Plasway, Fraunhofer IKTS and BALD Engineering to present fast SiO2 PEALD at ALD2021

Get ready for ALD/ALE 2021 and don´t miss new record-breaking fast ALD using 3D printed ceramic de Laval Rocket nozzle technology by Plasway, Fraunhofer IKTS and BALD Engineering.

♦ 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

♦ we use two fast scanning, with ≤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 and 50 ms of O2

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.

Saturation curves for SiO2 Fast PEALD

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

Encapsulix SAS selected as supplier of ALD-TFE deposition systems by leading Asian AMOLED manufacturer

January 16, 2017 : Encapsulix SAS today announced that it has been selected as the supplier of ALD-TFE deposition systems by a leading Asian AMOLED manufacturer. The first tool is presently under construction and scheduled for operation from the spring of 2017 onwards. The systems will be used to encapsulate flexible AMOLED displays with multifunctional nanolaminated coatings. The order was awarded to Encapsulix SAS after an extensive evaluation of available ALD equipment suppliers of barrier and encapsulation coatings.

The Infinity ALD equipment platform has the unique capability to deposit the most advanced nano-engineered coatings in a manufacturing environment. These coating have an overall thickness in the 20-50nm range, and typically comprise tens of sublayers of up to 10 different materials with thicknesses in the nanometer range. A wide range of available materials includes both inorganic (e.g. Al2O3, SiO2, ZrO2, TiO2, SiNx, HfO2,..) and organic (Alucone, Zircone, ..) nanolayers allowing to engineer the barrier, mechanical, optical en electrical properties at the atomic scale.

« This order confirms the technological superiority and leading Cost-Of-Ownership of our ALD-TFE equipment and process solutions for AMOLED manufacturing » stated Dr. Jacques Kools, founder and CEO of Encapsulix SAS. He also stated « We are now seeing rapid market adaptation of Nanolaminated ALD-TFE as the ideal solution for the emerging application of foldable OLED devices. »

About Encapsulix, Encapsulix was founded to address the geometric scaling of critical deposition requirements for industrial & microelectronic devices and foils. The company has its development and headquarters in Simiane- Collongue France, equipment development, sales and service in the USA. 

For more information:
Contact: www.encapsulix.com

For those of you attending ALD For Industry in Dresden 17-18 of January you will have an excellent opportunity to listen and be enlightened by Dr. Kools himself giving a talk entitled "Industrial deployment of nano-engineered ultrabarriers for encapsulation of organic electronic".

Encapsulix SAS Introduces InfinityTM 200 Atomic Layer Deposition System

SIMIANE-COLLONGUE, France – July 26, 2016 – Encapsulix SAS today introduced its InfinityTM 200 Atomic Layer Deposition (ALD) system product line optimized for deposition onto 200 mm substrates in a manufacturing or R&D environment. The line’s advanced features for nano-engineered materials include a special focus on low temperature, thin-film encapsulation for flexible organic electronics, in particular organic light-emitting diodes (OLED).

The new 200 ALD line incorporates Encapsulix’s proprietary Parallel Precursor Wave (PPW) technology, which deposits atomic-level coatings with unmatched precision and throughput. The system has been successfully installed and qualified for ultrafast OLED encapsulation at Leti, the CEA Tech research institute in Grenoble, France. Additional systems will be delivered in the next 12 months to customers in Asia.

“We are pleased to strengthen our product offering to the OLED industry with this product family. The strategic partnership with Leti, and the successful application of our technology in the most demanding OLED encapsulation applications, confirm our position as the industry leader in ALD for OLED encapsulation,” said Dr. Jacques Kools, founder and CEO of Encapsulix SAS. “Our high-speed ALD thin-film encapsulation technology proves to be a key enabler in the flexible electronics revolution”.

Introduction to Encapsulix introduction, Dr. Jacques Kools, founder and CEO of Encapsulix SAS (Youtube).

“Since its launch in 2011, Encapsulix has continuously improved the performance of high-throughput atomic layer deposition equipment and processes,” said Dr. Tony Maindron, OLED senior scientist and project leader at Leti. “This new, ultrafast InfinityTM 200 system will strengthen Leti’s OLED development projects for next- generation wearable devices and other uses.”

