مرکز منطقه ای اطلاع رساني علوم و فناوري - Reduction in Specific Contact Resistivity to <formula formulatype="inline"> <img src="/images/tex/20574.gif" alt=" \\hbox {n}^{+}"> </formula> Ge Using <formula formulatype="inline"> <img src="/images/tex/721.gif" alt="\\hbox {TiO}

DocumentCode :

1315373

Title :

Reduction in Specific Contact Resistivity to $\\hbox {n}^{+}$ Ge Using $\\hbox {TiO}_{2}$ Interf

Author :

Lin, J.-Y Jason ; Roy, A.M. ; Saraswat, Krishna C.

Author_Institution :

Dept. of Electr. Eng., Stanford Univ., Stanford, CA, USA

Volume :

Issue :

fYear :

2012

Firstpage :

1541

Lastpage :

1543

Abstract :

We report a metal-insulator-semiconductor (MIS) contact using a TiO₂ interfacial layer on highly doped n⁺ Ge to overcome the problem of metal-Fermi-level pinning on Ge, which results in a large electron barrier height. A specific contact resistivity of 1.3 × 10^-6 Ω·cm² was achieved, which represents a 70× reduction from conventional contacts. For the first time, interfacial layer conductivity is experimentally identified as an important consideration for high-performance MIS contacts. New insights on the mechanism responsible for contact resistance reduction are presented.

Keywords :

Fermi level; MIS structures; contact resistance; electrical contacts; elemental semiconductors; germanium; titanium compounds; Ge; TiO₂; contact resistance reduction; electron barrier height; high-performance MIS contacts; interfacial layer; interfacial layer conductivity; metal-Fermi-level pinning; metal-insulator-semiconductor contact; specific contact resistivity reduction; Contact resistance; Doping; Germanium; MIS devices; Titanium compounds; Tunneling; Contact resistance; Fermi-level pinning; germanium; titanium dioxide;

fLanguage :

English

Journal_Title :

Electron Device Letters, IEEE

Publisher :

ieee

ISSN :

0741-3106

Type :

jour

DOI :

10.1109/LED.2012.2214758

Filename :

6329396

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=1315373