SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2254256956> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2254256956 endingPage "692" @default.
W2254256956 startingPage "685" @default.
W2254256956 abstract "The patterning of semiconductors with nanometer-scale precision is a cornerstone of modern technology. Top-down methods, ranging from photolithography to focused-ion beam milling, are typically used to fabricate complex nanostructures. In this Perspective, we discuss an alternative bottom-up method to encode similar high-resolution morphology in semiconductor nanowires (NWs). This process, termed ENGRAVE for Encoded Nanowire GRowth and Appearance through VLS and Etching, combines fast modulation of nanowire composition during vapor-liquid-solid (VLS) growth with composition-dependent wet-chemical etching. This method produces cylindrically symmetric structures in which the diameter is modulated on a sub-10 nm axial length scale. The process can produce patterns that range from periodic, centrosymmetric to nonperiodic, asymmetric structures, including gratings, fractals, tapers, ratchets, sinusoids, nanogaps, and nanodots. We discuss the prospect for the ENGRAVE process to become a complementary method of lithographic-like patterning that encodes unique morphologies and physical properties in semiconductors for a range of technologies." @default.
W2254256956 created "2016-06-24" @default.
W2254256956 creator A5006320259 @default.
W2254256956 creator A5007518516 @default.
W2254256956 creator A5014423314 @default.
W2254256956 creator A5038518934 @default.
W2254256956 creator A5040083578 @default.
W2254256956 date "2016-02-02" @default.
W2254256956 modified "2023-10-16" @default.
W2254256956 title "Chemically Engraving Semiconductor Nanowires: Using Three-Dimensional Nanoscale Morphology to Encode Functionality from the Bottom Up" @default.
W2254256956 cites W1014382861 @default.
W2254256956 cites W1539437417 @default.
W2254256956 cites W1556957619 @default.
W2254256956 cites W1978242815 @default.
W2254256956 cites W1978906881 @default.
W2254256956 cites W1979078109 @default.
W2254256956 cites W1979895775 @default.
W2254256956 cites W1983828945 @default.
W2254256956 cites W1984358279 @default.
W2254256956 cites W1990260392 @default.
W2254256956 cites W1991510178 @default.
W2254256956 cites W1991754058 @default.
W2254256956 cites W2014621919 @default.
W2254256956 cites W2017169284 @default.
W2254256956 cites W2023453467 @default.
W2254256956 cites W2025618112 @default.
W2254256956 cites W2027210593 @default.
W2254256956 cites W2032008825 @default.
W2254256956 cites W2033760283 @default.
W2254256956 cites W2044684119 @default.
W2254256956 cites W2045197688 @default.
W2254256956 cites W2046553338 @default.
W2254256956 cites W2048437709 @default.
W2254256956 cites W2049123852 @default.
W2254256956 cites W2051061031 @default.
W2254256956 cites W2051516996 @default.
W2254256956 cites W2053721063 @default.
W2254256956 cites W2053741704 @default.
W2254256956 cites W2058495513 @default.
W2254256956 cites W2060817437 @default.
W2254256956 cites W2062148446 @default.
W2254256956 cites W2064384532 @default.
W2254256956 cites W2064636810 @default.
W2254256956 cites W2068974447 @default.
W2254256956 cites W2069716872 @default.
W2254256956 cites W2070093297 @default.
W2254256956 cites W2074775633 @default.
W2254256956 cites W2105157003 @default.
W2254256956 cites W2110070104 @default.
W2254256956 cites W2116477137 @default.
W2254256956 cites W2127791227 @default.
W2254256956 cites W2169167101 @default.
W2254256956 cites W2297084960 @default.
W2254256956 cites W2320263293 @default.
W2254256956 cites W2322710179 @default.
W2254256956 cites W2327176307 @default.
W2254256956 cites W2327661922 @default.
W2254256956 cites W2332389303 @default.
W2254256956 cites W2333184045 @default.
W2254256956 cites W4232942373 @default.
W2254256956 cites W4256000753 @default.
W2254256956 doi "https://doi.org/10.1021/acs.jpclett.5b02444" @default.
W2254256956 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26817682" @default.
W2254256956 hasPublicationYear "2016" @default.
W2254256956 type Work @default.
W2254256956 sameAs 2254256956 @default.
W2254256956 citedByCount "29" @default.
W2254256956 countsByYear W22542569562016 @default.
W2254256956 countsByYear W22542569562017 @default.
W2254256956 countsByYear W22542569562018 @default.
W2254256956 countsByYear W22542569562019 @default.
W2254256956 countsByYear W22542569562020 @default.
W2254256956 countsByYear W22542569562021 @default.
W2254256956 countsByYear W22542569562022 @default.
W2254256956 countsByYear W22542569562023 @default.
W2254256956 crossrefType "journal-article" @default.
W2254256956 hasAuthorship W2254256956A5006320259 @default.
W2254256956 hasAuthorship W2254256956A5007518516 @default.
W2254256956 hasAuthorship W2254256956A5014423314 @default.
W2254256956 hasAuthorship W2254256956A5038518934 @default.
W2254256956 hasAuthorship W2254256956A5040083578 @default.
W2254256956 hasConcept C100460472 @default.
W2254256956 hasConcept C105487726 @default.
W2254256956 hasConcept C108225325 @default.
W2254256956 hasConcept C154843443 @default.
W2254256956 hasConcept C159985019 @default.
W2254256956 hasConcept C171250308 @default.
W2254256956 hasConcept C186187911 @default.
W2254256956 hasConcept C192562407 @default.
W2254256956 hasConcept C200274948 @default.
W2254256956 hasConcept C204223013 @default.
W2254256956 hasConcept C2779227376 @default.
W2254256956 hasConcept C45206210 @default.
W2254256956 hasConcept C49040817 @default.
W2254256956 hasConcept C53524968 @default.
W2254256956 hasConcept C66344492 @default.
W2254256956 hasConcept C74214498 @default.
W2254256956 hasConcept C77066764 @default.