Search Results - "Pakes, Christopher I"

Calculating the Universal Energy-Level Alignment of Organic Molecules on Metal Oxides by Ley, Lothar, Smets, Yaou, Pakes, Christopher I., Ristein, Jürgen

“…Recently, Greiner et al. [Nat. Mater. 2012, 11, 76] published a survey of the level alignment of about 40 metal oxide/organic molecule interfaces. They…”
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Palladium forms Ohmic contact on hydrogen-terminated diamond down to 4 K by Xing, Kaijian, Tsai, Alexander, Rubanov, Sergey, Creedon, Daniel L., Yianni, Steve A., Zhang, Lei, Hao, Wei-Chang, Zhuang, Jincheng, McCallum, Jeffrey C., Pakes, Christopher I., Qi, Dong-Chen

“…A hydrogen-terminated diamond (H-terminated diamond) surface supports a two-dimensional (2D) p-type surface conductivity when exposed to the atmosphere, as a…”
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Strong and Tunable Spin–Orbit Coupling in a Two-Dimensional Hole Gas in Ionic-Liquid Gated Diamond Devices by Akhgar, Golrokh, Klochan, Oleh, Willems van Beveren, Laurens H, Edmonds, Mark T, Maier, Florian, Spencer, Benjamin J, McCallum, Jeffrey C, Ley, Lothar, Hamilton, Alex R, Pakes, Christopher I

“…Hydrogen-terminated diamond possesses due to transfer doping a quasi-two-dimensional (2D) hole accumulation layer at the surface with a strong, Rashba-type…”
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Spin–Orbit Interaction in a Two-Dimensional Hole Gas at the Surface of Hydrogenated Diamond by Edmonds, Mark T, Willems van Beveren, Laurens H, Klochan, Oleh, Cervenka, Jiri, Ganesan, Kumar, Prawer, Steven, Ley, Lothar, Hamilton, Alexander R, Pakes, Christopher I

“…Hydrogenated diamond possesses a unique surface conductivity as a result of transfer doping by surface acceptors. Yet, despite being extensively studied for…”
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Photoelectron emission from lithiated diamond by O'Donnell, Kane M., Martin, Tomas L., Edmonds, Mark T., Tadich, Anton, Thomsen, Lars, Ristein, Jürgen, Pakes, Christopher I., Fox, Neil A., Ley, Lothar

“…This paper reviews electron emission from negative electron affinity (NEA) diamond and gives account of the recent developments in alternatives to…”
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Mask-less nano-structuring of hydrogen terminated diamond using localized field emission scanning probe lithography (FE-SPL) by Yianni, Steve A., Hofmann, Martin, Schenk, Alex K., Reuter, Christoph, Rangelow, Ivo W., Pakes, Christopher I.

“…Sensing and manipulating a particle's spin promise the development of more energy efficient and ultra-fast devices. Diamond is a promising candidate for…”
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Strong spin-orbit interaction induced by transition metal oxides at the surface of hydrogen-terminated diamond by Xing, Kaijian, Creedon, Daniel L., Yianni, Steve A., Akhgar, Golrokh, Zhang, Lei, Ley, Lothar, McCallum, Jeffrey C., Qi, Dong-Chen, Pakes, Christopher I.

“…Hydrogen-terminated diamond possesses an intriguing p-type surface conductivity which is induced via thermodynamically driven electron transfer from the…”
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High-electron-affinity oxide V2O5 enhances surface transfer doping on hydrogen-terminated diamond by Xing, Kaijian, Zhang, Sa, Tsai, Alexander, Xiao, Haiyan, Creedon, Daniel L., Yianni, Steve A., McCallum, Jeffrey C., Pakes, Christopher I., Qi, Dong-Chen

“…Diamond exhibits many desirable properties that could benefit the development of future carbon-based electronic devices. Its hydrogen-terminated surface, in…”
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Engineering the spin–orbit interaction in surface conducting diamond with a solid-state gate dielectric by Xing, Kaijian, Tsai, Alexander, Creedon, Daniel L., Yianni, Steve A., McCallum, Jeffrey C., Ley, Lothar, Qi, Dong-Chen, Pakes, Christopher I.

“…Hydrogen-terminated (H-terminated) diamond, when surface transfer doped, can support a sub-surface two-dimensional (2D) hole band that possesses a strong…”
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Surface transfer doping of diamond using solution-processed molybdenum trioxide by Xing, Kaijian, Li, Wei, Della Gaspera, Enrico, van Embden, Joel, Zhang, Lei, Yianni, Steve A., Creedon, Daniel L., Wang, Tony, McCallum, Jeffrey C., Wang, Linjun, Huang, Jian, Pakes, Christopher I., Qi, Dong-Chen

“…The surface of hydrogen-terminated diamond (H-terminated diamond) supports a p-type surface conductivity when interfaced with high electron-affinity surface…”
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G-factor and well width variations for the two-dimensional hole gas in surface conducting diamond by Akhgar, Golrokh, Creedon, Daniel L., Willems van Beveren, Laurens H., Stacey, Alastair, Hoxley, David I., McCallum, Jeffrey C., Ley, Lothar, Hamilton, Alex R., Pakes, Christopher I.

