“…A reliable analysis of the chemical composition of the deposited mixture lms is a crucial point in the present research, as it is essential for understanding the structural assembly in Au x C 60 samples. 15 The use of improper methods, such as the estimation of the lm thickness, 20,21 can involve large errors that could strongly affect the correctness of the modelling of the lm structure formation. RBS has an evident advantage in this case as it is a non-destructive and high-resolution technique for the characterization of thin lms with complex compositions.…”
Section: C1 Rbs Results: Chemical Composition Of the Mixture Lmsmentioning
confidence: 99%
“…25 This technique is quite appropriate for the analysis of the metal-fullerene mixture lms. 15,22 Fig. 1a demonstrates a series of RBS spectra recorded from the deposited mixture lms with increasing Au content.…”
Section: C1 Rbs Results: Chemical Composition Of the Mixture Lmsmentioning
confidence: 99%
“…24 The surface morphologies of the deposited Au x C 60 mixture lms were analysed by the atomic force microscopy (AFM) using a modular scanning probe microscope NTEGRA-Aura (NT-MDT Spectrum Instruments). The AFM experiments were realized using the tapping mode and by exploiting the NSG03 AFM probes, 15 keeping the samples under ambient atmospheric conditions.…”
Section: B Experimentalmentioning
confidence: 99%
“…[10][11][12][13] The NC fabrication would enable proper control of the nanostructure, which promises a specic class of NC materials with tuneable electronic properties. 14,15 The discovery of conductivity and superconductivity in alkali-metal fullerides was a strong motivation for the implementation of TM-fullerene-related research. 16 The attempts to combine TM and C 60 by the SD-method in order to access TM-fullerides usually revealed pronounced metal clustering, which strongly interfered with the main idea, but also supported the new functions of the emerging NC materials.…”
Section: A Introductionmentioning
confidence: 99%
“…[19][20][21] This example argues the necessity to look inside the self-assembly in the TM-C 60 mixture lms in order to manage the material functions through controlling the nanostructure. Thus, in our recent work, 15 we performed a systematic study of the cobalt-fullerene mixture lms elucidating the atomic-scale mechanisms of the NC lm selfassembly. Herein, we focus on the SD-fabricated Au-C 60 mixed systems, whose intriguing plasmonic properties were recently discovered.…”
Three compositional intervals x (R1, R2 and R3) with different mechanisms of nanostructure self-assembling in the AuxC60 mixture films (0 < x < 30) have been established.
“…A reliable analysis of the chemical composition of the deposited mixture lms is a crucial point in the present research, as it is essential for understanding the structural assembly in Au x C 60 samples. 15 The use of improper methods, such as the estimation of the lm thickness, 20,21 can involve large errors that could strongly affect the correctness of the modelling of the lm structure formation. RBS has an evident advantage in this case as it is a non-destructive and high-resolution technique for the characterization of thin lms with complex compositions.…”
Section: C1 Rbs Results: Chemical Composition Of the Mixture Lmsmentioning
confidence: 99%
“…25 This technique is quite appropriate for the analysis of the metal-fullerene mixture lms. 15,22 Fig. 1a demonstrates a series of RBS spectra recorded from the deposited mixture lms with increasing Au content.…”
Section: C1 Rbs Results: Chemical Composition Of the Mixture Lmsmentioning
confidence: 99%
“…24 The surface morphologies of the deposited Au x C 60 mixture lms were analysed by the atomic force microscopy (AFM) using a modular scanning probe microscope NTEGRA-Aura (NT-MDT Spectrum Instruments). The AFM experiments were realized using the tapping mode and by exploiting the NSG03 AFM probes, 15 keeping the samples under ambient atmospheric conditions.…”
Section: B Experimentalmentioning
confidence: 99%
“…[10][11][12][13] The NC fabrication would enable proper control of the nanostructure, which promises a specic class of NC materials with tuneable electronic properties. 14,15 The discovery of conductivity and superconductivity in alkali-metal fullerides was a strong motivation for the implementation of TM-fullerene-related research. 16 The attempts to combine TM and C 60 by the SD-method in order to access TM-fullerides usually revealed pronounced metal clustering, which strongly interfered with the main idea, but also supported the new functions of the emerging NC materials.…”
Section: A Introductionmentioning
confidence: 99%
“…[19][20][21] This example argues the necessity to look inside the self-assembly in the TM-C 60 mixture lms in order to manage the material functions through controlling the nanostructure. Thus, in our recent work, 15 we performed a systematic study of the cobalt-fullerene mixture lms elucidating the atomic-scale mechanisms of the NC lm selfassembly. Herein, we focus on the SD-fabricated Au-C 60 mixed systems, whose intriguing plasmonic properties were recently discovered.…”
Three compositional intervals x (R1, R2 and R3) with different mechanisms of nanostructure self-assembling in the AuxC60 mixture films (0 < x < 30) have been established.
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