CONSULTING / Peer-Reviewed Publications 

YEAR 2022

YEAR 2021

253.

Inversion-type p-channel diamond MOSFET issues

X.F. Zhang, T. Matsumoto, S. Yamasaki, C.E. Nebel, T. Inokuma, N. Tokuda,

J. of  Materials Research 36 (23), p 4688-4702, 2021

252.

Diamond microfabrication by imprinting with nickel mold under high temperature

T. Tabakoya, M. Nagai, K. Sakauchi, Y. Nakamura, K. Kobayashi, H. Kato, Y. Kato, M. Ogura, D. Takeuchi, T. Makino, S. Yamasaki, C.E. Nebel, X. Zhang, T. Matsumoto, T. Inokuma, N. Tokuda,
Diamond and Related Materials  114, Article Number 108294, 2021

251.     

Insight into temperature impact of Ta filaments on high-growth-rate diamond (100) films by hot-filament chemical vapor deposition

Y. Takamori, M. Nagai, T. Tabakoya, Y. Nakamura, S. Yamasaki, C.E. Nebel, X.F. Zhang, T. Matsumoto, T. Inokuma, N. Tokuda,
Diamond and Related Materials 118, Article Number 108515, 2021

250.

Diamond: Carbon at its best

C.E. Nebel, N. Yang, S. Yamasaki

in: Diamond: Synthesis, Electrochemistry, Electronics, Sensing, Defects and Quantum Applications, Edited by N. Yang, C.E. Nebel, S. Yamasaki

Carbon, 182, p. 711-714, 2021

249.

Carbon: Quo-Vadis

C.E. Nebel,

New Diamond, Japan New Diamond Forum, 141, p.1, 2021.4, 2021

248.

Fabrication of n-Type Doped V-Shaped Structures on (100) Diamond
C. Schreyvogel, S. Temgoua, C. Giese, V. Cimalla, J. Barjon, C.E. Nebel,
phys. stat. sol. a, 218 (7), 2000502, 2021

247.
Ground-state microwave-stimulated Raman transitions and adiabatic spin transfer in the N-15 nitrogen vacancy center
F.Bohm, N. Nikolay, S. Neinert, C.E. Nebel, O. Benson,

Phys. Rev. B, 104 (3)035201, 2021

246.
Mechanical damage-free surface planarization of single-crystal diamond based on carbon solid solution into nickel
K. Sakauchi,M. Msatsugu, N. Taira, T.Y. Nakamura,S.Yamasaki, C.E. Nebel, X.Zhang, T. Matsumoto,T. Inokuma, N.Tokuda
Diamond and Related Materials, 116, 2021, 108390

245.
Inversion channel MOSFET on heteroepitaxially grown free-standing diamond,
X. Zhang, T. Matsumoto, Y. Nakano, H. Noguchi,H. Kato, T. Makino, D. Takeuchi, M. Ogura,S. Yamasaki, C.E. Nebel, T. Inokuma, N. Tokuda,
Carbon 175, p. 615-619, 2021

YEAR 2020

244.

Influence of Different Surface Morphologies on the Performance of High-Voltage, Low-Resistance Diamond Schottky Diodes
P. Reinke; F. Benkhelifa; L. Kirste; H. Czap; L. Pinti; V. Zürbig; V. Cimalla, C.E. Nebel. O.Ambacher.
IEEE Transactions on Electron Devices 67 (6), p. 2471 - 2477, 2020, DOI: 10.1109/TED.2020.2989733

243.

Insight into Al2O3/B-doped diamond interface states with high-temperature conductance method,
X. Zhang, T. Matsumoto, U. Sakurai, T. Makino, M. Ogura, M. Sometani, S. Yamasaki, C.E. Nebel, T. Inokuma, N. Tokuda,
Appl. Phys. Lett. 117, 092104 (2020); https://doi.org/10.1063/5.0021785 

242.

Nanostructured Boron Doped Diamond Electrodes with Increased Reactivity for Solar-Driven CO2 Reduction in Room Temperature Ionic Liquids,
P. Knittel, F. Buchner, E. Hadzifejzovic, C.Giese, P. Quellmalz, R. Seidel, T. Petit, B. Iliev, T.J.S. Schubert, C.E. Nebel, J.S. Foord
ChemCatChem 12, 5548 –5557, 2020

241.   

Nitrogen-Vacancy doped CVD-Diamond for Quantum Applications: A Review
Christoph E. Nebel
Semiconductors and Semimetals Vol. 103, Diamond for Quantum Applications, 
Elsevier, Academic Press 2020
Editors: C.E. Nebel, I. Aharonovich, N. Mizuochi, M. Hatano
ISBN 9780128202401.

240.   

Bulk electronic properties of diamond
Christoph E. Nebel
http://arxiv.org/abs/2005.03884.

239.   

Surface electronic properties of diamond
Christoph E. Nebel
http://arxiv.org/abs/2005.03893.

238.   

Diamond for biosensor applications
Christoph E. Nebel, Bohuslav Rezek, Dongchan Shin, Hiroshi Uetsuka,
http://arxiv.org/abs/2005.03887.

237.   

Micro- and Nanostructured Diamond in Electrochemistry: Fabrication and Application
Fang Gao, Christoph E. Nebel
http://arxiv.org/abs/2005.03941.

236.   

Single crystal diamond pyramids for applications in nanoscale quantum sensing,
M. Batzer, B. Shields, E. Neu, C. Widmann, C. Giese, C.E.Nebel, P. Maletinsky,
Optical Materials Express Vol. 10, Issue 2, pp. 492-500 (2020), https://doi.org/10.1364/OME.380362.

235.   

3 GHz RF measurements of AlGaN/GaN transistors transferred from silicon substrates onto single crystalline diamond,
T. Gerrer, H. Czap, T. Maier, F. Benkhelifa, S. Muller, C.E. Nebel, P. Waltereit, R. Quay, V. Cimalla,
AIP Advances 10, 029902 (2020); https://doi.org/10.1063/1.5143448.

234.   

Formation of U-shaped diamond trenches with vertical {111} sidewalls by anisotropic etching of diamond (110) surfaces
M. Nagaia, Y.Nakamura, T.Yamadaa, T.Tabakoya, T. Matsumoto, T.Inokuma, C.E.Nebel, T.Makino, S.Yamasakib, N.Tokuda
DRM 103 (2020), 107713.

YEAR 2018

222. 

GaN Nanowire Arrays for Efficient Optical Read-Out and Optoelectronic Control of NV Centers in Diamond

Hetzl, M.; Wierzbowski, J.; Hoffmann, T.; Kraut, M.; Zuerbig, V.; Nebel, C.E.; Muller, K.; Finley, J.J.; Stutzmann, M.;

In: Nano Letters, Volume: 18,Issue: 6, p 3651-3660 (2018).

221. 

Combining nanostructuration with boron doping to alter sub band gap acceptor states in diamond materials

Choudhury, S.; Kiendl, B.; Ren, J.; Gao, F.; Knittel, P.; Nebel, C.E.; Venerosy, A.; Girard, H.; Arnault, J.-C.; Krueger, A.; Larsson, K.; Petit, T.;

In: J. Materials Chemistry A, Volume: 6(34), p. 16645-16654 (2018).

YEAR 2019

233.   

Multifunctional Boron‐Doped Diamond Colloidal AFM Probes
S. Daboss, P. Knittel, C.E. Nebel, C. Kranz,
Small 2019, 15, 1902099.

232.   

Polycrystalline diamond photonic waveguides realized by femtosecond laser lithography,
H. Hanafi, S. Kroesen, G. Lewes-Malandrakis, C.E. Nebel, W.H.P. Pernice, C. Denz
Optical Materials Express Vol. 9, Issue 7, pp. 3109-3114 (2019).

231.   

3 GHz RF measurements of AlGaN/GaN transistors transferred from silicon substrates onto single crystalline diamond
T. Gerrer, H. Czap, T. Maier, F. Benkhelifa, S. Müller, C.E. Nebel, P. Waltereit, R.Quay, V. Cimalla,
AIP Advances 9, 125106 (2019); https://doi.org/10.1063/1.5127579.

230.   

Optimizing reactive ion etching to remove sub-surface polishing damage on diamond
M.-L. Hicks, A.C. Pakpour-Tabrizi, V. Zuerbig, L. Kirste, C.E. Nebel, R.B. Jackman,
Journal of Applied Physics 125, 244502 (2019); https://doi.org/10.1063/1.5094751.

229.   

Adaptive low-temperature covalent bonding of III-nitride thin films by extremely thin water interlayers
T. Gerrer, A. Graff, M. Simon-Najasek, H. Czap, T. Maier, F. Benkhelifa, S. Müller, C.E. Nebel, P. Waltereit, R. Quay, V.Cimalla
Appl. Phys. Lett. 114, 252103 (2019); https://doi.org/10.1063/1.5095816.

228.   