“…Hydrogen-terminated diamond possesses a quasi two-dimensional, sub-surface hole accumulation layer with a strong and tunable spin-orbit coupling due to surface…”
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Epitaxial Formation of SiC on (100) Diamond by Tsai, Alexander, Aghajamali, Alireza, Dontschuk, Nikolai, Johnson, Brett C, Usman, Muhammad, Schenk, Alex K, Sear, Michael, Pakes, Christopher I, Hollenberg, Lloyd C. L, McCallum, Jeffrey C, Rubanov, Sergey, Tadich, Anton, Marks, Nigel A, Stacey, Alastair

“…We demonstrate locally the coherent formation of silicon carbide (SiC) on diamond, a rare example of heteroepitaxy with a lattice mismatch that exceeds 20%…”
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Energy level alignment at the porphyrin/cobaltocene interface: From transfer doping to cobalt intercalation by Smets, Yaou, Rietwyk, Kevin J., Fingerle, Mathias, Schmitt, Felix, Lach, Stefan, Ley, Lothar, Ziegler, Christiane, Pakes, Christopher I.

“…•Examines the energy level alignment at the interface of zinc-tetraphenylporphyrin with CoCp2∗.•Analyzed using a transfer-doping model involving integer charge…”
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Doping efficiency and energy-level scheme in C60F48-doped zinc–tetraphenylporphyrin films by Smets, Yaou, Stark, Christian B., Schmitt, Felix, Edmonds, Mark T., Lach, Stefan, Wright, Christopher A., Langley, Daniel P., Rietwyk, Kevin J., Schenk, Alex, Tadich, Anton, Wanke, Martina, Ziegler, Christiane, Ley, Lothar, Pakes, Christopher I.

“…[Display omitted] ► The energy level alignment at the ZnTPP/C60F48 interface was experimentally investigated. ► Ionized and neutral C60F48 were identified…”
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Photoelectron emission from lithiated diamond (Phys. Status Solidi A 10∕2014) by O'Donnell, Kane M., Martin, Tomas L., Edmonds, Mark T., Tadich, Anton, Thomsen, Lars, Ristein, Jürgen, Pakes, Christopher I., Fox, Neil A., Ley, Lothar

“…A lithium‐oxygen termination has been shown to induce negative electron affinity on diamond. O'Donnell and coworkers (pp. 2209–2222) have carried out…”
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MoO3 induces p-type surface conductivity by surface transfer doping in diamond by Xing, Kaijian, Xiang, Yang, Jiang, Ming, Creedon, Daniel L., Akhgar, Golrokh, Yianni, Steve A., Xiao, Haiyan, Ley, Lothar, Stacey, Alastair, McCallum, Jeffrey C., Zhuiykov, Serge, Pakes, Christopher I., Qi, Dong-Chen

“…[Display omitted] •Insulating-to-conducting transition in diamond surface with MoO3 adsorption was observed.•The dependence of hole density on MoO3 coverage…”
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P-type surface transfer doping of oxidised silicon terminated (100) diamond by Sear, Michael J., Schenk, Alex K., Tadich, Anton, Stacey, Alastair, Pakes, Christopher I.

“…High-resolution core-level photoemission was used to examine the interaction between the oxidised silicon-terminated diamond (100) surface and the molecular…”
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Identification of Defects and the Origins of Surface Noise on Hydrogen–Terminated (100) Diamond by Sung, Yi‐Ying, Oberg, Lachlan, Griffin, Rebecca, Schenk, Alex K., Chandler, Henry, Gallo, Santiago Corujeira, Stacey, Alastair, Sergeieva, Tetiana, Doherty, Marcus W., Weber, Cedric, Pakes, Christopher I.

“…Near‐surface nitrogen vacancy centres are critical to many diamond‐based quantum technologies such as information processors and nanosensors. Surface defects…”
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Correlation between electronic micro-roughness and surface topography in two-dimensional surface conducting hydrogen-terminated diamond by Yianni, Steve A., Creedon, Daniel L., Schenk, Alex K., Xing, Kaijian, Akhgar, Golrokh, Hoxley, David I., Ley, Lothar, McCallum, Jeffrey C., Pakes, Christopher I.

“…The influence of surface topography on phase coherent transport in the two-dimensional (2D) hole band of surface transfer doped hydrogen-terminated (100)…”
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Hydrogen-Terminated Diamond MOSFETs Using Ultrathin Glassy Ga2O3 Dielectric Formed by Low-Temperature Liquid Metal Printing Method by Xing, Kaijian, Aukarasereenont, Patjaree, Rubanov, Sergey, Zavabeti, Ali, Creedon, Daniel L., Li, Wei, Johnson, Brett C., Pakes, Christopher I., McCallum, Jeffrey C., Daeneke, Torben, Qi, Dong-Chen

“…The p-type surface conductivity of hydrogen-terminated diamond (H-diamond) provides a viable approach toward diamond-based wide-bandgap…”
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