FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2937461206> ?p ?o ?g. }

• W2937461206 endingPage "8066" @default.
• W2937461206 startingPage "8055" @default.
• W2937461206 abstract "The ability to probe a material's electromechanical functionality on the nanoscale is critical to applications from energy storage and computing to biology and medicine. Voltage-modulated atomic force microscopy (VM-AFM) has become a mainstay characterization tool for investigating these materials due to its ability to locally probe electromechanically responsive materials with spatial resolution from micrometers to nanometers. However, with the wide popularity of VM-AFM techniques such as piezoresponse force microscopy and electrochemical strain microscopy there has been a rise in reports of nanoscale electromechanical functionality, including hysteresis, in materials that should be incapable of exhibiting piezo- or ferroelectricity. Explanations for the origins of unexpected nanoscale phenomena have included new material properties, surface-mediated polarization changes, and/or spatially resolved behavior that is not present in bulk measurements. At the same time, it is well known that VM-AFM measurements are susceptible to numerous forms of crosstalk, and, despite efforts within the AFM community, a global approach for eliminating this has remained elusive. In this work, we develop a method for easily demonstrating the presence of hysteretic (i.e., false ferroelectric) long-range interactions between the sample and cantilever body. This method should be easy to implement in any VM-AFM measurement. We then go on to demonstrate fully quantitative and repeatable nanoelectromechanical characterization using an interferometer. These quantitative measurements are critical for a wide range of devices including MEMS actuators and sensors, memristor, energy storage, and memory." @default.
• W2937461206 created "2019-04-25" @default.
• W2937461206 creator A5016478434 @default.
• W2937461206 creator A5047023011 @default.
• W2937461206 creator A5049206710 @default.
• W2937461206 creator A5068304057 @default.
• W2937461206 date "2019-07-03" @default.
• W2937461206 modified "2023-10-02" @default.
• W2937461206 title "Quantitative Electromechanical Atomic Force Microscopy" @default.
• W2937461206 cites W1540409429 @default.
• W2937461206 cites W1594958345 @default.
• W2937461206 cites W1615425024 @default.
• W2937461206 cites W1967387790 @default.
• W2937461206 cites W1976137653 @default.
• W2937461206 cites W1981768386 @default.
• W2937461206 cites W1987866465 @default.
• W2937461206 cites W1990115903 @default.
• W2937461206 cites W1991736608 @default.
• W2937461206 cites W1993505647 @default.
• W2937461206 cites W1994594203 @default.
• W2937461206 cites W1997246466 @default.
• W2937461206 cites W1998597644 @default.
• W2937461206 cites W2005099210 @default.
• W2937461206 cites W2008084743 @default.
• W2937461206 cites W2008505710 @default.
• W2937461206 cites W2012862988 @default.
• W2937461206 cites W2014520866 @default.
• W2937461206 cites W2018211315 @default.
• W2937461206 cites W2024810900 @default.
• W2937461206 cites W2025156257 @default.
• W2937461206 cites W2029439027 @default.
• W2937461206 cites W2032916536 @default.
• W2937461206 cites W2033141818 @default.
• W2937461206 cites W2038901974 @default.
• W2937461206 cites W2040799726 @default.
• W2937461206 cites W2042292465 @default.
• W2937461206 cites W2042973635 @default.
• W2937461206 cites W2046104316 @default.
• W2937461206 cites W2046206102 @default.
• W2937461206 cites W2046911715 @default.
• W2937461206 cites W2048216536 @default.
• W2937461206 cites W2051184600 @default.
• W2937461206 cites W2058477681 @default.
• W2937461206 cites W2062735468 @default.
• W2937461206 cites W2063046797 @default.
• W2937461206 cites W2064391301 @default.
• W2937461206 cites W2067914570 @default.
• W2937461206 cites W2071119262 @default.
• W2937461206 cites W2072126098 @default.
• W2937461206 cites W2087249571 @default.
• W2937461206 cites W2087930515 @default.
• W2937461206 cites W2094637018 @default.
• W2937461206 cites W2096864144 @default.
• W2937461206 cites W2134304657 @default.
• W2937461206 cites W2160596679 @default.
• W2937461206 cites W2165235920 @default.
• W2937461206 cites W2167009475 @default.
• W2937461206 cites W22525212 @default.
• W2937461206 cites W2267168301 @default.
• W2937461206 cites W2324068916 @default.
• W2937461206 cites W2331469358 @default.
• W2937461206 cites W2418058283 @default.
• W2937461206 cites W2501788777 @default.
• W2937461206 cites W2529956853 @default.
• W2937461206 cites W2542470784 @default.
• W2937461206 cites W2582144466 @default.
• W2937461206 cites W2585862487 @default.
• W2937461206 cites W2588941729 @default.
• W2937461206 cites W2590047498 @default.
• W2937461206 cites W2593346044 @default.
• W2937461206 cites W2606878696 @default.
• W2937461206 cites W2625792847 @default.
• W2937461206 cites W2626620820 @default.
• W2937461206 cites W2741130841 @default.
• W2937461206 cites W2755546027 @default.
• W2937461206 cites W2768892256 @default.
• W2937461206 cites W2774540478 @default.
• W2937461206 cites W2785245393 @default.
• W2937461206 cites W2791220456 @default.
• W2937461206 cites W2793052986 @default.
• W2937461206 cites W2801385413 @default.
• W2937461206 cites W2809158101 @default.
• W2937461206 cites W2883082435 @default.
• W2937461206 cites W2886342776 @default.
• W2937461206 cites W2888402103 @default.
• W2937461206 cites W2888934726 @default.
• W2937461206 cites W2892341399 @default.
• W2937461206 cites W2900677883 @default.
• W2937461206 cites W2908895595 @default.
• W2937461206 cites W2916578251 @default.
• W2937461206 cites W2963272502 @default.
• W2937461206 cites W3099889531 @default.
• W2937461206 cites W3101439407 @default.
• W2937461206 cites W3102345383 @default.
• W2937461206 cites W3105159385 @default.
• W2937461206 cites W3105982595 @default.
• W2937461206 cites W3150248096 @default.
• W2937461206 cites W627125946 @default.

• next