Capacity of graphite's layered structure to suppress the sputtering yield: A molecular dynamics study

“…2a. It has been proved that the layered structure of graphite is mostly responsible for a lack of sputtering [6]. Computer simulations indicate that the energy transfer in graphite is highly anisotropic and occurs predominantly along graphene sheets.…”

“…Theoretical studies of graphite sputtering by keV C 60 projectiles show that the sputtering yield is unexpectedly low [5,6]. Krantzman et al attribute this fact to a low atomic density of graphite [5] while the effect of layered structure of graphite was emphasised by Tian et al [6]. It has been also shown that the membrane-like structure of graphite can be made to vibrate as a result of a low-energy cluster impact [4,9].…”

“…Moreover, many of these studies concentrate on defect creation in the bombarded system rather than on material ejection. Theoretical studies of graphite sputtering by keV C 60 projectiles show that the sputtering yield is unexpectedly low [5,6]. Krantzman et al attribute this fact to a low atomic density of graphite [5] while the effect of layered structure of graphite was emphasised by Tian et al [6].…”

“…Most of the existing simulations are performed on thick graphite [5][6][7][8][9][10][11]. Moreover, many of these studies concentrate on defect creation in the bombarded system rather than on material ejection.…”

Effect of Sample Thickness on Carbon Ejection from Ultrathin Graphite Bombarded by keV C₆₀

“…2a. It has been proved that the layered structure of graphite is mostly responsible for a lack of sputtering [6]. Computer simulations indicate that the energy transfer in graphite is highly anisotropic and occurs predominantly along graphene sheets.…”

“…Theoretical studies of graphite sputtering by keV C 60 projectiles show that the sputtering yield is unexpectedly low [5,6]. Krantzman et al attribute this fact to a low atomic density of graphite [5] while the effect of layered structure of graphite was emphasised by Tian et al [6]. It has been also shown that the membrane-like structure of graphite can be made to vibrate as a result of a low-energy cluster impact [4,9].…”

“…Moreover, many of these studies concentrate on defect creation in the bombarded system rather than on material ejection. Theoretical studies of graphite sputtering by keV C 60 projectiles show that the sputtering yield is unexpectedly low [5,6]. Krantzman et al attribute this fact to a low atomic density of graphite [5] while the effect of layered structure of graphite was emphasised by Tian et al [6].…”

“…Most of the existing simulations are performed on thick graphite [5][6][7][8][9][10][11]. Moreover, many of these studies concentrate on defect creation in the bombarded system rather than on material ejection.…”

Effect of Sample Thickness on Carbon Ejection from Ultrathin Graphite Bombarded by keV C₆₀

“…There are several simulations performed on C 60 bombardment of graphene and graphite [4,[6][7][8][9][10][11][12][13]. However, most of these studies concentrate on defect creation in the bombarded system rather than on material ejection.…”

Effect of substrate thickness on ejection of phenylalanine molecules adsorbed on free-standing graphene bombarded by 10 keV C60

Role of Subordinate Phases on the Dry Impact-Abrasion Behavior of Low Chromium Cast Iron