Reliable preparation and regeneration of well-defined single-atom tips through laser annealing

Tzu-Chieh Yen; Wun-Cin Huang; Chun-Yueh Lin; Ming-Chang Chen; Kung-Hsuan Lin; Ing-Shouh Hwang

doi:10.1039/d2na00267a

Reliable preparation and regeneration of well-defined single-atom tips through laser annealing

Nanoscale Adv. 2022 Aug 15;4(19):4138-4143. doi: 10.1039/d2na00267a. eCollection 2022 Sep 27.

Authors

Tzu-Chieh Yen¹, Wun-Cin Huang¹, Chun-Yueh Lin¹, Ming-Chang Chen², Kung-Hsuan Lin¹, Ing-Shouh Hwang¹

Affiliations

¹ Institute of Physics, Academia Sinica Nankang Taipei Taiwan linkh@sinica.edu.tw ishwang@phys.sinica.edu.tw.
² Institute of Photonics Technologies, National Tsing Hua University Hsinchu Taiwan mingchang@mx.nthu.edu.tw.

Abstract

Single-atom tips (SATs) have crucial scientific and technological applications, such as in scanning probe microscopy and charged particle beam technology. We reported a reliable method of preparing and regenerating noble metal-covered W(111) SATs through laser annealing at approximately 1000 K under ultrahigh vacuum. The field emission patterns obtained during laser heating revealed the self-assembly process of a pyramidal tip. The SATs can be regenerated through laser annealing tens of times with little change in sharpness, indicating a long lifetime. Various pyramidal SATs can be generated and regenerated using visible-light, near-infrared, mode-locked, and continuous-wave lasers at different polarizations relative to the tip axis. The generation of well-defined pyramidal SATs through laser annealing can facilitate various applications of SATs.