FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4320167885> ?p ?o ?g. }

• W4320167885 endingPage "9628" @default.
• W4320167885 startingPage "9618" @default.
• W4320167885 abstract "Printing technologies are changing the face of electronics with features such as resource-efficiency, low-cost, and novel form factors. While significant advances have been made in terms of organic electronics, the high-performance and stable transistors by printing, and their large-scale integration leading to fast integrated circuits remains a major challenge. This is because of the difficulties to print high-mobility semiconducting materials and the lack of high-resolution printing techniques. Herein, we present silicon based printed n- and p-channel transistors to demonstrate the possibility of developing high-performance complementary metal-oxide-semiconductor (CMOS) computing architecture. The direct roll transfer printing is used here for deterministic assembly of high-mobility single crystal silicon nanoribbons arrays on a flexible polyimide substrate. This is followed by high-resolution electrohydrodynamic printing to define source/drain/gate electrodes and to encapsulate, thus leading to printed devices. The printed transistors show effective peak mobilities of 15 cm2/(V s) (n-channel) and 5 cm2/(V s) (p-channel) at low 1 V drain bias. Furthermore, the effect of electrical, mechanical, and thermal stress on the performance and stability of the encapsulated transistors is investigated. The transistors showed stable transfer characteristics even after: (i) continuous 4000 transfer cycles, (ii) excruciating 10000 bending cycles at different bending radii (40, 25, and 15 mm), and (iii) between 15 and 60 °C temperatures." @default.
• W4320167885 created "2023-02-13" @default.
• W4320167885 creator A5005550195 @default.
• W4320167885 creator A5016856095 @default.
• W4320167885 creator A5030462076 @default.
• W4320167885 creator A5052878483 @default.
• W4320167885 creator A5054120227 @default.
• W4320167885 creator A5072804892 @default.
• W4320167885 date "2023-02-12" @default.
• W4320167885 modified "2023-10-10" @default.
• W4320167885 title "Printed n- and p-Channel Transistors using Silicon Nanoribbons Enduring Electrical, Thermal, and Mechanical Stress" @default.
• W4320167885 cites W1564112105 @default.
• W4320167885 cites W1604373122 @default.
• W4320167885 cites W2005099118 @default.
• W4320167885 cites W2044479329 @default.
• W4320167885 cites W2055464044 @default.
• W4320167885 cites W2057262322 @default.
• W4320167885 cites W2062107444 @default.
• W4320167885 cites W2092155559 @default.
• W4320167885 cites W2092379061 @default.
• W4320167885 cites W2133423794 @default.
• W4320167885 cites W2145662152 @default.
• W4320167885 cites W2164875840 @default.
• W4320167885 cites W2196563095 @default.
• W4320167885 cites W2262167125 @default.
• W4320167885 cites W2268268859 @default.
• W4320167885 cites W2301833093 @default.
• W4320167885 cites W2315767070 @default.
• W4320167885 cites W2331017946 @default.
• W4320167885 cites W2336209486 @default.
• W4320167885 cites W2400100982 @default.
• W4320167885 cites W2515736930 @default.
• W4320167885 cites W2519057261 @default.
• W4320167885 cites W2529135295 @default.
• W4320167885 cites W2560160453 @default.
• W4320167885 cites W2590603222 @default.
• W4320167885 cites W2603774226 @default.
• W4320167885 cites W264642757 @default.
• W4320167885 cites W2780756707 @default.
• W4320167885 cites W2789868184 @default.
• W4320167885 cites W2894645292 @default.
• W4320167885 cites W2899214457 @default.
• W4320167885 cites W2909145354 @default.
• W4320167885 cites W2917833977 @default.
• W4320167885 cites W2927985262 @default.
• W4320167885 cites W2963558080 @default.
• W4320167885 cites W2973967544 @default.
• W4320167885 cites W2977568232 @default.
• W4320167885 cites W2979662089 @default.
• W4320167885 cites W2988034372 @default.
• W4320167885 cites W3005242844 @default.
• W4320167885 cites W3010019208 @default.
• W4320167885 cites W3027916746 @default.
• W4320167885 cites W3029684493 @default.
• W4320167885 cites W3031511779 @default.
• W4320167885 cites W3039279398 @default.
• W4320167885 cites W3039845928 @default.
• W4320167885 cites W3092238722 @default.
• W4320167885 cites W3123211458 @default.
• W4320167885 cites W3155553049 @default.
• W4320167885 cites W3161527551 @default.
• W4320167885 cites W3166254754 @default.
• W4320167885 cites W3173023448 @default.
• W4320167885 cites W3175071746 @default.
• W4320167885 cites W3185602476 @default.
• W4320167885 cites W3190037232 @default.
• W4320167885 cites W3190530720 @default.
• W4320167885 cites W3194303810 @default.
• W4320167885 cites W3200223386 @default.
• W4320167885 cites W3210788132 @default.
• W4320167885 cites W4200104369 @default.
• W4320167885 cites W4205455431 @default.
• W4320167885 cites W4205740463 @default.
• W4320167885 cites W4206778356 @default.
• W4320167885 cites W4213284676 @default.
• W4320167885 cites W4221006655 @default.
• W4320167885 cites W4224231352 @default.
• W4320167885 cites W4224278183 @default.
• W4320167885 cites W4225114862 @default.
• W4320167885 cites W4225724712 @default.
• W4320167885 cites W4226354009 @default.
• W4320167885 cites W4226357524 @default.
• W4320167885 cites W4249769441 @default.
• W4320167885 cites W4281764731 @default.
• W4320167885 cites W4282916920 @default.
• W4320167885 cites W4285084531 @default.
• W4320167885 cites W4287307858 @default.
• W4320167885 cites W4297200838 @default.
• W4320167885 cites W4297999389 @default.
• W4320167885 doi "https://doi.org/10.1021/acsami.2c20569" @default.
• W4320167885 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36774654" @default.
• W4320167885 hasPublicationYear "2023" @default.
• W4320167885 type Work @default.
• W4320167885 citedByCount "2" @default.
• W4320167885 countsByYear W43201678852023 @default.
• W4320167885 crossrefType "journal-article" @default.
• W4320167885 hasAuthorship W4320167885A5005550195 @default.
• W4320167885 hasAuthorship W4320167885A5016856095 @default.

• next