Sunday, October 3, 2021
Call for Research ArticlesSpecial Topic Collections:Atomic Layer Deposition and Atomic Layer Etching
Call for Research Articles
Wednesday, July 7, 2021
Beneq Product Event 2021 Full Video from the ALD/AVS 2021 Conference.
Thursday, May 20, 2021
Plasway, Fraunhofer IKTS and BALD Engineering to present fast SiO2 PEALD at ALD2021
Realization and Dual Angle, In-situ
OES Characterization of Saturated 10-100 ms Precursor Pulses in a 300 mm CCP
Chamber Employing de Laval Nozzle Ring Injector for Fast ALD
Abhishekkumar Thakur1,
Stephan Wege1, Sebastian Bürzele1, Elias Ricken1,
Jonas Sundqvist2, Mario Krug3
1Plasway Technologies GmbH, 2BALD
Engineering AB, 3Fraunhofer IKTS
ALD-based spacer-defined multiple
patterning schemes have been the key processes to continued chip scaling, and they
require PEALD or catalytic ALD for low temperature and conformal deposition of
spacers (typically SiO2) on photoresist features for the subsequent
etch-based pitch splitting. Other SiO2 applications in the logic and
the memory segments include gap fill, hard masks, mold oxides, low-k oxides, hermetic
encapsulation, gate dielectric, inter-poly dielectric ONO stack, sacrificial
oxide, optical films, and many more. ALD is limited by low throughput that can
be improved by raising the growth per cycle (GPC), using new ALD precursors,
performing batch ALD or fast Spatial ALD, shrinking the ALD cycle length, or
omitting purge steps to attain the shortest possible ALD cycle. Today’s latest
and highly productive platforms facilitate very fast wafer transport in and out
of the ALD chambers. Current 300 mm ALD chambers for high volume manufacturing
are mainly top-down or cross-flow single wafer chambers, vertical batch furnaces,
or spatial ALD chambers.
We have developed a Fast PEALD
technology [1], realizing individual precursor pulses saturating in the sub-100
ms range. The key feature of the technology is the highly uniform, radial
injection of the precursors into the process chamber through several de Laval
nozzles [2]. To in-situ study (concomitantly from the top and the side of the
wafer surface) individual ALD pulses in the 10-100 ms range, we use two fast
scanning (≤10 ms acquisition time per spectrum ranging from 200 nm to 800 nm)
Optical Emission Spectrometers with a resolution in the range of 0.7 nm.
We present the results for PEALD of
SiO2 exhibiting substrate surface saturation for 30 ms of BDEAS
pulse (Fig. 1) and 50 ms of O2 plasma pulse (Fig. 2). All the processes
were carried out in a 300 mm, dual-frequency (2 MHz and 60 MHz) CCP reactor in
the temperature range of 20 °C to 120 °C and at ~1 Torr max. pulse pressure.
The in-situ, time-resolved OES study of O2 plasma pulse, indicating
saturation of O* (3p5Pà3s5S) emission peak
already at 50 ms pulse duration (Fig. 3, 4) and associated extinction of
reactive O* within 161 ms (Fig. 5), suggest room for yet faster process. The
mean GPC diminishes with the electrostatic chuck temp (Fig. 6).
We will present a more optimized
PEALD SiO2 process and stacking of Fast PEALD SiO2 on top
of Fast PEALD Al2O3 in the same chamber without breaking
the vacuum. The results will comprise XPS, TEM, film growth uniformity across
300 mm wafer, and residual stress investigation for the film stack.
References:
[1] AVS ALD2020, Abstract Number:
2415, Oral Presentation: AM-TuA14
[2] Patent US20200185198A1
ALD/ALE 2021 Technical Program June 27-30, 2021
Virtual Meeting Overview & Highlights
AVS ALD/ALE 2021 Conference Page
Live Tutorial Session with live Q&A Chat Opportunities
(Sunday, June 27, 2021)
- Parag Banerjee (University of Central Florida, USA), “Seeing Is Believing: In situ Techniques for Atomic Layer Deposition (ALD) Process Development and Diagnostics”
- Arrelaine Dameron (Forge Nano, USA), “ALD Powder Manufacturing”
- Henrik Pedersen (Linkoping University, Sweden), “Let’s Talk Dirty – Battling Impurities in ALD Films”
- Riikka Puurunen (Aalto University, Finland), “Fundamentals of Atomic Layer Deposition: An Introduction (“ALD 101”)”
- Fred Roozeboom (Eindhoven University of Technology, The Netherlands), “ALE and ALD: Two Biotopes of a Kind in Atomic-Scale Processing”
Live Plenary, Awards, and Student Finalists with live Q&A Chat Opportunities (Monday, June 28, 2021)
- Plenary Speaker: Steven George (University of Colorado Boulder, USA), “Mechanisms of Thermal Atomic Layer Etching”
- Plenary Speaker: Todd Younkin (Semiconductor Research Corporation, USA), “Materials & Innovation – Essential Elements that Underpin the Next Industrial Revolution
- Live Parallel Technical Sessions with live Q&A Chat Opportunities (Tuesday-Wednesday, June 29-30, 2021)
- On Demand Oral Sessions (Starting Monday, June 28, 2021)
- On Demand Poster Sessions with a Mix of Pre-recorded (Video or Audio) Talks and/or PDF files
Monday, April 5, 2021
ALD/ALE 2021 is Going Virtual June 27-30, 2021
Virtual Meeting Overview & Highlights
- Live Tutorial Session with live Q&A Chat opportunities (Sunday, June 27, 2021)
- Live Plenary, Awards, and Student Finalists with live Q&A Chat opportunities (Monday, June 28, 2021)
- Live Parallel Technical Sessions with live Q&A Chat opportunities (Tuesday-Wednesday, June 29-30, 2021)
- On Demand Oral Sessions (Starting Monday, June 28, 2021)
- On Demand Poster Sessions with a Mix of Pre-recorded (Video or Audio) Talks and/or PDF files
- Live and On Demand Sessions available on Mobile App/Online Scheduler through July 31, 2021 and then to AVS members in the AVS Technical Library
AVS ALD/ALE 2021 Web
|
|
Wednesday, January 27, 2021
Call for Abstracts ALD & ALE 2021 Tampa,FL, USA
|