve Davey, Ankor Purohit: Diamond Monochromator for High Heat Flux Synchrotron X-ray Beams. In: Ali M. Khounsary (Hrsg.): Proc. SPIE (= High Heat Flux Engineering). 1739. Jahrgang, 1992, S.628–642, doi:10.1117/12.140532, bibcode:1993SPIE.1739..628K (aps.anl.gov (Memento des Originals vom 17. September 2008 im Internet Archive) [abgerufen am 5. Mai 2009]).
Jackson, D. D., C. Aracne-Ruddle, V. Malba, S. T. Weir, S. A. Catledge, Y. K. Vohra: Magnetic susceptibility measurements at high pressure using designer diamond anvils. In: Rev. Sci. Instrum. 74. Jahrgang, Nr.4, 2003, S.2467, doi:10.1063/1.1544084, bibcode:2003RScI...74.2467J (zenodo.org (Memento des Originals vom 20. Oktober 2020 im Internet Archive) [abgerufen am 21. August 2018]).
Ali M. Khounsary, Robert K. Smither, Steve Davey, Ankor Purohit: Diamond Monochromator for High Heat Flux Synchrotron X-ray Beams. In: Ali M. Khounsary (Hrsg.): Proc. SPIE (= High Heat Flux Engineering). 1739. Jahrgang, 1992, S.628–642, doi:10.1117/12.140532, bibcode:1993SPIE.1739..628K (aps.anl.gov (Memento des Originals vom 17. September 2008 im Internet Archive) [abgerufen am 5. Mai 2009]).
Jackson, D. D., C. Aracne-Ruddle, V. Malba, S. T. Weir, S. A. Catledge, Y. K. Vohra: Magnetic susceptibility measurements at high pressure using designer diamond anvils. In: Rev. Sci. Instrum. 74. Jahrgang, Nr.4, 2003, S.2467, doi:10.1063/1.1544084, bibcode:2003RScI...74.2467J (zenodo.org (Memento des Originals vom 20. Oktober 2020 im Internet Archive) [abgerufen am 21. August 2018]).
Zhe Cheng, Thomas Bougher, Tingyu Bai, Steven Y. Wang, Chao Li, Luke Yates, Brian M. Foley, Mark Goorsky, Baratunde A. Cola, Firooz Faili, Samuel Graham: Probing Growth-Induced Anisotropic Thermal Transport in High-Quality CVD Diamond Membranes by Multifrequency and Multiple-Spot-Size Time-Domain Thermoreflectance. In: ACS Applied Materials & Interfaces. 10. Jahrgang, Nr.5, 7. Februar 2018, ISSN1944-8244, S.4808–4815, doi:10.1021/acsami.7b16812, PMID 29328632.
The diamond window for a milli-wave zone high power electromagnetic wave output. In: New Diamond. 15. Jahrgang, 1999, ISSN1340-4792, S.27.
Transparenz beginnt mit Respekt. In: Dr. Christian Jürgens (Hrsg.): Goldschmiede Zeitung. 120. Jahrgang, Nr.09/22. Untitled Verlag und Agentur GmbH & Co. KG, September 2022, ISSN1437-2479, S.103.
Ruff, O.: Über die Bildung von Diamanten. In: Zeitschrift für Anorganische und Allgemeine Chemie. 99. Jahrgang, Nr.1, 1917, S.73–104, doi:10.1002/zaac.19170990109 (zenodo.org [abgerufen am 29. Juni 2019]).