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Large work function difference driven electron transfer from electrides to single-walled carbon nanotubes

Mini Mol MenamparambathCenter for Integrated Nanostructure Physics, Institute for Basic Science (IBS), Suwon 440-746, Republic of Korea. [email protected] [email protected]Jongho ParkCenter for Integrated Nanostructure Physics, Institute for Basic Science (IBS), Suwon 440-746, Republic of KoreaHo-Sung YooCenter for Integrated Nanostructure Physics, Institute for Basic Science (IBS), Suwon 440-746, Republic of KoreaShashikant P. PatoleSKKU Advanced Institute of Nanotechnology (SAINT), Sungkyunkwan University, Suwon, Republic of KoreaJi‐Beom YooSKKU Advanced Institute of Nanotechnology (SAINT), Sungkyunkwan University, Suwon, Republic of KoreaSung Wng KimCenter for Integrated Nanostructure Physics, Institute for Basic Science (IBS), Suwon 440-746, Republic of KoreaSeunghyun BaikCenter for Integrated Nanostructure Physics, Institute for Basic Science (IBS), Suwon 440-746, Republic of Korea
2014en
ABI

Аннотация

A difference in work function plays a key role in charge transfer between two materials. Inorganic electrides provide a unique opportunity for electron transfer since interstitial anionic electrons result in a very low work function of 2.4-2.6 eV. Here we investigated charge transfer between two different types of electrides, [Ca(2)N](+)·e(-) and [Ca(24)Al(28)O(64)](4+)·4e(-), and single-walled carbon nanotubes (SWNTs) with a work function of 4.73-5.05 eV. [Ca(2)N](+) · e(-) with open 2-dimensional electron layers was more effective in donating electrons to SWNTs than closed cage structured [Ca(24)Al(28)O(64)](4+) · 4e(-) due to the higher electron concentration (1.3 × 10(22) cm(-3)) and mobility (∼ 200 cm(2) V(-1) s(-1) at RT). A non-covalent conjugation enhanced near-infrared fluorescence of SWNTs as high as 52%. The field emission current density of electride-SWNT-silver paste dramatically increased by a factor of 46,000 (14.8 mA cm(-2)) at 2 V μm(-1) (3.5 wt% [Ca(2)N](+) · e(-)) with a turn-on voltage of 0.85 V μm(-1).

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