The aim of this paper is to gain insight into the observed recovery of electrical activity of B impurities occurring in Porous Silicon (PS) layers exposed to NO(2) molecules, while addressing the problem of the origin of B passivation in PS. Two possible mechanisms are considered, i.e., that the extra electron needed for the fourfold coordination of B atoms be provided either by H atoms (through the formation of Si-H-B complexes) or Si dangling bonds at the surface. Experimental evidence shows unambiguously that a negligible amount of B atoms binds with H, even in posthydrogenated PS, the main passivation source being the Si surface dangling bonds. This explains both the mechanism of formation of PS under electrochemical etching and the efficiency of the NO(2) molecules in restoring conduction.
Local environment of Boron impurities in porous silicon and their interaction with NO(2) molecules / Boarino, Luca; Geobaldo, F; Borini, S; Rossi, ANDREA MARIO; Rivolo, P; Rocchia, M; Garrone, E; Amato, Giampiero. - In: PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS. - ISSN 1098-0121. - 64:20(2001), pp. 205308-205312. [10.1103/PhysRevB.64.205308]
Local environment of Boron impurities in porous silicon and their interaction with NO(2) molecules
BOARINO, LUCA;ROSSI, ANDREA MARIO;AMATO, GIAMPIERO
2001
Abstract
The aim of this paper is to gain insight into the observed recovery of electrical activity of B impurities occurring in Porous Silicon (PS) layers exposed to NO(2) molecules, while addressing the problem of the origin of B passivation in PS. Two possible mechanisms are considered, i.e., that the extra electron needed for the fourfold coordination of B atoms be provided either by H atoms (through the formation of Si-H-B complexes) or Si dangling bonds at the surface. Experimental evidence shows unambiguously that a negligible amount of B atoms binds with H, even in posthydrogenated PS, the main passivation source being the Si surface dangling bonds. This explains both the mechanism of formation of PS under electrochemical etching and the efficiency of the NO(2) molecules in restoring conduction.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