Conductive-probe atomic force microscopy and Kelvin-probe force microscopy characterization of OH-terminated diamond (111) surfaces with step-terrace structures.
M. Nagai, R. Yoshida, T. Yamada, T. Tabakoya, C.E. Nebel, S. Yamasaki, T. Makino, T. Matsumoto, T. Inokuma, N. Tokuda,
Japanese Journal of Applied Physics 58, SIIB08 (2019).

227.   

High‐Rate Growth of Single‐Crystalline Diamond (100) Films by Hot‐Filament Chemical Vapor Deposition with Tantalum Filaments at 3000 °C
T. Tabakoya, S. Kanada, Y. Wakui, Y. Takamori, T. Yamada, M. Nagai, Y. Kojima, O. Ariyada, S. Yamasaki, C.E. Nebel, T. Matsumoto, T. Inokuma, N. Tokuda,
Phys. Status Solidi A 2019, 216, 1900244.

226.   

Influence of substrate holder configurations on bias enhanced nucleation area for diamond heteroepitaxy: Toward wafer-scale single-crystalline diamond synthesis,
T. Yoshikawa, D. Herrling, F. Meyer, F. Burmeister, C.E. Nebel, O. Ambacher, V. Lebedev,
Journal of Vacuum Science & Technology B 37, 021207 (2019).

225.   

Spectrally multiplexed single-photon detection withbhybrid superconducting nanophotonic circuits.
O. KAHL, S, FERRARI, V. KOVALYUK, A. VETTER, G. LEWES-MALANDRAKIS,C. NEBEL, A. KORNEEV, G. GOLTSMAN, W. PERNICE1,
Optica 557(4) (2017) 2334-2536.

224.   

Characterisation of thin boron-doped diamond films using Raman spectroscopy and chemometrics
P. Knittel, R. Stach, T. Yoshikawa, L. Kirste, B. Mizaikoff, C. Kranz, C.E. Nebel
Anal. Methods, 2019, 11, 582–586.

223.   

Diamond Colloidal Probe Force Spectroscopy
P. Knittel, T. Yoshikawa, C.E. Nebel
Anal. Chem. 2019, 91, 5537−5541.

YEAR 2017

220. 

Powering electrodes for high performance aqueous micro-supercapacitors: Diamond-coated silicon nanowires operating at a wide cell voltage of 3 V

Aradilla, D; Gao, F; Lewes-Malandrakis, G, Muller-Sebert, W, Gentile, P; Pouget, S; Nebel, CE; Bidan, G

ELECTROCHIMICA ACTA, Volume: 242,173-179 (2017) DOI: 10.1016/j.electacta.2017.04.102

219. 

Spectrally multiplexed single-photon detection with hybrid superconducting nanophotonic circuits

Kahl, O; Ferrari, S; Kovalyuk, V; Vetter, A; Lewes-Malandrakis, G; Nebel, CE; Korneev, A; Goltsman, G; Pernice, W;

OPTICA 4(5), 557-562 (2017),DOI: 10.1364/OPTICA.4.000557.

218. 

Homoepitaxial growth of high quality (111)-oriented single crystalline diamond

Widmann, CJ; Hetzl, M.; Drieschner, S; Nebel, CE

DIAMOND AND RELATED MATERIALS 72, 41-46 (2017) DOI: 10.1016/j.diamond.2016.12.020

YEAR 2016

217. 

Active and fast charge-state switching of single NV centres in diamond by in-plane Al-Schottky junctions

Schreyvogel, C; Polyakov, V; Burk, S; Fedder, H; Denisenko, A; de Oliveira, FF; Wunderlich, R; Meijer, J; Zuerbig, V; Wrachtrup, J, Nebel CE]

BEILSTEIN JOURNAL OF NANOTECHNOLOGY 7, 1727-1735 (2016), DOI: 10.3762/bjnano.7.165

216. 

Diamond on aluminum nitride as a platform for integrated photonic circuits

Gruhler, N.; Yoshikawa, T.; Rath, P.; Lewes-Malandrakis, G.; Schmidhammer, E.; Nebel, C.E.; Pernice, W.H.P.

PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE 213 (8), p. 2075-2080, 2016.

215. 

Designing 3D Multihierarchical Heteronanostructures for High-Performance On-Chip Hybrid Supercapacitors: Poly(3,4-(ethylenedioxy)thiophene)-Coated Diamond/Silicon Nanowire Electrodes in an Aprotic Ionic Liquid

Aradilla, D.; Gao, F.; Lewes-Malandrakis, G.; Muller-Sebert, W.; Gentile, P.; Boniface, M.; Aldakov, D.; Iliev, B.; Schubert, T.J.S.; Nebel, C.E.

ACS APPLIED MATERIALS & INTERFACES 8 (28), p. 18069-18077, 2016.

214. 

Electrically Conductive Diamond Membrane for Electrochemical Separation Processes

Gao, F.; Nebel, C.E.; ACS APPLIED MATERIALS & INTERFACES 8 (28);p. 18640-18646; 2016.

213. 

Electroluminescence from silicon vacancy centers in diamond p-i-n diodes

Tegetmeyer, B.; Schreyvogel, C.; Lang, N.; Muller-Sebert, W.; Brink, D.; Nebel, C.E.

DIAMOND AND RELATED MATERIALS 65 (2016) 42-46. 

212. 

Incorporation of SiV-centers in diamond nanoparticles using silicon background doping

Tegetmeyer, B.; Lewes-Malandrakis, G.; Wernet, M.; Schreyvogel, C.; Lang, N.; Yoshikawa, T.; Nebel, C.E.

DIAMOND AND RELATED MATERIALS 65 (2016) 87-90.

211. 

Enhanced actuation of nanocrystalline diamond microelectromechanical disk resonators with AlN layers

Yoshikawa, T.; Reusch, M.; Holc, K.; Iankov, D.; Zuerbig, V.; Zukauskaite, A.; Nebel, C.E.; Ambacher, O.; Lebedev, V.

APPLIED PHYSICS LETTERS 108 (2016) 171903.

210. 

Homoepitaxial growth of single crystalline CVD-diamond

C.J. Widmann, C.J.; Müller-Sebert, W; Lang, N.; Nebel C.E.;

DIAMOND AND RELATED MATERIALS 64 (2016) 1-7.

209. 

Pinhole-free ultra-thin nanocrystalline diamond film growth via electrostatic self-assembly seeding with increased salt concentration of nanodiamond colloids

Yoshikawa, T.; Gao, F.; Zuerbig, V.; Giese, C.; Nebel, C.E.; Ambacher, O.; Lebedev, V.;

DIAMOND AND RELATED MATERIALS 63 (2016) 103-107.

208. 

Heavily phosphorus-doped nano-crystalline diamond electrode for thermionic emission application

Kato, H.; Takeuchi, D.; Ogura, M.; Yamada, T.; Kataoka, M.; Kimura, Y.; Sobue, S.; Nebel, C.E.; Yamasaki, S.

DIAMOND AND RELATED MATERIALS 63 (2016) 165-168.

207. 

A step forward into hierarchically nanostructured materials for high performance micro-supercapacitors: Diamond-coated SiNW electrodes in protic ionic liquid electrolyte

Aradilla, D.; Gao, F.; Lewes-Malandrakis, G.; Muller-Sebert, W.; Gaboriau, D.; Gentile, P.; Iliev, B.; Schubert, T.; Sadki, S.; Bidan, G.; Nebel, C.E.

ELECTROCHEMISTRY COMMUNICATIONS 63 (2016) 34-38.

206. 

High Efficiency On-Chip Single-Photon Detection for Diamond Nanophotonic Circuits

Kahl, O.; Ferrari, S.; Rath, P.; Vetter, A.; Nebel, C.E.; Pernice, W.H.P.;

JOURNAL OF LIGHTWAVE TECHNOLOGY 34 (2016) 249-255.

206. 

Monocrystalline CVD-diamond optics for high-power laser applications

Holly, C.; Traub, M.; Hoffmann, D.; Widmann, C.; Brink, D.; Nebel, C.E.; Gotthardt, T.; Sozbir, M.C.; Wenzel, C.;

Edited by:Dorsch, F.; Kaierle, S.; HIGH-POWER LASER MATERIALS PROCESSING: LASERS, BEAM DELIVERY, DIAGNOSTICS, AND APPLICATIONS V

Book Series: Proceedings of SPIE, Volume: 9741, Article Number: 974104

YEAR 2015

205. 

Nanocrystalline boron-doped diamond nanoelectrode arrays for ultrasensitive dopamine detection

Dincer, C.; Ktaich, R.; Laubender, E.; Hees, J.J.; Kieninger, J.; Nebel, C.E.; Heinze, J.; Urban, G.A.;

ELECTROCHIMICA ACTA 185 (2015) 101-106.

204.
Diamond as a material for monolithically integrated optical and optomechanical devices

Rath, P.; Ummethala, S.; Nebel, C.E.; Pernice, W.H.P.;

PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE 212 (2015) 2385-2399.

