Flexible Crossbar‐Structured Resistive Memory Arrays on Plastic Substrates via Inorganic‐Based Laser Lift‐Off | Zendy

Kim Seungjun | Zendy; Son Jung Hwan | Zendy; Lee Seung Hyun | Zendy; You Byoung Kuk | Zendy; Park KwiIl | Zendy; Lee Hwan Keon | Zendy; Byun Myunghwan | Zendy; Lee Keon Jae | Zendy

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Flexible Crossbar‐Structured Resistive Memory Arrays on Plastic Substrates via Inorganic‐Based Laser Lift‐Off

Author(s) -

Kim Seungjun,

Son Jung Hwan,

Lee Seung Hyun,

You Byoung Kuk,

Park KwiIl,

Lee Hwan Keon,

Byun Myunghwan,

Lee Keon Jae

Publication year - 2014

Publication title -

advanced materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.707

H-Index - 527

eISSN - 1521-4095

pISSN - 0935-9648

DOI - 10.1002/adma.201402472

Subject(s) - crossbar switch , lift (data mining) , materials science , resistor , laser , substrate (aquarium) , resistive touchscreen , process (computing) , optoelectronics , computer science , nanotechnology , optics , electrical engineering , telecommunications , physics , engineering , oceanography , voltage , geology , computer vision , data mining , operating system

Crossbar‐structured memory comprising 32 × 32 arrays with one selector–one resistor (1S‐1R) components are initially fabricated on a rigid substrate. They are transferred without mechanical damage via an inorganic‐based laser lift‐off (ILLO) process as a result of laser–material interaction. Addressing tests of the transferred memory arrays are successfully performed to verify mitigation of cross‐talk on a plastic substrate.

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