Add to ORKGSurface chemical modifications of nanodiamond (ND) are usually carried out at high temperatures. However, the effects of temperature on the internal structure are major concern in applying NDs to functional materials. In this study, we compared the NDs before and after surface oxidation and hydrogenation on NDs using UV-visible spectroscopy, X-ray diffraction, total organic carbon, and magnetization measurements to reveal the effects of low temperature chemical modifications
Detonation nanodiamond (ND) particles were dispersed on silicon nitride (SiNx) coated sc-Si substrat...
Nanodiamonds are diamond particles measured in nanometers. The ideal nanodiamond molecule should hav...
International audienceHydrogen terminations (C–H) confer to diamond layers specific surface properti...
Surface chemical modifications of nanodiamond (ND) are usually carried out at high temperatures. How...
International audienceThe present study focuses on the interaction of hydrogen microwave CVD plasma ...
High temperature annealing in vacuum, air, hydrogen, chlorine, and ammonia are described as a means ...
International audienceReceived 15 September 2011; revised 14 November 2011; published 19 December 20...
© 2014 American Chemical Society. In this paper, new steps toward a better understanding and utiliza...
Changes in surface carbon hybridization through high-temperature annealing (> 1000 degrees C) of ...
International audienceThe surface chemistry governs most of the physical and chemical properties of ...
In this paper, the reaction dynamics of hydrogen termination of nanodiamond annealed at low temperat...
International audienceThe surface chemistry governs most of the physical and chemical properties of ...
In recent decades, nanodiamonds (NDs) have earned increasing interest in a wide variety of research ...
International audienceNano-diamond films composed of 3–10 nm grains prepared by the detonation metho...
In this work we quantify and characterise the effects of air-oxidation on nitrogen-vacancy defect lu...
Detonation nanodiamond (ND) particles were dispersed on silicon nitride (SiNx) coated sc-Si substrat...
Nanodiamonds are diamond particles measured in nanometers. The ideal nanodiamond molecule should hav...
International audienceHydrogen terminations (C–H) confer to diamond layers specific surface properti...
Surface chemical modifications of nanodiamond (ND) are usually carried out at high temperatures. How...
International audienceThe present study focuses on the interaction of hydrogen microwave CVD plasma ...
High temperature annealing in vacuum, air, hydrogen, chlorine, and ammonia are described as a means ...
International audienceReceived 15 September 2011; revised 14 November 2011; published 19 December 20...
© 2014 American Chemical Society. In this paper, new steps toward a better understanding and utiliza...
Changes in surface carbon hybridization through high-temperature annealing (> 1000 degrees C) of ...
International audienceThe surface chemistry governs most of the physical and chemical properties of ...
In this paper, the reaction dynamics of hydrogen termination of nanodiamond annealed at low temperat...
International audienceThe surface chemistry governs most of the physical and chemical properties of ...
In recent decades, nanodiamonds (NDs) have earned increasing interest in a wide variety of research ...
International audienceNano-diamond films composed of 3–10 nm grains prepared by the detonation metho...
In this work we quantify and characterise the effects of air-oxidation on nitrogen-vacancy defect lu...
Detonation nanodiamond (ND) particles were dispersed on silicon nitride (SiNx) coated sc-Si substrat...
Nanodiamonds are diamond particles measured in nanometers. The ideal nanodiamond molecule should hav...
International audienceHydrogen terminations (C–H) confer to diamond layers specific surface properti...