Ultrafast Laser Shock Straining in Chiral Chain 2D Materials:Mold Topology-Controlled Anisotropic DeformationOA
Ultrafast Laser Shock Straining in Chiral Chain 2D Materials:Mold Topology-Controlled Anisotropic Deformation
Xingtao Liu;Danilo de Camargo Branco;Licong An;Mingyi Wang;Haoqing Jiang;Ruoxing Wang;Wenzhuo Wu;Gary J.Cheng
School of Industrial Engineering,Purdue University,West Lafayette,IN 47906,USABirck Nanotechnology Center,Purdue University,West Lafayette,IN 47906,USASchool of Aeronautics and Astronautics,Purdue University,West Lafayette,IN 47906,USASchool of Materials Engineering,Purdue University,West Lafayette,IN 47906,USABirck Nanotechnology Center,Purdue University,West Lafayette,IN 47906,USASchool of Industrial Engineering,Purdue University,West Lafayette,IN 47906,USABirck Nanotechnology Center,Purdue University,West Lafayette,IN 47906,USASchool of Industrial Engineering,Purdue University,West Lafayette,IN 47906,USA
TellureneLaser shock imprintingStrain engineeringAnisotropic deformationChiral chain semiconductorDislocation dynamics
TellureneLaser shock imprintingStrain engineeringAnisotropic deformationChiral chain semiconductorDislocation dynamics
《纳微快报(英文)》 2026 (3)
274-289,16
We appreciate the financial support from NSF ExpandQISE program.The synthesis of tellurene was sup-ported by NSF under grant no.CMMI-2046936.We are also grate-ful for the supports from Purdue Research Foundation.
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