Oral Programme

16:00

Tutorial – Diamond Growth
M. Schreck, Augsburg University, Germany
Includes:

• Different techniques of low pressure growth
• Microwave plasma activation: basic mechanisms in the plasma, practical aspects of operation, reactor geometries
• Gas phase reactions and growth species
• Elementary steps at the growth surface
• Nucleation techniques: seeding vs. bias enhanced nucleation
• Modification of the growth by impurities in the gas phase
• Texture formation in polycrystalline films
• Structural defects and their control
• Nanocrystalline growth
• High growth rate regime
• Homoepitaxy
• Heteroepitaxy

Tutorial – Bio functionalisation of diamond surfaces
Jose Garrido, TU Munchen, Germany
Includes:

• Diamond materials
• Functionalization of diamond surfaces
• Biomolecules (proteins and DNA) on diamond surfaces
• Applications

07:30

Registration

09:00

Welcome and Introduction

09:40

[1.2] INVITED High growth rate single crystal CVD diamond: Advances and applications
R.J. Hemley*, C-S.Yan, Y. Meng, Q. Liang, J. Lai, S. Krasnicki, et al., Carnegie Institution of Washington, USA

10:10

[1.3] INVITED Separation of single-wall carbon nanotubes
H. Kataura¹², K. Yanagi¹², Y. Miyata¹, T. Tanaka¹, S. Fujii¹, D. Nishide¹², ¹Nanotechnology Research Institute (NRI), AIST, Japan, ²JST-CREST, Japan

11:40

[2.2] INVITED Production and electronic structure of grapheme
T. Seyller, Universität Erlangen-Nürnberg, Germany

12:10

[2.3] INVITED Diamond for fusion applications
J. Biener¹, D.D. Ho¹, C. Wild², E. Woerner², M.M. Biener¹, B.S. El-dasher¹,et al., ¹Lawrence Livermore National Laboratory, USA, ²Fraunhofer-Institut für Angewandte Festkörperphysik, Germany

14:10

[3.1] Water at diamond surfaces: From ultra-thin films to bulk water
J.A. Garrido*¹, S.Q. Lud¹, B. Nickel², D. Horinek¹, M. Stutzmann¹, P. Koelsch³, et al, ¹Technische Universität München, Germany, ²Ludwig-Maximilians-Universität, Germany, ³University of Heidelberg, Germany

14:30

[3.2] Characterization of the hydrogen-terminated diamond surface in contact with aqueous electrolytes
J. Ristein*, W. Zhang, L. Ley, University of Erlangen, Germany

14:50

[3.3] Structural and electrical properties of H-terminated diamond field-effect transistor
M. Kasu*, M. Kubovic, Y. Yamauchi, K. Ueda, H. Kageshima, NTT Basic Research Laboratories, Japan

15:10

[3.4] Electronic transport at the interface between hydrogen-terminated diamond and an electrolyte
M. Dankerl*, E.U. Stützel, J.A. Garrido, M. Stutzmann, Technische Universität München, Germany

15:30

[3.5] Illumination-induced charge transfer in polypyrrole-diamond nanosystem
J. Čermák*, A. Kromka, B. Rezek, Academy of Sciences of the Czech Republic, Czech Republic

16:20

[4.1] INVITED Bio-sensors from diamond
C. Nebel, Fraunhofer (IAF), Germany

16:50

[4.2] INVITED Electrochemistry of diamond surfaces
J. Foord, University of Oxford, UK

17:20

[4.3] Optical trapping of single diamond nanocrystals and raman spectroscopic investigation of their interaction with biological objects
A. Karmenyan¹, J.-S. Tu², S.-Y. Tang², Y.-C. Chiu², E. Perevedentseva², C.-L. Cheng*², ¹National Yang-Ming University, Taiwan, ²National Dong Hwa University, Taiwan

• Diamond growth
• Heteropitaxial growth
• Nanodiamond
• Electronic and optical properties
• Electrochemistry and biochemistry
• Surface properties
• DLC growth
• Graphene
• Carbon nanotube growth
• Carbon nanotube properties

