Molybdenum Gate Electrode Technology For Deep Sub-Micron CMOS Generations

2001 ◽  
Vol 670 ◽  
Author(s):  
Pushkar Ranade ◽  
Ronald Lin ◽  
Qiang Lu ◽  
Yee-Chia Yeo ◽  
Hideki Takeuchi ◽  
...  
Keyword(s):  
Work Function ◽  
Cmos Technology ◽  
Potential Candidate ◽  
Gate Electrode ◽  
Metal Gate Electrodes ◽  
Gate Electrodes ◽  
Dielectric Interfaces ◽  
Nitrogen Ions ◽  
Metal Work ◽  
Gate Work Function

ABSTRACTContinued scaling of CMOS technology beyond the 100 nm technology node will rely on fundamental changes in transistor gate stack materials [1]. Refractory metals and their metallic derivatives are among the only candidates suitable for use as transistor gate electrodes. In earlier publications, Mo has been proposed as a potential candidate for use as a MOSFET gate electrode and the implantation of nitrogen ions into the Mo film has been observed to lower the interfacial work function of Mo [2,3]. This observation indicates the potential application of Mo as a CMOS gate electrode. In this paper, the dependence of the interfacial work function on the nitrogen implant parameters (viz. energy and dose) is discussed. In general, metal work functions at dielectric interfaces depend on the permittivity of the dielectric [3,4,5]. This dependence of the gate work function on dielectric permittivity presents a significant challenge for the integration of metal gate electrodes into future CMOS technology. In light of this, the ability to engineer the Mo gate work function over a relatively large range makes it an attractive candidate for this application.

scholarly journals Effect of Step Gate Work Function on InGaAs p-TFET for Low Power Switching Applications

Nanomaterials ◽  
2021 ◽  
Vol 11 (12) ◽  
pp. 3166
Author(s):  
Sayed Md Tariful Azam ◽  
Abu Saleh Md Bakibillah ◽  
Md Tanvir Hasan ◽  
Md Abdus Samad Kamal
Keyword(s):  
Low Power ◽  
Work Function ◽  
Potential Candidate ◽  
Gate Electrodes ◽  
The Future ◽  
Work Function Difference ◽  
High Transconductance ◽  
Dual Material ◽  
Gate Work Function ◽  
Function Difference

In this study, we theoretically investigated the effect of step gate work function on the InGaAs p-TFET device, which is formed by dual material gate (DMG). We analyzed the performance parameters of the device for low power digital and analog applications based on the gate work function difference (∆ϕS-D) of the source (ϕS) and drain (ϕD) side gate electrodes. In particular, the work function of the drain (ϕD) side gate electrodes was varied with respect to the high work function of the source side gate electrode (Pt, ϕS = 5.65 eV) to produce the step gate work function. It was found that the device performance varies with the variation of gate work function difference (∆ϕS-D) due to a change in the electric field distribution, which also changes the carrier (hole) distribution of the device. We achieved low subthreshold slope (SS) and off-state current (Ioff) of 30.89 mV/dec and 0.39 pA/µm, respectively, as well as low power dissipation, when the gate work function difference (∆ϕS-D = 1.02 eV) was high. Therefore, the device can be a potential candidate for the future low power digital applications. On the other hand, high transconductance (gm), high cut-off frequency (fT), and low output conductance (gd) of the device at low gate work function difference (∆ϕS-D = 0.61 eV) make it a viable candidate for the future low power analog applications.

Molybdenum as a Gate Electrode for Deep Sub-Micron CMOS Technology

2000 ◽  
Vol 611 ◽  
Author(s):  
Pushkar Ranade ◽  
Yee-Chia Yeo ◽  
Qiang Lu ◽  
Hideki Takeuchi ◽  
Tsu-Jae King ◽  
...  
Keyword(s):  
Work Function ◽  
Elevated Temperatures ◽  
Coefficient Of Thermal Expansion ◽  
Cmos Technology ◽  
Gate Electrode ◽  
Short Channel ◽  
Gate Electrodes ◽  
Channel Effects ◽  
Work Functions ◽  
Gate Resistance

ABSTRACTMolybdenum has several properties that make it attractive as a CMOS gate electrode material. The high melting point (∼2610°C) and low coefficient of thermal expansion (5×10−6/°C, at 20 °C) are well suited to withstand the thermal processing budgets normally encountered in a CMOS fabrication process. Mo is among the most conductive refractory metals and provides a significant reduction in gate resistance as compared with doped polysilicon. Mo is also stable in contact with SiO2 at elevated temperatures. In order to minimize short-channel effects in bulk CMOS devices, the gate electrodes must have work functions that correspond to Ec (NMOS) and Ev (PMOS) in Si. This would normally require the use of two metals with work functions differing by about 1V on the same wafer and introduce complexities associated with selective deposition and/or etching. In this paper, the dependence of the work function of Mo on deposition and annealing conditions is investigated. Preliminary results indicate that the work function of Mo can be varied over the range of 4.0-5.0V by a combination of suitable post-deposition implantation and annealing schemes. Mo is thus a promising candidate to replace polysilicon gates in deep sub-micron CMOS technology. Processing sequences which might allow the work function of Mo to be stabilized on either end of the Si energy band gap are explored.

Work function and thermal stability of Ti1−xAlxNy for dual metal gate electrodes

2002 ◽  
Vol 81 (22) ◽  
pp. 4192-4194 ◽  
Author(s):  
Tae-Ho Cha ◽  
Dae-Gyu Park ◽  
Tae-Kyun Kim ◽  
Se-Aug Jang ◽  
In-Seok Yeo ◽  
...  
Keyword(s):  
Thermal Stability ◽  
Work Function ◽  
Metal Gate Electrodes ◽  
Metal Gate ◽  
Gate Electrodes ◽  
Dual Metal ◽  
Thermal Stability Of

Influence of oxygen diffusion through capping layers of low work function metal gate electrodes

2006 ◽  
Vol 27 (4) ◽  
pp. 228-230 ◽  
Author(s):  
Bei Chen ◽  
R. Jha ◽  
H. Lazar ◽  
N. Biswas ◽  
Jaehoon Lee ◽  
...  
Keyword(s):  
Work Function ◽  
Oxygen Diffusion ◽  
Metal Gate Electrodes ◽  
Metal Gate ◽  
Gate Electrodes

Work Function and Effective Oxide Thickness Engineering via Alloying of Metal Gate Electrodes

2019 ◽  
Vol 16 (5) ◽  
pp. 3-10 ◽  
Author(s):  
Jamie Schaeffer ◽  
Mark Raymond ◽  
David Gilmer ◽  
Rich Gregory ◽  
Bill Taylor ◽  
...  
Keyword(s):  
Work Function ◽  
Oxide Thickness ◽  
Metal Gate Electrodes ◽  
Metal Gate ◽  
Gate Electrodes
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