Kevin C. Chan scite author profile

A new memory structure using threshold shifting from charge stored in nanocrystals of silicon (≊5nm in size) is described. The devices utilize direct tunneling and storage of electrons in the nanocrystals. The limited size and capacitance of the nanocrystals limit the numbers of stored electrons. Coulomb blockade effects may be important in these structures but are not necessary for their operation. The threshold shifts of 0.2–0.4 V with read and write times less than 100’s of a nanosecond at operating voltages below 2.5 V have been obtained experimentally. The retention times are measured in days and weeks, and the structures have been operated in an excess of 109 cycles without degradation in performance. This nanomemory exhibits characteristics necessary for high density and low power.

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Does diffusion kurtosis imaging lead to better neural tissue characterization? A rodent brain maturation study

Cheung

et al. 2009

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Motivational Interviewing in Improving Oral Health: A Systematic Review of Randomized Controlled Trials

Gao

Kot

et al. 2014

Journal of Periodontology

138

131

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B-value dependence of DTI quantitation and sensitivity in detecting neural tissue changes

et al. 2010

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Kevin C. Chan

A silicon nanocrystals based memory

Does diffusion kurtosis imaging lead to better neural tissue characterization? A rodent brain maturation study

Motivational Interviewing in Improving Oral Health: A Systematic Review of Randomized Controlled Trials

B-value dependence of DTI quantitation and sensitivity in detecting neural tissue changes

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