18:00– 19:00

Reception, sponsored by Diamond and Related Materials

08:30

[5.1] INVITED High quality, large surface area, homoepitaxial MPECVD diamond growth
F. Silva*, J. Achard, O. Brinza, X. Bonnin, K. Hassouni, A. Gicquel, Université Paris 13, CNRS, France

09:00

[5.2] Synthetic single crystal diamond: State of the art
S.L. Clewes*, N. Perkins, M.L. Markham, H.K. Dhillon, I. Friel, D.J. Twitchen, G.A. Scarsbrook, Element Six Ltd, UK

09:20

[5.3] INVITED Progress in hetero-epitaxial growth of diamond
A. Sawabe*¹,², K. Chigira¹,², T. Kotaki³, N. Ishigaki⁴,Y. Ando⁵, T. Kamano¹,S. Mita¹, ¹Aoyama Gakuin University, Japan ²AGD Materil Co. Ltd, Japan, ³Namiki Precision Jewel Co. Ltd, Japan, ⁴Seki Technotron Corp, Japan

09:50

[5.4] Highly oriented diamond on oxide buffer layers biaxially textured by ion beam assisted deposition (IBAD): A concept to grow single crystals on arbitrary substrates
S. Gsell*¹, M. Schreck¹, P. Arendt², J.R. Groves², R. Brescia¹, B. Stritzker¹, ¹Universität Augsburg, Germany, ²Los Alamos National Laboratory, USA

10:10

[5.5] Real time investigation of diamond nucleation by laser scattering
S. Saada*, S. Pochet, L. Rocha, J.C. Arnault, P. Bergonzo, CEA-LIST, France

10:30

[5.6] Crystallographic anisotropy of growth and etch rate of CVD diamond
M. Wolfer*¹ J. Biener², B.S. El-dasher², M. Biener², A.V. Hamza², C. Wild¹, et al, ¹Fraunhofer IAF, Germany, ²Lawrence Livermore National Laboratory, USA

11:20

[6.1] Origin of ultralow friction and wear in ultrananocrystalline diamond
A.R. Konicek*¹, D.S. Grierson², P.U.P.A. Gilbert², W.G. Sawyer³, A.V. Sumant⁴, R.W. Carpick¹
¹University of Pennsylvania, USA, ²University of Wisconsin-Madison, USA, ³University of Florida, USA, ⁴Argonne National Laboratory, USA

11:40

[6.2] Nanoscale wear-resistance of carbon-based AFM nanoprobes
J. Liu¹, B. Gotsmann², J.A. Carlisle³, K. Sridharan¹, K.T. Turner¹, R.W. Carpick*⁴, ¹University of Wisconsin-Madison, USA, ²IBM Zurich Research Laboratory, Switzerland, ³Advanced Diamond Technologies, Inc., USA, ⁴University of Pennsylvania, USA

12:00

[6.3] Ultrananocrystalline diamond AFM probes for imaging, metrology, and nanomanufacturing
J.A. Carlisle*¹, N. Moldovan¹, N. Neelankatan¹, K.T. Turner², J. Liu², J. Notbohm², et al, ¹Advanced Diamond Technologies, Inc., USA, ²University of Wisconsin-Madison, USA

12:20

[6.4] Effect of micro gas flow on tribological properties of diamond coated surface
S. Yonemura*, M. Yamaguchi, T. Takeno, H. Miki, T. Takagi, Tohoku University, Japan

14:00

[7.1] INVITED Development and evaluation of a diamond electron source for electron beam instruments
A. Ueda*, Y. Akahane, Y. Nishibayashi, T. Imai, Sumitomo Electric Industries, LTD., Japan

14:30

[7.2] Transistor characteristics of a nanodiamond lateral field emitter vacuum microtriode
K. Subramanian, W.P. Kang, J.L. Davidson*, Y.M. Wong, Vanderbilt University, USA

