Halide perovskite memristors as flexible and reconfigurable physical unclonable functions

Despite the impressive demonstrations with silicon and oxide memristors, realizing efficient roots of trust for resource-constrained hardware remains a challenge. Here, the authors exploit switching behavior in one dimensional perovskite memristors to design security primitives for key generation an...

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Autores principales:	Rohit Abraham John, Nimesh Shah, Sujaya Kumar Vishwanath, Si En Ng, Benny Febriansyah, Metikoti Jagadeeswararao, Chip-Hong Chang, Arindam Basu, Nripan Mathews
Formato:	article
Lenguaje:	EN
Publicado:	Nature Portfolio 2021
Materias:	Science Q
Acceso en línea:	https://doaj.org/article/63fb8f2b6fad4b27898030de574bd482
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spelling	oai:doaj.org-article:63fb8f2b6fad4b27898030de574bd4822021-12-02T17:23:15ZHalide perovskite memristors as flexible and reconfigurable physical unclonable functions10.1038/s41467-021-24057-02041-1723https://doaj.org/article/63fb8f2b6fad4b27898030de574bd4822021-06-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-24057-0https://doaj.org/toc/2041-1723Despite the impressive demonstrations with silicon and oxide memristors, realizing efficient roots of trust for resource-constrained hardware remains a challenge. Here, the authors exploit switching behavior in one dimensional perovskite memristors to design security primitives for key generation and device authentication.Rohit Abraham JohnNimesh ShahSujaya Kumar VishwanathSi En NgBenny FebriansyahMetikoti JagadeeswararaoChip-Hong ChangArindam BasuNripan MathewsNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-11 (2021)
institution	DOAJ
collection	DOAJ
language	EN
topic	Science Q
spellingShingle	Science Q Rohit Abraham John Nimesh Shah Sujaya Kumar Vishwanath Si En Ng Benny Febriansyah Metikoti Jagadeeswararao Chip-Hong Chang Arindam Basu Nripan Mathews Halide perovskite memristors as flexible and reconfigurable physical unclonable functions
description	Despite the impressive demonstrations with silicon and oxide memristors, realizing efficient roots of trust for resource-constrained hardware remains a challenge. Here, the authors exploit switching behavior in one dimensional perovskite memristors to design security primitives for key generation and device authentication.
format	article
author	Rohit Abraham John Nimesh Shah Sujaya Kumar Vishwanath Si En Ng Benny Febriansyah Metikoti Jagadeeswararao Chip-Hong Chang Arindam Basu Nripan Mathews
author_facet	Rohit Abraham John Nimesh Shah Sujaya Kumar Vishwanath Si En Ng Benny Febriansyah Metikoti Jagadeeswararao Chip-Hong Chang Arindam Basu Nripan Mathews
author_sort	Rohit Abraham John
title	Halide perovskite memristors as flexible and reconfigurable physical unclonable functions
title_short	Halide perovskite memristors as flexible and reconfigurable physical unclonable functions
title_full	Halide perovskite memristors as flexible and reconfigurable physical unclonable functions
title_fullStr	Halide perovskite memristors as flexible and reconfigurable physical unclonable functions
title_full_unstemmed	Halide perovskite memristors as flexible and reconfigurable physical unclonable functions
title_sort	halide perovskite memristors as flexible and reconfigurable physical unclonable functions
publisher	Nature Portfolio
publishDate	2021
url	https://doaj.org/article/63fb8f2b6fad4b27898030de574bd482
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Halide perovskite memristors as flexible and reconfigurable physical unclonable functions

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