203.
Diamond nanowire forest decorated with nickel hydroxide as a pseudocapacitive material for fast charging-discharging

Gao, F.; Nebel, C.E.

PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE 212 (2015) 2533-2538.

203.
Optoelectronic properties of p-diamond/n-GaN nanowire heterojunctions

Schuster, F.; Hetzl, M.; Weiszer, S.; Wolfer, M.; Kato, H.; Nebel, C.E.; Garrido, J.A.; Stutzmann, M.;

JOURNAL OF APPLIED PHYSICS 118 (2015) 154303.

202.
Superconducting single-photon detectors integrated with diamond nanophotonic circuits

Rath, P.; Kahl, O.; Ferrari, S.; Sproll, F.; Lewes-Malandrakis, G.; Brink, D.; Ilin, K.; Siegel, M.; Nebel, C.E.; Pernice, W.;

LIGHT-SCIENCE & APPLICATIONS 4 (2015) e338.

201.
Active charge state control of single NV centres in diamond by in-plane Al-Schottky junctions

Schreyvogel, C.; Polyakov, V.; Wunderlich, R.; Meijer, J.; Nebel, C.E.;

SCIENTIFIC REPORTS 5 (2015) 12160.

200.
Appropriate Salt Concentration of Nanodiamond Colloids for Electrostatic Self-Assembly Seeding of Monosized Individual Diamond Nanoparticles on Silicon Dioxide Surfaces

Yoshikawa, T.; Zuerbig, V.; Gao, F.; Hoffmann, R.; Nebel, C.E.; Ambacher, O.; Lebedev, V.;

LANGMUIR 31 (2015) 5319-5325.

199.
The Approaching Carbon Age

Nebel, C.E.;

ELECTROCHEMISTRY 83 (2015) 317-317.

198.
Fabrication and characterization of single crystalline diamond nanopillars with NV-centers

Widmann, C.J.; Giese, C.; Wolfer, M.; Brink, D.; Heidrich, N.; Nebel, C.E.;

DIAMOND AND RELATED MATERIALS 54 (2015) 2-8.

197.
Synthesis of novel nanodiamonds-gold core shell nanoparticles

Minati, L.; Cheng, C.L.; Lin, Y.C.; Hees, J.; Lewes-Malandrakis, G.; Nebel, C.E.; Benetti, F.; Migliaresi, C.; Speranza, G.;

DIAMOND AND RELATED MATERIALS 53 (2015) 23-28.

196. 

Diamond Nanophotonic Circuits Functionalized by Dip-pen Nanolithography

Rath, P.; Hirtz, M.; Lewes-Malandrakis, G.; Brink, D.; Nebel, C.E.; Pernice, W.H.P.;

ADVANCED OPTICAL MATERIALS 3 (2015) 328-335.

195.
Electrochemical generation of hydrogenated graphene flakes

Zhao, M.; Guo, X.Y.; Ambacher, O.; Nebel, C.E.; Hoffmann, R.;

CARBON 83 (2015) 128-135.

194.
Diamond-integrated optomechanical circuits

Rath, P.; Ummethala, S.; Nebel, C.E.; Pernice, W.H.P.;

IEEE, 2015 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXHIBITION (OFC), Los Angeles 2015.

193.
Diamond electro-optomechanical devices with resonance frequencies above 100 MHz

Rath, P.; Ummethala, S.; Diewald, S.; Lewes-Malandrakis, G.; Brink, D.; Heidrich, N.; Nebel, C.E.; Pernice, W.H.P.

IEEE 2015 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO) San Jose, CA, 2015.

192.
Dye-sensitization of boron-doped diamond foam: champion photoelectrochemical performance of diamond electrodes under solar light illumination

Krysova, H.; Kavan, L.; Zivcova, Z.V.; Yeap, W.S.; Verstappen, P.; Maes, W.; Haenen, K.; Gao, F.; Nebel, C.E.;

RSC ADVANCES 5 (2015) 81069-81077.

191.
Diamond Ultramicro- and Nano-electrode Arrays

Yang, N.J.; Hees, J.; Nebel, C.E.;

Edited by:Yang, N. NOVEL ASPECTS OF DIAMOND: FROM GROWTH TO APPLICATIONS; Book Series: Topics in Applied Physics 121 (2015) 273-293.

190.
Aligned Pt-diamond core-shell nanowires for electrochemical catalysis

F. Gao, R. Thomann, C.E. Nebel

ELECTROCHEMISTRY COMMUNICATIONS 50 (2015) 32-35.

189.
Diamond-coated silicon wires for supercapacitor applications in ionic liquids

F. Gao, G. Lewes-Malandrakis, M. Wolfer, W. Müller-Sebert, P. Gentile, D.Aradilla, T. Schubert, C.E. Nebel,

DIAMOND AND RELATED MATERIALS 51 (2015) 1-6.

188.
Diamond Ultramicro- and Nano-electrode Arrays

N. Yang, J. Hees, C.E. Nebel,

NOVEL ASPECTS OF DIAMOND: FROM GROWTH TO APPLICATIONS   

Book Series: Topics in Applied Physics, Volume: 121 (2015) 273-293

187.
Electrochemical generation of hydrogenated graphene flakes

M. Zhao, X.-Y. Guo, O. Ambacher, Oliver; C.E. Nebel, R. Hoffmann.

CARBON 83 (2015): 128-135.

YEAR 2014

186.
Highly porous diamond foam as a thin-film micro-supercapacitor material

F. Gao, M. Wolfer, C.E. Nebel,

CARBON 80 (2014) 833-840.

185.
F- and Cl-terminations of (100) oriented single crystalline diamond

C.J. Widmann, C. Giese, M. Wolfer, S. Kono, C.E. Nebel

PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE 211 (2014) 2328-2332.

184.
Diamond electro-optomechanical resonators integrated in nanophotonic circuits

P. Rath, S. Ummethala,S. Diewald, S.; G. Lewes-Malandrakis, D. Brink, N. Heidrich, C.E. Nebel, W.H.P Pernice.

APPLIED PHYSICS LETTERS 105 (2014) 251102.

183.
Surface functionalization and biological applications of CVD diamond,

Szunerits, S; Nebel, C.E.; Hamers, R.J.;

MRS BULLETIN 39 (6) (2014) 517-524.

182.
Focused ion beam (FIB)-induced changes in the electrochemical behavior of boron-doped diamond (BDD) electrodes,

A. Eifert, P. Langenwalter, Jonas Higl, M. Lindén, C.E. Nebel, B. Mizaikoff, C. Kranz,

Electrochimica Acta 130 (2014)418–425.

181.
Elastic properties of ultrathin diamond/AlN membranes,
Zuerbig, V.; Hees, J.; Pletschen, W.; Sah, R.E. Wolfer, M.; Kirste, L.; Heidrich, N.; Nebel, C.E.; Ambacher, O.; Lebedev, V.;

THIN SOLID FILMS 558 (2014) 267-271.

180.
High-Q optomechanical circuits made from polished nanocrystalline diamond thin films,
Ummethala, S.; Rath, P.; Lewes-Malandrakis, G.; Brink, D.; Nebel, C.E.; Pernice, W.H.P.;

DIAMOND AND RELATED MATERIALS 44 (2014) 49-53.

179.
Tuned NV emission by in-plane Al-Schottky junctions on hydrogen terminated diamond

C. Schreyvogel, M. Wolfer, H. Kato, M. Schreck, C.E. Nebel     

Scientific Reports 4, 3634 doi:10.1038/srep03634 (2014).

178.
Surface electronic properties of diamond

C.E. Nebel

Elsevier, Super Hard Materials, Editors C.E. Nebel, V. Sarin

p. 339 - 364 (2014).

ISBN: 9780080965277

177.
Nanostructured diamond decorated with Pt particles: preparation and electrochemistry

Shpilevaya, I.; Smirnov, W.; Hirsz, S.; Yang, N.J.; Nebel, C.E.; Foord, J.S.;

RSC ADVANCES Volume: 4 p. 531-537 (2014). 

YEAR 2013

176.
Enhanced mechanical performance of AlN/nanodiamond micro-resonators

Heidrich, N.; Iankov, D.; Hees, J.; Pletschen, W. ; Sah, R.E.; Kirste, L.; Zuerbig, V.; Nebel, C.E.; Ambacher, O.; Lebedev, V.