14:50

[7.3] Single-crystal AlN epitaxial layer growth on diamond
Y. Taniyasu, M. Kasu*, NTT Basic Research Laboratories, Japan

15:10

[7.4] Combining diamond electrodes with GaN heterostructures for harsh environment ISFETs
M. Dipalo*¹, M. Alomari¹, J. Scharpf¹, S. Renz¹, N. Grandjean², E. Kohn¹, et al, ¹University of Ulm, Germany, ²Ecole Polytechnique Fédérale de Lausanne, France

[7.5] A novel method to dope diamond – ion beam nuclear transmutation doping (IBNTD)
M. Pravica*¹, J. Price², N. Guardala², ¹University of Nevada, USA, ²Naval Surface Warfare Center, USA

15:50

[7.6] Raman laser based on single-crystal CVD-grown diamond
R.P. Mildren*¹, J.E. Butler², J.A. Pipe¹ J. Rabeau¹, ¹Macquarie University, Australia, ²Naval Research Laboratory, USA

16:40

[8.1] INVITED Dislocations, vacancies and the brown colour of CVD and natural diamond
R. Jones*, N. Fujita, University of Exeter, UK

17:10

[8.2] Substrate orientation dependence of the incorporation of phosphorous in microcrystalline diamond films
K. Haenen*¹², A. Lazea¹², V. Mortet¹² J. D'Haen¹², J. Barjon³, S. Koizumi⁴, et al, ¹Hasselt University, Belgium, ²IMEC vzw, Belgium, ³CNRS - Université de Versailles Saint-Quentin-en-Yvelines, France, ⁴National Institute for Materials Science, Japan

17:30

[8.3] Heavily doped (111) diamond p-n junction with high rectification ratio
K. Oyama*¹², S.G. Ri¹, D. Takeuchi¹, T. Makino¹, H. Okushi¹, S. Yamasaki¹², et al, ¹AIST, Japan, ²University of Tsukuba, Japan

17:50

[8.4] Hall effect measurements on boron doped nanocrystalline diamond thin films
M. Daenen*¹, O.A. Williams¹², V. Mortet¹², K. Haenen¹², M. Nesladek¹³, ¹Hasselt University, Belgium, ² IMEC vzw, Belgium, ³LIST (CEA-Recherche Technologique) DETECS/SSTM/LTD-CEA/Saclay, France

08:30

[9A.1] INVITED Modulation of localized therapeutic elution via nanodiamond-based polymeric devices
R. Lam¹, M. Chen¹, E. Pierstorff¹, H. Huang¹, E. Osawa², D. Ho*¹³,¹Northwestern University, USA, ²Shinshu University, Japan, ³Northwestern University, Chicago, USA

08:30

[9B.1] Fabrication of diamond quantum dots using porous anodic aluminium oxide nanotemplates
J.-H. Fang*, P.G. Spizzirri, A. Cimmino, S. Rubanoy, S. Prawer, University of Melbourne, Australia

09:00

[9A.2] Electrochemical imaging of DNA ultra-microelectrode arrays realized from diamond
H. Uetsuka*¹ N. Yang¹, J. Yu¹, N. Tokuda¹, C.E. Nebel², ¹Advanced Industrial Science and Technology, Japan, ² Fraunhofer (IAF), Germany

08:50

[9B.2] Superconductivity in (111), (001) and (110) boron-doped CVD diamond films
A. Kawano*¹, S. Iriyama¹, R. Okada¹, Y. Takano², H. Umezawa³, H. Kawarada, et al, ¹Waseda University, Japan, ²National Institute for Materials Science, Japan, ³National Institute of Advanced Industrial Science and Technology, Japan

09:20

[9A.3] Detection of hybridization affinity between RNA/DNA on functionalized diamond surface
S. Tajima*, S. Kuga, J.-H. Yang, H. Kawarada, Waseda University, Japan

