research article
Tin (IV) phthalocyanine oxide: An air-stable semiconductor with high electron mobility
Abstract
Air-stable n-type field effect transistors were fabricated with an axially oxygen substituted metal phthalocyanine, tin (IV) phthalocyanine oxide (SnOPc), as active layers. The SnOPc thin films showed highly crystallinity on modified dielectric layer, and the electron field-effect mobility reached 0.44 cm(2) V-1 s(-1). After storage in air for 32 days, the mobility and on/off ratio did not obviously change. The above results also indicated that it is an effective approach of seeking n-type semiconductor by incorporating the appropriate metal connected with electron-withdrawing group into pi-pi conjugated system- 期刊论文
- FIELD-EFFECT TRANSISTORS
- THIN-FILM TRANSISTORS
- CHANNEL ORGANIC SEMICONDUCTORS
- HIGH CARRIER MOBILITY
- BUILDING-BLOCKS
- TRIFLUOROMETHYLPHENYL GROUPS
- PERFORMANCE
- OLIGOMERS
- Field-effect transistors
- Thin film transistors
- Performance
- Organic compounds
- Unipolar transistors
- Metal oxide semiconductors
- field effect transistor circuits
- field effect transistors
- FET
- HEMT circuits
- MODFET circuits
- JFET circuits
- junction gate field effect transistors
- JFET
- MESFET circuits
- MOSFET circuits
- power field effect transistors
- power FET
- static induction transistors
- SIT
- cascode MOSFET
- FET (transistors)
- IGFET
- MESFETs
- MISFETs
- MOSFET
- junction field effect transistors
- Competence
- Incompetence, mental
- Mental competence
- Compounds, Organic
- Organic chemicals
- acids, organic
- biobutanol
- bioethanol
- clathrates
- oligomers
- organic metals
- RNA
- Rochelle salt
- COMPOSES ORGANIQUES
- ORGANISCHE VERBINDUNGEN
- Compounds (organic)
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Last time updated on 13/03/2018
This paper was published in Changchun Institute of Applied Chemistry, Chinese Academy Of Sciences.
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