J. Micromechanics and Microengineering, 23(12),125017 (2013)

175.
Piezoelectrically actuated diamond cantilevers for high-frequency applications

N. Heidrich, V. Zuerbig, D. Iankov, W. Pletschen, R.E. Sah, B. Raynor, L. Kirste, C.E. Nebel, O. Ambacher, V. Lebedev

Diamond and Related Materials, 38, p. 69-72, (2013)

174.
Transparent diamond electrodes for tunable micro-optical devices

V. Zuerbig, W. Pletschen, J. Hees, R.E. Sah, L. Kirste, N. Heidrich, C.E. Nebel, O. Ambacher, V. Lebedev

Diamond and related Materials, 38, p. 101-103, (2013)

173.
Photocatalysis: A source of energetic electrons

C.E. Nebel

Nature Materials, 12(9), p. 780-781, (2013)

172.
Diamond Nanoelectrode Arrays for the Detection of Surface Sensitive Adsorption

J. Hees, R. Hoffmann, N. Yang, C.E. Nebel

Chemistry-A European Journal, 19(34), p. 11287-11292, (2013)

171.
Diamond foam electrodes for electrochemical applications

H. Kato, J. Hees, R. Hoffmann, M. Wolfer, N. Yang, S. Yamasaki, C.E. Nebel

Electrochemistry Communications, 33, p. 88-91, (2013)

170.
Valleytronics: Electrons dance in diamond

C.E. Nebel,

Nature Materials, 12(8), p. 690-691, (2013)

169.
Diamond Decorated with Copper Nanoparticles for Electrochemical Reduction of Carbon Dioxide

N. Yang, F. Gao, C.E. Nebel,

Analytical Chemistry, 85(12), p. 5764-5769, (2013)

168.
Grating-assisted coupling to nanophotonic circuits in microcrystalline diamond thin films

P. Rath, S. Khasminskaya, C.E. Nebel, C. Wild, W.H.P. Pernice

Beilstein journal of nanotechnology,(4), p. 300-305, (2013)

167.
Waferscale nanophotonic circuits made from diamond-on-insulator substrates

P. Rath, N. Gruhler, S. Khasminskaya, C. Nebel, C. Wild, W.H.P. Pernice

Optics express, 21(9), p.11031-11036, (2013)

166.
Shape-controlled platinum nanocrystals on boron-doped diamond

F. Gao, N. Yang, H. Obloh, C.E. Nebel

Electrochemistry Communications, 30, p. 55-58, (2013)

165.
Tunable light emission from nitrogen-vacancy centers in single crystal diamond PIN diodes

H. Kato; M. Wolfer, C. Schreyvogel, M. Kunzer, W. Müller-Sebert, H. Obloh, S. Yamasaki, C.E. Nebel

Applied Phys. Lett., 102(15), Article Number: 151101, (2013)

164.
Diamond-integrated optomechanical circuits

P. Rath, S. Khasminskaya, C.E. Nebel, C. Wild, W.H.P. Pernice

Nature communications, 4, article number: 1690, (2013)

163.
Size-controllable and homogeneous platinum nanoparticles on diamond using wet chemically assisted electrodeposition

F. Gao, N. Yang, W. Smirnov, H. Obloh, C.E. Nebel

Electrochemica acta, 90, p. 445-451, (2013)

162.
Three-dimensional electrochemical reactions on tip-coated diamond nanowires with nickel nanoparticles

N. Yang, W. Smirnov, C.E.Nebel,

Electrochemistry Communications, 27, p. 89-91, (2013)

161.
Piezoelectric actuated micro-resonators based on the growth of diamond on aluminum nitride thin films

J. Hees, N. Heidrich, W. Pletschen, R.E. Sah, M. Wolfer, O.A. Williams, V. Lebedev, C.E. Nebel, O. Ambacher

Nanotechnology, 24 (2), Article number:025601, (2013)

YEAR 2012

160.
Diamond nanophotonics

K. Beha, H. Fedder, M. Wolfer, et al.

Beilstein journal of nanotechnology, 3, p. 895-908, (2012)

159.
Atomic force microscopy probes with integrated boron doped diamond electrodes: Fabrication and application

A. Eifert, W. Smirnov, S. Frittmann, C.E. Nebel, B. Mizaikoff, C. Kranz

Electrochemistry Communications, 25, p. 30-34, (2012)

158.
SECM detection of single boron doped diamond nanodes and nanoelectrode arrays using phase-operated shear force technique

C. Dincer, E. Laubender, J. Hees, C.E. Nebel, G. Urban, J. Heinze

Electrochemistry Communications, 24, p. 123-127, (2012)

157.
Electrochemistry of Nanocrystalline 3C Silicon Carbide Films

N. Yang, H. Zhuang, R. Hoffmann, W. Smirnov, J. Hees, X. Jiang, C.E. Nebel

Chemistry-A European Journal, 18(21), p. 6514-6519, (2012)

156.
Fractional Surface Termination of Diamond by Electrochemical Oxidation

R. Hoffmann, H. Obloh, N. Tokuda, N. Yang, C.E. Nebel

Langmuir, 28(1), p. 47-50, (2012)

YEAR 2011

155.
The creation of a biomimetic interface between boron-doped diamond and immobilized proteins

R, Hoffmann, A. Kriele, H. Obloh, N. Tokuda, W. Smirnov, N. Yang, C.E. Nebel

Biomaterials, 32(30), p. 7325-7332, (2011)

154.
Integrated All-Diamond Ultramicroelectrode Arrays: Optimization of Faradaic and Capacitive Currents

W. Smirnov, N. Yang, R. Hoffmann, J. Hees, H. Obloh, W. Müller-Sebert, C.E. Nebel

Analytical Chemistry, 83(19), p. 7438-7443, (2011)

153.
Diamond ultra-microelectrode arrays for achieving maximum Faradaic current with minimum capacitive charging

N. Yang, W. Smirnov, J. Hees, R. Hoffmann, A. Kriele, H. Obloh, W. Müller-Sebert, C.E. Nebel

Phys. Stat. Sol. A, 208(9), p. 2087-2092, (2011)

152.
Nanocrystalline 3C-SiC Electrode for Biosensing Applications

N. Yang, H. Zhuang, R. Hoffmann, W. Smirnov, J. Hees, X. Jiang, C.E. Nebel

Analytical chemistry, 83 (15), p.5827-5830, (2011)

151.
DNA-sensor based on AlGaN/GaN high electron mobility transistor

S.U. Schwarz, S. Linkohr, P. Lorenz, S. Krischok, T. Nakamura, V. Cimalla, C.E. Nebel, O. Ambacher

Phys. Stat. sol. A, 208 (7), p. 1626-1629, (2011)

150. 

Diamond-Modified AFM Probes: From Diamond Nanowires to Atomic Force Microscopy-Integrated Boron-Doped Diamond Electrodes

W. Smirnov, A. Kriele, R. Hoffmann, E. Sillero, J. Hees, O.A. Williams, N.J. Yang, C. Kranz, C.E. Nebel

Analytical Chemistry, 83(12), p. 4936-4941, (2011)

149.
Formation of nano-pores in nano-crystalline diamond films

A. Kriele, O.A. Williams, M. Wolfer, J.J. Hees, W. Smirnov, C.E. Nebel

Chemical Physics Letters, 507(4-6), p. 253-259, (2011)

148.
Nanocrystalline Diamond Nanoelectrode Arrays and Ensembles

J. Hees, R. Hoffmann, A. Kriele, W. Smirnov, H. Obloh, K. Glorer, B. Raynor, R. Driad, N. Yang, O.A. Williams, C.E. Nebel

ACS NANO, 5(4), p. 3339-3346, (2011)

147.
Field electron emission properties of n-type (111)-oriented single crystal cubic boron nitride

T. Yamada, C.E. Nebel, T. Taniguchi,

Journal of Vacuum Science & Technology B, 29(2), (2011)

146.
Interface properties of cytochrome c on a nano-textured diamond surface

N. Yang, R. Hoffmann, W. Smirnov, C.E. Nebel

Diamond and Related materials, 20, p. 269-273, (2011)

145.
Field emission mechanism of n-type semiconducting diamond with negative electron affinity

T. Yamada, M. Hasegawa, Y. Kudo, T. Masuzawa, K. Okano, C.E. Nebel

24th International vacuum nanoelectronics conference (IVNC), p. 125-126, (2011)

144. 

Matrix-addressable infrared filters for the protection of highly sensitive detectors

H. Obloh, W. Müller-Sebert, D. Brink, W. Fehrenbach, C.E. Nebel, C. Wild, E. Worner

Defense Science Research Conference And Expo (DSR), 4 pp., (2011)

YEAR 2010

143. 

Field electron emission properties of n-type single crystal cubic boron nitride

T. Yamada, C.E. Nebel, T. Taniguchi 

23rd International Vacuum Nanoelectronics Conference (IVNC), p.1-2 (2010). 

142.
Direct electrochemistry of cytochrome c on nanotextured diamond surface

N. Yang, R. Hoffmann, W. Smirnov, A. Kriele, C.E. Nebel 

Electrochemistry Communications, 12 (9), p. 1218-1221 (2010). 

141.
Doping of single crystalline diamond with nickel

M. Wolfer, H. Obloh, O.A. Williams, C.-C. Leancu, L. Kirste, E. Gheeraert, C.E. Nebel, 

Phys. Stat. Sol. A, 207 (9), p. 2054-7 (2010). 

140.
Diamond nanotextured surfaces for enhanced protein redox activity

N. Yang; W. Smirnov, A. Kriele, R. Hoffmann, C.E. Nebel,

Phys. Stat. Sol. A, 207 (9), p.2069-72 (2010).