09:10

[9B.3] Characterization of specific contact resistance on heavily phosphorus-doped diamond films
H. Kato*¹, D. Takeuchi¹, H. Umezawa¹, H. Okushi¹, S. Yamasaki¹², ¹AIST, Japan, ²University of Tsukuba, Japan

09:40

[9A.4] Fluorinated amorphous carbon coatings with potential for re-endothelialization of intravascular stent platform
Y. Yoshimoto*¹, T. Hasebe¹², A. Kamijo³, S. Nagashima¹, N. Kitamura², A. Hotta¹, H. Terada², T. Suzuki¹, K. Takahashi⁴, ¹Keio University, Japan, ²Toho University Japan, ³Yokohama City University Hospital, Japan, ⁴The University of Tokyo Hospital, Japan

09:30

[9B.4] Interstitial nitrogen in diamond – optical and EPR studies
S. Felton*¹, S. Liggins¹, B.L. Cann¹, M.E. Newton¹, P.M. Martineau², D. Fisher², ¹University of Warwick, UK, ²DTC Research Centre, UK

[9B.5] Properties of large vacancy clusters in diamond
N. Fujita*, R. Jones¹, P.R. Briddon², S. Öberg³, ¹University of Exeter, UK, ²University of Newcastle upon Tyne, UK, ³Luleå University of Technology, Sweden

10:00

[9A.5] Adsorption of fetal bovine serum on H/O-terminated diamond studied by atomic force microscopy
B. Rezek*¹, E. Ukraintsev¹, L. Michalíková¹, A. Kromka¹, M. Kalbacova², ¹ASCR, Czech Republic, ²Charles University, Czech Republic

10:10

[9B.6] Optical and EPR studies of preferentially aligned silicon-related defects in CVD diamond
A.M. Edmonds*¹, S. Felton¹, U. D'Haenens-Johansson¹, M.E. Newton¹, P.M. Martineau², D.J. Twitchen³¹University of Warwick, UK, ²DTC Research Centre, UK, ³E6 Ltd, UK

10:50

[10A.1] INVITED Functionalisation of nanodiamond sufaces
A. Krueger, University of Kiel, Germany

10:50

[10B.1] INVITED Growth of nanotube mats
R. Hauge, Rice University, USA

11:20

[10A.2] Two photon photoemission experiments on tetramantane monolayers
S. Roth*¹, M. Hengsberger¹, J.E. Dahl², B. Carlson², P.R. Schreiner³, A.A. Fokin⁴, et al, ¹University Zurich, Switzerland, ²Chevron Technology Venture, USA, ³Justus-Liebig University, Germany, ⁴Kiev Polytechnic Inst., Ukraine

11:20

[10B.2] Toward separation of single species of SWNTs by molecular recognition: Simultaneous enrichments of optical purity and (n, m)-abundance of SWNTs
N. Komatsu*¹, X. Peng¹, T. Kimura¹, A. Osuka², ¹Shiga University of Medical Science, Japan, ²Kyoto University, Japan

11:40

[10A.3] Surface properties of differently prepared ultrananocrystalline diamond surfaces
W. Kulisch*¹, C. Popov²,¹, D. Gilliland¹, G. Ceccone¹, P. Lisboa¹, F. Rossi¹, ¹European Joint Research Center, Italy, ²University of Kassel, Germany

11:40

[10B.3] Use of carbon nanotubes as VLSI interconnects
J. Robertson*¹, G. Zhong¹, F. Yang¹, H. Telg¹, C. Thomsen², J. Warner³, ¹University of Cambridge, UK, ²TU Berlin, Germany, ³Oxford University, UK

12:00

[10A.4] Optimizing nitrogen incorporation in nanodiamond film for bio-analyte sensing
S. Raina, W.P. Kang*, J.L. Davidson, Vanderbilt University, USA

12:00

[10B.4] DC-photoconduction studies of single-walled carbon nanotube bundles
N. Kouklin*, D. Chowdhary, University of Wisconsin-Milwuakee, USA