The Infinity ALD equipment platform was developed by Encapsulix to address the microelectronic industry’s need for geometrically scaled nano-engineered coatings. These coatings range from 10-100 nm in thickness, and often are comprised of sublayers with nanometer thickness. The Infinity series provides the unique ability to transfer the process from R&D on 200 mm (resp. generation 2.5) in Infinity 200 (resp. Infinity 500) systems to manufacturing on generation 4.5 and generation 6 substrate sizes in Infinity 750 and Infinity 1000 tools. These capabilities provide a reliable route for quickly ramping the most advanced thin-film encapsulation solutions for flexible AMOLED.

About Encapsulix
Encapsulix was founded to address the geometric scaling of critical deposition requirements for industrial & microelectronic devices and foils. Initial process focus is in Al2O3 and TiO2 specifically for barrier coatings. The company has its development and headquarters in Simiane-Collongue France, equipment development, sales and service in the USA.

For more information:
Contact: www.encapsulix.com
Europe : Jacques Kools jkools@encapsulix.com

SoLayTec garners repeat ALD orders from China for PERC production

Atomic layer deposition (ALD) equipment specialist SoLayTec, a subsidiary of Amtech Systems has secured orders from two China-based PV manufacturers. Image: SoLayTec.

Atomic layer deposition (ALD) equipment specialist SoLayTec, a subsidiary of Amtech Systems has secured orders from two China-based PV manufacturers.

Critically, SoLayTec has received its first follow-on order for its modular InPassion system from an existing customer, since first evaluating ALD technology in 2011. The customer entered volume production using the technology in 2014, resulting in a repeat order for production later in 2015. The company said that tool delivery was planned for June.

The second order is for an R&D evaluation with a new client with the expectation of taking the technology from lab to fab in the future. SoLayTec said that in principle the new customer would commence R&D activities with one module, which can handle at least 600wph. However, after pilot testing and validation, the tool can be upgraded to mass production by adding the other modules to reach a maximum throughput of 3,600wph.

Roger Görtzen, co-founder of SoLayTec and manager marketing and sales said: “Since 2011 SoLayTec is working very closely with this Tier one customer and SoLayTec is proud that they have accepted our InPassion ALD in full production last year. They started PERC research with our InPassion LAB tool in 2011 and moved towards mass production in 2014, starting with our InPassion ALD system with three modules (1800wph). This was accepted within three months after which they purchased another three modules upgrading the tool to 3600wph and at the same time showing the advantage of our modular tool set-up. So now SoLayTec has reached its next milestone by repeat orders. This clearly shows the equipment readiness for mass production for the PV market.”

ALD competed with PECVD and APCVD deposition techniques to provide tightly specified thicknesses of Al2O3 for surface passivation of both the front and real cell in a PERC configuration. Tighter deposition control can produce higher efficiency cells.

Financial details were not disclosed.

Veeco ship first Prototype System for FAST-ALD™ for OLED to Samsung

According to the 4Q/2013 results press release  Veeco book first Prototype System for FAST-ALD™

 

"while not included in reported fourth quarter bookings, we received a purchase order from the world leader in mobile OLED displays for a next generation Fast Array Scanning Atomic Layer Deposition (FAST-ALD™) prototype system."

 - See more at: http://phx.corporate-ir.net/phoenix.zhtml?c=111487&p=irol-newsArticle&ID=1901454#sthash.mi25oBRj.dpuf

Recent information has become availabel that the system is heading to Samsung "Veeco sold a FAST-ALD flexible OLED encapsulation prototype system to Samsung". Who else could it bee since Samsung has 95% of that market? It is also in lign with previous reports on Synos Technology working with Samsung for Flexible OLED encapsulation.

 

Check out the cool animated video below to understan more about FAST-ALD a.k.a. Spatial ALD. Further reading on this technology you can find on the Veeco page for FAST-ALD : http://www.veeco.com/promos/fast-ald.aspx, where the key benefits are listed as:

 

• Ultra-fast ALD process with continuous substrate scan Large substrate scalability without losing process throughput
• Excellent uniformity with closed loop linear reactor design
• Low CoO with high efficient gas-solid reaction process
• Simultaneous In-line multi-process capability

 

Other companies that are developing or producing Spatial ALD Equipmet:

SoLayTec, Levitech, BENEQ and Applied Materials.