139. 

Adsorption of cytochrome c on diamond

R. Hoffmann,A. Kriele, S. Kopta, W. Smirnov, N. Yang, 

Phys. Stat. Sol. A, 207 (9), p. 2073-7 (2010). 

138.
Anisotropic etching of diamond by molten Ni particles

W. Smirnov, J. Hees, D. Brink, W. Muller-Sebert, A. Kriele, O.A. Williams, C.E. Nebel 

Appl. Phys. Lett., 97 (7), 073117 (2010) 

137.
Size-Dependent Reactivity of Diamond Nanoparticles

O.A. Williams, J. Hees, C. Dieker, W. Jager, L. Kirste, C.E. Nebel

ACS NANO, 4 (8), p. 4824-4830 (2010). 

136.
Electrochemical hydrogen termination of boron-doped diamond

R. Hoffmann, A. Kriele, H. Obloh, J. Hees, M. Wolfer, W. Smirnov, N. Yang, C.E. Nebel 

Applied Phys. Lett., 97 (5), 052103 (2010).

135.
High Young's modulus in ultra thin nanocrystalline diamond

O.A. Williams, A. Kriele, J. Hees, M. Wolfer, W. Muller-Sebert, C.E. Nebel

Chemical Physics Letters, 495 (1-3), p. 84 - 89 (2010). 

134.
A novel bio-functionalization of AlGaN/GaN-ISFETs for DNA-sensors

S. Linkohr, S. Schwarz, S. Krischok, P. Lorenz, V. Cimalla, C.E. Nebel, O. Ambacher

Phys. Stat. Sol. C, 7 (7-8), p. 1810-13 (2010)

133.
Resonat field emission from 2D-DOS on hydrogen terminated intrinsic diamond

T. Yamada, S.-I. Shikata, C.E. Nebel

J. Appl. Phys., 107, 013705 (2010).

132.
Aligned diamond nano-wires: Fabrication and characterisation for advanced applications in bio- and electrochemistry

W. Smirnov, A. Kriele, N. Yang, C.E. Nebel

Diamond and Related Materials, 19 (2-3), p. 186-189 (2010).

YEAR 2009

131. 

Field emission properties of nano-structured phosphorus-doped diamond

T. Yamada, C.E. Nebel, S.-I. Shikata

Applied Surface Science, 256, p.1006–1009 (2009).

130.
Characterization of Diamond Surface Terminations Using Electrochemical Grafting with Diazonium Salts

N. Yang, J. Yu, H. Uetsuka, C.E. Nebel

Electrochemistry Communications, 11, p. 2237-2240 (2009).

129.
Light sources: Tackling the deep ultraviolet

Christoph E. Nebel

Nature Photonics Vol. 3 (10), p. 564-566 (2009).

128.
Static and dynamic determination of the mechanical properties of nanocrystalline diamond micromachined structures

E. Sillero, O.A. Williams, V.Lebedev, V. Cimalla,C.C. Röhlig, C.E. Nebel, F. Calle 

J. Micromechanics and Microengineering, Vol. 19 (11), 115016 (2009).

127.
Field emission characteristics of 2D hole accumulation layer on H-terminated CVD diamond

T. Yamada, C.E. Nebel, S.Shikata 

22nd International Vacuum Nanoelectronics Conference (IVNC2009), p 245-246 (2009).

126.
Nickel doping of nitrogen enriched CVD-diamond for the production of single photon emitters

M. Wolfer, A. Kriele, O.A. Williams, H. Obloh, C.C. Leancu, C.E. Nebel 

Phys. Stat. Sol. A, Vol. 206 (9), p. 2012-2015 (2009).

125.
Vertically aligned diamond nanowires: Fabrication, characterization, and application for DNA sensing

N. Yang, H. Uetsuka, O.A. Williams, E. Osawa, N. Tokuda, C.E. Nebel 

Phys. Stat. Sol. A, Vol. 206 (9), p. 2048-2056 (2009).

124.
Tuneable optical lenses from diamond thin films

A. Kriele A, O.A. Williams, M. Wolfer, D. Brink, W. Müller-Sebert, C.E.Nebel

App. Phys. Lett., Vol. 95 (3), Article Number: 031905 (2009).

123.
Diamond nano-wires, a new approach towards next generation electrochemical gene sensor platforms

C.E. Nebel, N. Yang, H. Uetsuka, E. Osawa, N. Tokuda, O.A. Williams 

Diam.Rel. Mat., Vol. 18 (5-8), p. 910-917 (2009).

122.
Isotopic homojunction band engineering from diamond

H. Watanabe, C.E.Nebel, S. Shikata 

Science, Vol. 324(5933), p.1425-1428 (2009).

121.
Biofunctionalization of vertically aligned diamond nanowires

N. Yang, H. Uetsuka, C.E. Nebel 

Adv. Funct. Mat., Vol. 19 (6), p. 887-893 (2009).

120.
DNA-sensing with nano-textured diamond electrodes

N. Yang, H. Uetsuka, C.E. Nebel 

Diam. Rel. Mat., Vol. 18 (2-3), p. 592-595 (2009).

119.
Olefin bonding mechanism and growth to (100)(2 x 1):H diamond

C.E. Nebel, N. Yang, H. Uetsuka 

Surface Science, Vol. 603 (1), p. L5-L8 (2009).

YEAR 2008

118. 

Field Emission from Modified P-Doped Diamond Surfaces with Different Barrier Heights

Y. Kudo, T. Yamada, H. Yamaguchi, T. Masuzawa, I. Sairo, S. Shikata, C.E. Nebel, K. Okano 

Jap. J. Appl.Phys., Vol. 47(12), p.8921-8924 (2008).

117.
DNA-sensing with nano-textured diamond electrodes

N. Yang, H. Uestuka, C.E. Nebel

Diamond and Related Materials, online 4 September 2008.

116.
Surface modification by vacuum annealing for field emission from heavily phosphorus-doped homoepitaxial (1 1 1) diamond

T. Yamada, C.E. Nebel, K. Somu, S. Shikata

Applied Surface Science 254, 7921-7924 (2008).

115.
Detection of nucleic acids using diamond

C.E. Nebel, N. Yang, H. Uetsuka, E. Osawa, O. Williams

New Diamond 24(3), 10-17 (2008).

114.
Biosensors from Diamond

C.E. Nebel, B. Rezek, D. Shin, H. Uetsuka, N. Yang

In: “Physics and Applications of CVD Diamond”, Editos: S. Koizumi, C.E. Nebel, M. Nesladek, Wiley-VCR 2008 (ISBN: 978-3-527-40801-6), p. 129-176 (2008).

113. 

Electrochemical properties of undoped diamond

C.E. Nebel, B. Rezek, D. Shin

In: “Physics and Applications of CVD Diamond”, Editors: S. Koizumi, C.E. Nebel, M. Nesladek, Wiley-VCR 2008 (ISBN: 978-3-527-40801-6), p. 93-127 (2008).

112.
Vertically Aligned Nanowires from Boron-Doped Diamond

N. Yang, H. Uestuka, E. Osawa and C.E. Nebel

Nano Letters, Vol. 8(11), p. 3572-3576 (2008).

111.
Microscopic Detection of DNA Hybridization using Miniaturized Diamond DNA-FETs

C.E. Nebel, H. Uetsuka, N. Yang, T. Yamada, H. Watanabe

Mat. Res. Soc. Symp. Proc. Vol. 1039, 213-218 (2008).

110.
Electrochemical-microscopy analysis of bio-functionalized diamond surfaces

H. Uetsuka, N. Yang, N. Tokuda, C.E. Nebel

Mat. Res. Soc. Symp. Proc. Vol. 1039, 195-200 (2008).

109. 

Barrier height difference induced by surface termiantions for field emission from P-doped diamond

Y. Kudo, T. Yamada, H. Yamaguchi,, T. Masuzawa, I. Saito, S. Shikata, C.E. Nebel, K. Okano

Mat. Res. Soc. Symp. Proc. Vol. 1039, 117-122 (2008).

108.
STM Characterization of Low Dimensional Surface Electronic Properties of Undoped

Diamond in Buffer Solutions

N. Yang, H. Uetsuka, T. Yamada, C.E. Nebel

Mat. Res. Soc. Symp. Proc. Vol. 1039, 77-83 (2008).

107.
Vertically aligned diamond nanowires for DNA sensing

N. Yang, H.Uetsuka, E. Osawa and C.E. Nebel

Angewandte Chemie Int. Ed. 47, 5183-5185 (2008).

106.
Photochemical Attachment of Amine-layers on H-terminated Undoped Single Crystalline CVD Diamonds

N. Yang, H.Uetsuka, H.Watanabe,T.Nakamura, C.E. Nebel

Diamond and Rel. Materials 17, 1376-1379 (2008).