12:20

[10A.5] The diamond microbalance
O.A. Williams*¹², S. Janssens¹, V. Mortet¹² M. Daenen¹, K. Heanen¹²,¹Hasselt University, Belgium, ²IMEC vzw, Belgium

12:20

[10B.5] Synergistic effects in bimetallic nanoparticle catalysts towards gas-phase carbon nanotube growth
W.-H. Chiang, R.M. Sankaran*, Case Western Reserve University, USA

14:00

[11A.1] Theoretical investigation of the diamond CVD growth mechanism in presence of substitutional N
T. Van Regemorter*, K. Larsson, Uppsala University, Sweden

14:00

[11B.1] Evidence for large hydrogen capacity in single-walled carbon nanotubes encapsulated by thin Pd layers onto a Pd substrate
A.G. Lipson*¹², B.F. Lyakhov², E.I. Saunin², A.Yu. Tsivadze², ¹University of Illinois, USA, ²Russian Academy of Sciences, Russia

14:20

[11A.2] Growth and modelling of (ultra)nanocrystalline diamond films using 98%X/1%CH4/1%H2 where X= He, Ne, Ar and Kr
O.J.L. Fox¹, P.W. May*¹, M.N.R Ashfold¹, Yu.A.. Mankelevich², K.N. Rosser¹, J.A. Smith¹, ¹University of Bristol, UK, ²Moscow State University, Russia

14:20

[11B.2] The state of the catalyst during carbon nanotube growth
S. Hofmann¹ R. Blume² C.T. Wirth*¹ M. Cantoro³ R. Sharma,⁴ C. Ducati¹, et al, ¹University of Cambridge, UK, ² Fritz Haber Institute, Germany, ³IMEC, Belgium,⁴ Arizona State University, USA

14:40

[11A.3] INVITED Low temperature growth of nano-diamond
M. Hasegawa*, K. Tsugawa, M. Ishihara, J. Kim Y. Koga, AIST, Japan

14:40

[11B.3] From the atomic structure to the growth mechanism of boron nitride and carbon single-walled nanotubes
R. Arenal*¹, O. Stephan², M. Kociak², M.F. Fiawoo¹, R. Fleurier¹, A. Loiseau¹, ¹CNRS-ONERA, France, ²CNRS-U, France

15:10

[11A.4] INVITED Growth, nano-structuring and properties of cBN films
W.J. Zhang*, A.L. Ji, B. He, Y.M. Chong, Q. Ye, Y. Yang, et al. City University of Hong Kong, Hong Kong

15:00

[11B.4] INVITED Diamond-like carbon films synthesized under atmospheric pressure
T. Suzuki*¹, H. Kodama², ¹ Keio University, Japan, ²Kanagawa Academy of Science and Technology, Japan

15:40

[11A.5] Direct fabrication of three-dimensional buried conductive channels in single crystal diamond with ion microbeam induced graphitisation
P. Olivero*¹², G. Amato⁴, M. Jaksic², C. Manfredotti¹³, G. Molesini⁵, E. Vittone¹³, ¹University of Torino, Italy, ²Laboratory for Ion Beam Interactions, Croatia, ³University of Torino and INFN sez., Italy, ⁴Quantum Research Laboratory, Istituto Nazionale di Ricerca Metrologica, Italy, ⁵Istituto Nazionale di Ottica Applicata, CNR, Italy

15:30

[11B.5] Future trends in boundary lubrication of carbon-based coatings
M.I. De Barros Bouchet*¹, J.M. Martin¹, T. Gries², L. Vandenbulcke², M. Kano³, ¹Ecole Centrale de Lyon, France, ²ICAR, France, ³Nissan Research Center, Japan

[11B.6] Selective assembly of DNA using DLC film as passivation layer for the application to nano-device
H.J. Kim*¹, D.Y. Yun¹, W.S. Choi², B. Hong¹, et al, ¹Sungkyunkwan University, South Korea, ²Hanbat University, South Korea

