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Tung, I-Cheng ; Luo, Guangfu ; Lee, June Hyuk ; Chang, Seo Hyoung ; Moyer, Jarrett ; Hong, Hawoong ; Bedzyk, Michael J. ; Zhou, Hua ; Morgan, Dane ; Fong, Dillon D. ; et al ( , Physical Review Materials)
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Gilbert Corder, Stephanie N. ; Jiang, Jianjuan ; Chen, Xinzhong ; Kittiwatanakul, Salinporn ; Tung, I-Cheng ; Zhu, Yi ; Zhang, Jiawei ; Bechtel, Hans A. ; Martin, Michael C. ; Carr, G. Lawrence ; et al ( , Physical Review B)
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Schrecongost, Dustin ; Aziziha, Mina ; Zhang, Hai‐Tian ; Tung, I‐Cheng ; Tessmer, Joseph ; Dai, Weitao ; Wang, Qiang ; Engel‐Herbert, Roman ; Wen, Haidan ; Picard, Yoosuf N. ; et al ( , Advanced Functional Materials)
Abstract Controlling material properties at the nanoscale is a critical enabler of high performance electronic and photonic devices. A prototypical material example is VO2, where a structural phase transition in correlation with dramatic changes in resistivity, optical response, and thermal properties demonstrates particular technological importance. While the phase transition in VO2can be controlled at macroscopic scales, reliable and reversible nanoscale control of the material phases has remained elusive. Here, reconfigurable nanoscale manipulations of VO2from the pristine monoclinic semiconducting phase to either a stable monoclinic metallic phase, a metastable rutile metallic phase, or a layered insulating phase using an atomic force microscope is demonstrated at room temperature. The capability to directly write and erase arbitrary 2D patterns of different material phases with distinct optical and electrical properties builds a solid foundation for future reprogrammable multifunctional device engineering.