105.
Effect of vacuum annealing on field emission from heavily phosphorus doped homoepitaxial (111) diamond

T. Yamada, K. Somu, C.E. Nebel, S. Shikata

Diamond and Related Materials 17, 745-748 (2008).

104.
Cathodoluminescence experiments on isotopic clean diamond with carbon isotopes 12C and 13C

H. Watanabe and C.E. Nebel

Diamond and Related Materials 17, 511-514 (2008).

103.
Amine-layer growth and electronic properties on H-terminated undoped single crystalline CVD diamond

N. Yang, H. Uetsuka, H. Watanabe, T. Nakamura, C.E. Nebel

Diamond and Related Materials 17, 892-895 (2008).

102.
Quantized electronic properties of diamond

C.E. Nebel, N. Yang, H. Uetsuka, T. Yamada, H. Watanabe

J. Appl. Phys. 103, 013712 (2008).

YEAR 2007

101.
Surface conducting diamond

C.E. Nebel

Science Vol. 318, 1391-1392 (2007).

100.
Microscopic diagnostics of DNA molecules on mono-crystalline diamond

B. Rezek, D.Shin, H.Uetsuka, C.E. Nebel

phys. stat. sol. (a) 204(9), 2888-2897 (2007).

99.
Properties of hybridized DNA arrays on single-crystalline undoped and boron-doped (100) diamonds studied by atomic force microscopy in electrolytes

B. Rezek, D. Shin, C.E. Nebel

Langmuir 23(14), 7626-7676 (2007).

98. 

Diamond for biosensor applications

C.E. Nebel, B. Rezek, D. Shin, H. Uetsuka, N. Yang

J. Phys. D: Appl. Phys. 40, 6443–6466 (2007).

97.
Photochemical amine layer formation on H-terminated single-crystalline CVD diamond

N. Yang, H. Uetsuka, H. Watanabe, T. Nakamura, C.E. Nebel

Chemistry of Materials 19, 2852-2859 (2007).

96.
DNA-ISFETs from single crystalline diamond

C.E. Nebel, D. Shin, T. Yamamoto, T. Nakamura

Mat. Res. Soc. Proc. 956, 229-234 (2007).

95. 

Diamond surface modifications with diazonium salt

H. Uetsuka, D. Shin, N. Tokuda, K. Saeki, C.E. Nebel

Mat. Res. Soc. Proc. 956, 201 -207 (2007).

94. 

DNA bonding to CVD diamond probed by scanning electron-, fluorescence-, and atomic force microscopy

C.E. Nebel, H. Uetsuka, B. Rezek, D. Shin, N. Tokuda, T. Nakamura

Mat. Res. Soc. Proc. 956, 113-119 (2007).

93. 

Field emission from surface-modified heavily phosphorus-doped homoepitaxial (111) diamond

T. Yamada, C.E. Nebel, K. Somu, H. Uetsuka, H. Yamaguchi, Y. Kudo, K. Okano, S. Shikata

phys. stat. sol. (a) 204 (9), 2957-2964 (2007).

92. 

Field emission characteristics of surface-reconstructed heavily phosphorus-doped homoepitaxial diamond

T. Yamada,H. Yamaguchi, Y. Kudo, K. Okano, S. Shikata, C.E. Nebel

J. Vac. Sci. Technol. B 25(2), 528–531 (2007).

91. 

Surface defect states analysis on diamond by photoelectron emission yield experiments

D. Takeuchi, C.E. Nebel and S. Yamasaki

Diam. Rel. Mat. 16 ( 4-7), 823-825 (2007).

90. 

Surface electronic properties on boron doped (111) CVD homoepitaxial diamond films after oxidation treatments

Diamond and Related Materials, In Press, Proof, Available online 27 January 2007,

S.-G. Ri, D. Takeuchi, C.E. Nebel, N. Tokuda, Y. Yamazaki, S. Yamasaki, H. Okushi

Diam. Rel. Mat., 16 (4-7), 831-835 (2007).

89. 

Intrinsic hydrogen-terminated diamond as ion-sensitive field effect transistor

B. Rezek, D. Shin, H. Watanabe, C.E. Nebel

Sensors and Actuators B 122, 596-599 (2007).

88. 

Inhomogeneous DNA bonding to polycrystalline CVD diamond

C.E. Nebel, H. Uetsuka, B. Rezek, D. Shin, N. Tokuda, T. Nakamura

Diam. Rel. Mat. 16, 1648 – 1651 (2007).

87. 

Electrochemical grafting of boron-doped single crystalline CVD diamond

H. Uetsuka, D. Shin, N. Tokuda, K. Saeki, C.E. Nebel

Langmuir 23, 3466-3472 (2007).

86. 

Diamond and Biology

C.E. Nebel, D. Shin, B. Rezek, N. Tokuda, H. Uetsuka, H. Watanabe

Journal of The Royal Society Interface 4, 439–461 (2007).

YEAR 2006

85. 

Development of single-crystal CVD-diamond detectors for spectroscopy and timing

M. Pomorski, E. Berdermann, A. Caragheorgheopol, M. Ciobanu, M. Kis, A. Martemiyanov, C.E. Nebel, P. Moritz

phys. stat. sol. (a) 203 (12), 3152-3160 (2006).

84. 

Photoelectron emission from diamond

D. Takeuchi, C.E. Nebel, S. Yamasaki

phys. stat. sol. (a) 203 (12), 3100-3106 (2006).

83. 

Photo- and electrochemical bonding of DNA to single crystalline

CVD diamond

D. Shin, B. Rezek, N. Tokuda, D. Takeuchi, H. Watanabe, T. Nakamura,

T. Yamamoto, C.E. Nebel

phys. stat. sol. (a) 203 (13), 3245-3272 (2006).

82. 

Surface electronic properties of H-terminated diamond in contact with adsorbates and electrolytes

C.E. Nebel, B. Rezek, D. Shin, and H. Watanabe

phys. stat. sol. (a) 203 (13), 3273-3298 (2006).

81. 

Electronic properties of plasma hydrogenated diamond surfaces:

a microscopic study

B. Rezek, C.E. Nebel

Diam. Rel. Mat. 15 (9), 1374-1377 (2006).

80. 

Periodically arranged benzene-linker molecules on boron-doped single-crystalline diamond films for DNA sensing

D. Shin, N. Tokuda, B. Rezek, C.E. Nebel

Electrochemistry Communications 8 (5), 844-850 (2006).

79. 

Geometric Properties of Covalently Bonded DNA on Single-Crystalline Diamond

B. Rezek, D. Shin, T. Nakamura, C.E. Nebel

J. Am. Chem. Soc. 128(12), 3884-3885 (2006).

78. 

Alkene/Diamond Liquid/Solid Interface Characterization Using Internal Photoemission Spectroscopy

C.E. Nebel, D. Shin, D. Takeuchi, T. Yamamoto, H. Watanabe, T. Nakamura,

Langmuir 22 (13), 5645-5653 (2006).

77. 

Photoelectron emission properties of hydrogen terminated intrinsic diamond

D. Takeuchi, C.E. Nebel, S. Yamasaki

J. Appl. Phys. 99 (8), 086102 (2006).

76. 

Field emission from reconstructed heavily phosphorus-doped homoepitaxial diamond (111)

T. Yamada, K. Okano, H. Yamaguchi, H. Kato, S. Shikata, C.E. Nebel

Appl. Phys. Lett. 88 (21), 212114 (2006).

75. 

Electronic properties of H-terminated diamond in electrolyte solutions

C.E. Nebel, B. Rezek, D. Shin, H. Watanabe, T. Yamamoto, T.

J. Appl. Phys. 99 (3), 033711 (2006).

74. 

High carrier mobility on hydrogen terminated (100) diamond surfaces

B. Rezek, H. Watanabe, C.E. Nebel

Appl. Phys. Lett. 88, 042110 (2006).

73. 

Electrochemical properties of undoped hydrogen terminated CVD diamond

C.E. Nebel, H. Kato, B. Rezek, D. Shin, D. Takeuchi, H. Watanabe, T. Yamamoto

Diam. Rel. Mat. 15 (2-3), 264-268 (2006).

72. 

Redox-couple interactions with undoped single crystalline CVD diamond

D. Shin, H. Watanabe, C.E. Nebel

Diam. Rel. Mat. 15, 121-128 (2006).

71.
Field emission process of O-terminated heavily P-doped homoepitaxial diamond

T. Yamada, H. Kato, D. Takeuchi, S. Shikata, H. Yamaguchi, K. Okano, C.E. Nebel

Diam. Rel. Mat. 15 (4-8), 863-865 (2006).

70. Secondary photoelectron emission experiments on p-, intrinsic, and n-type

diamond

D. Takeuchi, S.-G. Ri, H. Kato, C.E. Nebel, S. Yamasaki

Diam. Rel. Mat. 15 (4-8), 698-702 (2006).

69.
Photochemical attachment of amine linker molecules on hydrogen terminated diamond

C.E. Nebel, D. Shin, D. Takeuchi, T. Yamamoto, H. Watanabe, T. Nakamura

Diam. Rel. Mat. 15 (4-8), 1107-1112 (2006).