• Characterisation, defects, doping
• Mechanical /Thermal properties
• Electrical properties
• Field emission
• Optical properties
• Detectors
• Carbon nanotube applications
• DLC properties
• DLC applications
• III-nitrides

08:30

[12.1] Diamond surface graphitisation: Low temperature scanning tunnelling microscopy and transport study
M. Nesladek*¹, A. Volodin², C. van Haesendonck², G. Bogdan¹, K. Ping Loh³, J. Mareš⁴, et al, ¹Hasselt University, Belgium, ²Katholieke Universiteit Leuven, Belgium, ³National University of Singapore, Singapore, ⁴Institute of Physics of the Academy of Sciences of the Czech Republic, Czech Republic

08:50

[12.2] Synthesis and electrochemical properties of graphene by microwave plasma enhanced CVD
M.S. Hu*¹, K.H. Chen¹, A. Ganguly², L.C. Chen², et al, ¹Institute of Atomic and Molecular Sciences, Taiwan, ²National Taiwan University, Taiwan

09:10

[12.3] Electronic structure of epitaxial graphene
L. Magaud*, F. Varchon, P. Mallet, J.Y. Veuillen, CNRS UJF, France

09:30

[12.4] Electronic structure of Dirac fermions in epitaxial graphene and graphene nanospaghetti
A. Lanzara*¹², S.Y. Zhou¹², ¹University California, Berkeley, USA, ²Lawrence Berkeley National Laboratory, USA

09:50

[12.5] Step-flow growth mode in solid C60 epitaxy on graphene
A. Hashimoto*¹, H. Terasaki¹, S. Tanaka², ¹University of Fukui, Japan, ²Kyusyu University, Japan

 0:40

[13.1] INVITED Diamond deep-UV photodetector with high sensitivity and thermal stability
Y. Koide*,¹ M.Y. Liao¹ M. Imura¹ J. Alvarez ², ¹National Institute for Materials Science (NIMS), Japan. ²Universités Paris VI et Paris XI, France

11:10

[13.2] UV plasma diagnostic at the Joint European Torus (JET) fusion reactor by CVD single crystal diamond photodetectors
S. Almaviva, M. Marinelli, E. Milani, G. Prestopino, C. Verona, G. Verona‑Rinati*, et al. Università di Roma “Tor Vergata”, Italy

11:30

[13.3] Synthetic single crystal diamonds as Intensity Modulated Radiation Therapy (IMRT) dosimeters
S. Almaviva¹, I. Ciancaglioni¹, R. Consorti², F. De Notaristefani³, M. Marinelli*¹, E. Milani¹, et al, ¹Università di Roma “Tor Vergata”, Italy, ²U.O. Fisica Sanitaria, Italy, ³Università Roma, Italy

11:50

[13.4] INVITED Recent developments on wide bandgap based UV sensors
A. BenMoussa*¹, B. Giordanengo¹, J.F. Hochedez¹, A. Soltani², H.A. Barkad², J.C De Jaeger², et al., ¹Royal Observatory of Belgium, Belgium, ²Institut d'Electronique, de Microélectronique et de Nanotechnologie, France

12:20

[13.5] Influence of metal-diamond interfaces on the performance of diamond radiation detectors
A. Galbiati*, K. Oliver, S. Lynn, Diamond Detectors Ltd., UK

12:40

[13.6] Diamond based off-line dosimeters for space missions environmental radiation monitoring
A. De Sio¹, S. Miglio¹, E. Woerner², E. Pace*¹, M. Bucciolini¹, M. Bruzzi¹, et al, University of Firenze, Italy, ²Fraunhofer-Institute für Angewandte Festkörperphysik, Germany

13:00

[13.7] High-efficiency excitonic emissions from homoepitaxial diamond p-n junctions – comparison between (001) and (111) surfaces
T. Makino*¹, T. Shimomura¹, N. Tokuda¹, H. Kato¹, S. Yamasaki¹², H. Okushi¹, et al, ¹AIST, Japan, ²University of Tsukuba, Japan

13:20

Closing Ceremony