68.
Field emission from H- and O-terminated heavily P-doped homoepitaxial diamond

T. Yamada, H. Kato, S. Shikata, C.E. Nebel, H. Yamaguchi, Y. Kudo, K. Okano

J. Vac. Sci. Technol. B 24 (2), 967-969 (2006).

67.
Ion-sensitive field effect transistor on hydrogenated diamond

B. Rezek, H. Watanabe, D. Shin, T. Yamamoto, C.E. Nebel

Diam. Rel. Mat. 15 (4-8), 673-677 (2006).

66.
Surface conductive layers on (111) diamonds after oxygen treatments

S.-G. Ri, C.E. Nebel, D. Takeuchi, B. Rezek, N. Tokuda, S. Yamasaki, H. Okushi

Diam. Rel. Mat. 15 (4-8), 692-697 (2006).

YEAR 2005

65.
Surface transfer-doping of H-terminated diamond with adsorbates

C.E. Nebel

New Diamond and Frontier Carbon Technology 15 (5), 247-264 (2005).

64.
Surface conductive layers on oxidized (111) diamonds

S.-G. Ri, D. Takeuchi, H. Kato, M. Ogura, T. Makino, S. Yamasaki, H. Okushi, B. Rezek, C.E. Nebel

Appl. Phys. Lett. 87 (26), 262107 (2005).

63.
Total photoyield experiments on hydrogen terminated n-type diamond

D. Takeuchi, S.-G. Ri, H. Kato, C.E. Nebel, S. Yamasaki

Diam. Rel. Mat. 14 (11-12), 2019-2022 (2005).

62.
Insulator-Metal Transition of Intrinsic Diamond

D. Shin, H. Watanabe, C.E. Nebel

J. Am. Chem. Soc. 127 (32), 11236-11237 (2005).

61.
Field emission mechanism of oxidized highly phosphorus-doped homoepitaxial diamond (111)

T. Yamada, C.E Nebel, B. Rezek, D. Takeuchi, N. Fujimori, A. Namba, Y. Nishibayashi, H. Yamaguchi, I. Saito, K. Okano

Appl. Phys. Lett. 87 (23), 234107 (2005).

60.
Characterization of diamond semiconductors by total photoelectron yield spectroscopy

D. Takeuchi, S. Yamasaki, C.E. Nebel,

New Diamond 78, 6 (2005).

59.
Kelvin force microscopy on diamond surfaces and devices

B. Rezek, C.E. Nebel

Diamond and Rel. Mat. 14, 466 (2005).

58.
Electrochemical characterization of intrinsic hydrogen terminated single crystalline CVD diamond

D. Shin, H. Watanabe, C.E. Nebel

phys. stat. sol. (a), Vol. 195, 2104-2109(2005).

57.
Negative electron affinity on hydrogen terminated Diamond

D. Takeuchi, S.G. Ri, H. Kato, C.E. Nebel, S. Yamasaki

phys. stat. sol. (a), Vol. 195, 1-6 (2005).

56.
Direct observation of negative electron affinity in hydrogen-terminated

diamond surfaces

D. Takeuchi, H. Kato, G.S. Ri, T. Yamada, P.R. Vinod, D. Hwang,

C.E. Nebel, H. Okushi, S. Yamasaki

Appl. Phys. Lett. 86, 152103 (2005).

YEAR 2004

55.
Hydrogenated diamond surfaces studied by atomic and Kelvin

force microscopy

B. Rezek, C.E. Nebel, M. Stutzmann

Diam. and Rel. Mat. 13, 740-745 (2004).

54.
2D-hole accumulation layer in hydrogen terminated Diamond

C.E. Nebel, B. Rezek, A. Zrenner

phys. stat. sol. (a) 11, 2432-2438 (2004).

53.
Electronic properties of the 2D-hole accumulation layer on hydrogen

terminated diamond

C.E. Nebel, B. Rezek, A. Zrenner

Diam. and Rel. Mat. 13 (11-12), 2031-2036 (2004).

YEAR 2003

52.
From gemstone to semiconductor

C.E. Nebel

Nature Materials, Vol. 2 (7), 431-432 (2003).

51.
Transport and defect properties of intrinsic and boron-doped diamond

C.E. Nebel

in: “Thin-Film Diamond I”

Semiconductors and Semimetals Vol. 76

Editors. C.E. Nebel, J. Ristein

Elsevier, Academic Press, p. 261–324 (2003).

50.
Electronic properties of CVD diamond

C.E. Nebel

in: “Semiconductor Science and Technology Vol. 18”

Special issue: Diamond Electronics

Guest editor: R. Jackman

Institute of Physics Publishing, p. S1-S11 (2003).

49.
Charge-based deep level transient spectroscopy of phosphorus-doped homoepitaxial diamond

O. Gaudin, D.K. Troupis, R.B. Jackman, C.E. Nebel, S. Koizumi, E. Gheeraert

J. Appl. Phys. 94 (9), p. 5832-5843 (2003).

48.
Novel in-plane gate devices on hydrogenated diamond surfaces

J.A. Garrido, C.E. Nebel, R. Todt, M.C. Amann, O.A. Williams, R. Jackman, M. Nesladek, M. Stutzmann

phys. stat. sol. (a) 199 (1), p. 56-63 (2003).

47.
Superficial electronics, Nature research highlight, 20.2.2003

“Fabrication of in-plane gate transistors on hydrogenated diamond surfaces

J. A. Garrido, C. E. Nebel, R. Todt, G. Rösel, M.-C. Amann, M. Stutzmann,

E. Snidero, and P. Bergonzo

Appl. Phys. Lett. 82, 988 (2003).

46.
Scribing into hydrogenated diamond surfaces using atomic force microscopy

B. Rezek, C. Sauerer, J.A. Garrido, C.E. Nebel, M. Stutzmann, E. Snidero,

P. Bergonzo

Appl. Phys. Lett. 82 (19), 3336-3338 (2003).

45.
AlN/diamond np-junctions

C.E. Nebel, C. R. Miskys, J.A. Garrido, M. Hermann, O. Ambacher, M. Eickhoff,

M. Stutzmann

Diam. and Rel. Mat. 12 (10–11), 1873-1876 (2003).

44.
Fermi-level on hydrogen terminated diamond surfaces

B. Rezek, C. Sauerer, C. E. Nebel, M. Stutzmann, J. Ristein, L. Ley, E. Snidero,

P. Bergonzo

Appl. Phys. Lett. 82(14), p. 2266-2268 (2003).

43.
Fabrication of in-plane gate transistors on hydrogenated diamond surfaces

J. A. Garrido, C. E. Nebel, R. Todt, G. Rösel, M.-C. Amann, M. Stutzmann,

E. Snidero, and P. Bergonzo

Appl. Phys. Lett. 82 (6), p. 988-990 (2003).

42.
AlN/diamond heterojunction diodes

C. R. Miskys, J. A. Garrido, C. E. Nebel, M. Hermann, O. Ambacher,

M. Eickhoff, and M. Stutzmann

Appl. Phys. Lett. 82 (2), p. 290-292 (2003).

41.
High carrier mobilities in black diamond

O.A. Williams, R.B. Jackman, C.E. Nebel, J.S. Foord

Semicond. Sci. Tech. 18 (3), p. S77–S80 (2003).

YEAR 2002

40. 

Characterization of sub-micron in-plane devices in H-terminated diamond

J.A. Garrido, C.E. Nebel, M. Stutzmann, G. Rösel, R. Todt, M.-C. Amann,

E. Snidero, P. Bergonzo

phys. stat. sol. (a) 193 (3), p. 517-522 (2002).

39.
Local oxidation of hydrogenated diamond surfaces for device fabrication

B. Rezek, J.A. Garrido, M. Stutzmann, C.E. Nebel, E. Snidero, P. Bergonzo

phys. stat. sol. (a) 193 (3), p. 523–528 (2002).

38.
Characterization of n-type doped homoepitaxial diamond thin films

A. Tajani, E. Gheeraert, N. Casanova, E. Bustarret, J.A. Garrido, G. Rumen,

C.E. Nebel, M.E. Newton, D. Evans

phys. sat. sol. (a) 193 (3), p. 541 - 545 (2002).

37.
GaN-based heterostructures for sensor applications

M. Stutzmann, G. Steinhoff, M. Eickhoff, O. Ambacher, C.E. Nebel, J. Schalwig,

R. Neuberger, G. Müller

Diamond and Rel. Mat. 11 (3–6), 886-891 (2002).

36.
Hydrogenated black diamond: An electrical study

O.A. Williams, R.B. Jackman, C.E. Nebel

Phys. Stat. sol. (a) 193 (3), p. 577–584 (2002).

35.
Capacitance voltage studies of Al-Schottky contacts on hydrogen terminated diamond

J. A. Garrido, C. E. Nebel, M. Stutzmann, E. Snidero, and P. Bergonzo

Appl. Phys. Lett. 81 (4), p. 637-639 (2002).

34. 

Electron spin resonance of phosphorus in n-type diamond

T. Graf, M.S. Brandt, C.E. Nebel, M. Stutzmann, S. Koizumi

phys. stat. sol. (a) 193 (3), p. 434-441 (2002).

33.
Laser beam induced currents in polycrystalline silicon thin films prepared by interference laser crystallization

B. Rezek, C.E. Nebel, M. Stutzmann

J. Appl. Phys. 91 (7), p. 4220-4228 (2002).

32.
Epitaxial growth of phosphorus doped diamond in (111) substrate

N. Casnova, A. Tafani, E. Gheeraert, E. Bustarret, J.A. Garrido, C.E. Nebel, M. Stutzmann

Diamond and Rel. Mat. 11 (3–6),328-331 (2002).

31.
Influence of the environment on the surface conductivity of CVD diamond

J.S. Foord, C.H. Lau, M. Hiramatsu, R.B. Jackman, C.E. Nebel, P. Bergonzo

Diam. and Rel. Mat. 11 (3–6), 856-860 (2002).

30.
n-type doping of diamond by sulfur and phosphorus

E. Gheeraert, N. Casanova, A. Tafani, A. Deneuville, E. Bustarret, J.A. Garredo, C.E. Nebel, M. Stutzmann

Diamond and Rel. Mat. 11 (3–6), 289-295 (2002).

29. 

Low temperature properties of the p-type surface conductivity of diamond

C.E. Nebel, C. Sauerer, F. Ertl, M. Stutzmann, P. Bergonzo, H. Okushi, O.A. Williams, R. Jackman

Diamond and Rel. Mat. 11 (3–6), 351-354 (2002).

28.
Electrical and optical measurements of CVD diamond doped with sulfur

J.A. Garrido, C.E. Nebel, M. Stutzmann, E. Gheeraert, N. Casanova, E. Bustarret

Phys. Rev. B. 65 (16), p. 165409 (2002).

27.
A new acceptor state in CVD diamond

J.A. Garrido, C.E. Nebel, M. Stutzmann, E. Gheeraert, N. Casanova, E. Bustarret

Diamond and Rel. Mat. 11 (3-6), 347-350 (2002).

YEAR 2001

26.
Hydrogen-induced transport properties of holes in diamond surface layers

C.E. Nebel, C. Sauere, F. Ertl, M. Stutzmann, C.F.O. Graeff, P. Bergonzo,

O.A. Williams, R. Jackman

APL 79 (27), 4541-4543 (2001).

25. 

Electrically detected magnetic resonance studies of phosphorus doped diamond

T. Graf, M.S. Brandt, C.E. Nebel, M. Stutzmann, S. Koizumi

Physics B 308, 593-597 (2001).

24.
Carrier generation within the surface region of hydrogenated thin film polycrystalline diamond

O.A. Williams, M. D. Whitfield, R.B. Jackman, J.S. Foord, J. E. Butler,

C.E. Nebel

Diamond and Rel. Mat. 10 (3-7), 423-428 (2001).

23.
Low temperature surface conductivity of hydrogenated diamond

C. Sauere, F. Ertl, C.E. Nebel, M. Stutzmann, P. Bergonzo, O.A. Williams, R.A. Jackman

phys. stat. sol. (a) 186 (2), p. 241-247 (2001).

22. 

Formation of shallow acceptors states in the surface region of thin film diamond

O. A. Williams, M. D. Whitefield, R. B. Jackman, J.S. Foord, J.E. Buttler,

C.E. Nebel

Appl. Phys. Lett. 78 (22), p. 3460-3462 (2001).

21. 

Space charge spectroscopy of diamond

C.E. Nebel, R. Zeisel, M. Stutzmann

Diamond and Rel. Mat. 10 (3-7), 639-644 (2001).

20.
Long living excited states in boron doped diamond

C.E. Nebel, E. Rohrer, M. Stutzmann

J. Appl. Phys. 89 (4), 2237 -2240 (2001).

YEAR 2000

19. 

Photoconductivity study of Li doped homoepitaxially grown CVD diamond

R. Zeisel, C.E. Nebel, M. Stutzmann, H. Sternschulte, M. Schreck, B. Stritzker

phys. stat. sol. (a) 181 (1), 45-50 (2000).

18.
Capacitance-voltage profiling of deuterium passivation and diffusion in diamond Schottky diodes

R. Zeisel, C.E. Nebel, M. Stutzmann

Diamond and Rel. Mat. 9 (3-6), p. 413-416 (2000).

17.
Persistent photocurrents in CVD-Diamond

C.E. Nebel, A. Waltenspiel, M. Stutzmann

Diamond and Rel. Mat. 9 (3-6), 404-407 (2000).

YEAR 1999

16.
CV- and DLTS experiments in boron doped diamond

C.E. Nebel, R. Zeisel, M. Stutzmann

Phys. stat. sol. (a) 174 (1), p. 117 - 127 (1999)

15.
Passivation of boron in diamond by deuterium

R. Zeisel, C.E. Nebel, M. Stutzmann

Appl. Phys. Lett. 74 (13), 1875-1876 (1999).

14.
Photocapacitance study of boron doped CVD diamond

R. Zeisel, C.E. Nebel, M. Stutzmann, E. Gheeraert, A. Deneuville

Phys. Rev. B. 60 (4), 2476-2479 (1999).

13.
Optische und elektronische Eigenschaften von CVD-Diamant

C.E. Nebel

Habilitationsschrift zur Erlangung der Lehrbefähigung im Fachgebiet Experimentalphysik,

Fakultät für Physik der Technischen Universität München (1999).

YEAR 1998

12.
Deep level transient spectroscopy of synthetic type IIb diamond

R. Zeisel, C.E. Nebel, M. Stutzmann

J. Appl. Phys. 84 (11), 6105-6108 (1998).

11.
Electrical and structural properties of AlGaAs: a comparison with CVD diamond

M. Stutzmann, O..Ambacher, H. Angerer, C.E. Nebel, E. Rohrer

Diamond and Related Materials 7, 123 (1998).

10.
Photoconductivity of undoped, nitrogen- and boron-doped CVD- and synthetic diamond

E. Rohrer, C.E. Nebel, M. Stutzmann, A. Flöter, R. Zachai, X. Jiang, C.-P.

Klages

Diamond and Related Materials 7, 879 (1998).

9.
Properties of thin highly oriented diamond films and their use in electronic

applications

A. Flöter, H. Güttler, G. Schulz, R. Zachai, P. Gluche, M. Adamschik, W. Ebert,

E. Kohn, C.E. Nebel, E. Rohrer

Diam. Film Tech. 8 (5), 299-315 (1998).

8.
High speed diamond DUV-detector

P. Gluche O. Kohn, M. Binder, W. Ebert, A. Vescan, E. Rohrer, C.E. Nebel, E. Kohn

Proc. IEEE/Cornell Conference on Advanced Concepts in High Speed Semiconductor

Devices and Circuits, Ithaca, NY, USA p. 314 (1998).

YEAR 1997

7.
Electronic properties of CVD and synthetic diamond

C.E. Nebel, J. Münz, M. Stutzmann, R. Zachai, H. Güttler

Phys. Rev. B. 55, 9786 (1997).

6. 

Sub-bandgap spectroscopy of CVD diamond

E. Rohrer, C.F.O. Graeff, C.E. Nebel, M. Stutzmann

Materials Science and Engineering B 46, 115 (1997).

5.
Characterization of textured polycrystalline diamond by electron spin resonance spectroscopy

C.F.O. Graeff, C.E. Nebel, M. Stutzmann, A. Flötter, R. Zachai

J. Appl. Phys. 81, 234 (1997).

YEAR 1996

4.
Nitrogen and related dopand and defect states in CVD diamond

E. Rohrer, C.E. Nebel, R. Janssen, C.F.O. Graeff, M. Stutzmann, R. Zachai

Phys. Rev. B 54, 7874 (1996).

3.
Optical excitation of paramagnetic nitrogen in CVD diamond

C.F.O. Graeff, E. Rohrer, C.E. Nebel, M. Stutzmann

Appl. Phys. Lett. 69, 3215 (1996).

2.
Transport properties of CVD and synthetic diamond

C.E. Nebel, J. Müntz, E. Rohrer, C.F.O. Graeff, M. Stutzmann, R. Zachai, H. Güttler

Proc. of the "23rd International Conference on the Physics of Semiconductors" 1996, Berlin, World Scientific, p. 95 (1996).

1.
ESR and LESR studies in CVD diamond

C.F.O. Graeff, E. Rohrer, C.E. Nebel, M. Stutzmann, H. Güttler, R. Zachai

III-Nitrides, SiC and Diamond Materials for Electronic Devices,

ed. D.K. Gaskill, C.D. Brandt, R.J. Nemanich, Mat. Res. Soc., Pittsburgh, p. 495 (1996).