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[Expert Talk] Interview with SAES Group’s Dr. Mauro Riva

2015年 12月 4日/0 コメント/カテゴリ: ディスプレイ, 技術 /作成者: OLEDNET

Dr. Mauro Riva, SAES Group’s OLED/OLET business developer, kindly answered a few questions regarding OLED for OLEDNET. He will be speaking at the 2nd OLED KOREA Conference (February 24-25, 2016) in Seoul, Korea.

With much thanks to Dr. Riva for taking the time to answer some questions, here is the full script of the interview.

What is your personal opinion on OLED’s marketability?

I believe that OLEDs have just to leverage on their unique, distinctive properties, in order to enable brand new market segments, rather than entering competition in already crowded and established markets. I mean that the specificities of organic materials make them the only candidates for creating an entire future portfolio of portable, flexible, feather-light and, possibly, low power high definition display devices.

Thus, the ability to generate really new, fancy, conformable and sustainable displays is, in my opinion, the first ingredient to boost OLED’s marketability. The second ingredient could be, in the long run, lower raw material and manufacturing costs, with respect to competing display technologies.

Is there a particular reason for your choice to speak at the OLED specific conference rather than a more general IT conference?

As an advanced materials Company, SAES Group have developed a comprehensive portfolio of functionalized polymer composites, to be integrated in a plurality of OLED device architectures. For this reason, an OLED specific conference is the perfect place to directly discuss the important theme of encapsulation, with the people working everyday on this peculiar technology. We wanted to have a direct and frank debate with scientists and technicians specifically involved in OLEDs, rather than in general IT themes, in order to be far more focused on the manifold organic diode encapsulation issues.

What are the latest issues on OLED encapsulation?

I think that OLEDs are nowadays facing the same issues they had since the beginning: basically, OLED materials are extremely sensitive to oxidizing agents and, especially, to moisture. This requires encapsulation materials with exceptionally high barrier properties, and active fillers or getters, capable of absorbing water on a single molecule basis. The optimization of many functional properties in single encapsulating materials is a very complex materials science problem. The fact that OLED materials can also be very sensitive to heat or radiations, generates many process constraints as well.

It turns out that encapsulation materials must be specifically engineered taking into account the OLED structure, the device architecture, the chemical and physical nature of the materials and, nevertheless, the specific processes to be applied. Perfecting OLED encapsulation is thus a very challenging task, which requires deep technical interaction between advanced encapsulation materials providers and OLED makers.

Could you tell me about development concept and characteristics? Also perhaps recent performances and outcome?

As far as the Organic Electronics Business Development Area is concerned, we provide a very large portfolio of active edge sealants, active transparent fillers, dispensable getters. These products come as the result of our deep know-how in functional polymer composites, and they are specially tailored to address customers’ specific OLED designs and processes. Leveraging on our functional polymer composite technology, we have been able to develop solventless formulations, with water sorption capacities exceeding 13 percent in weight and very high flexibility and adhesiveness for fully bendable devices. Our products can be applied via screen printing, blading, syringe, ink-jetting, ODF and even be employed in thin film encapsulation structures, to make them simpler and more reliable.

Together with the functional polymer composite based products, we also provide high performance tape dryers, as thin as 110 microns, for R&D and small scale bottom emission OLEDs. Another important class of products is related to AlkaMax: this technology offers an efficient and safe method of depositing ultrapure alkali metals. Our alkali metal dispensers and pills keep the alkali metal pure in the form of a stable salt, until it is thermally activated in the evaporation chamber.

What are OLED related main manufacturing equipment type and who are your main clients?

We see syringe dispensing as one of the main methods for dispensing our functional polymer composites. Ink-jetting is also becoming more and more widespread, together with ODF, especially for active fillers. As of today, we get the most revenues in this field from PMOLED makers. The AMOLED market is broadening, and we have some very good customers there as well, who are especially in need of effective solutions for smartphone and tablet size high definition displays. OLED lighting is still early stage, but we are already collaborating with the major players in that field, so far at R&D or pre-production stage. The main market for our products for the organic electronics market is indeed Asia.

Are there any areas where you are collaborating with material companies?

We have many collaborations worldwide, with other material companies as well. Regarding the functional polymer composite technology, we are collaborating in the areas of organic electronics, specialized food packaging and gas barrier films.

We are also engaged in very fruitful collaborations with specialized equipment makers.

Is there anything you would like to add?

I would just kindly invite everyone who is interested in OLED encapsulation to visit our website and to directly contact us, for deepening all the technical aspects about our product portfolio.

The proactive and collaborating approach with our customers and the Research and Innovation focus have always been the heart of our Company way of doing: the OLEDs world offers us a real exciting and challenging arena for making innovation happen, together with all the players involved in this fascinating emerging technology.

Planar Aims for Transparent OLED Product Mass Production in Feb 2016

2015年 12月 2日/0 コメント/カテゴリ: ディスプレイ /作成者: OLEDNET

On November 30 (local time), a US based display production company Planar held an online presentation titled ‘Planar Look Thru OLED Transparent Display Webinar’, discussing transparent display traits and disclosing specifications for products which are estimated to be mass produced from February 2016.

Transparent display is defined as a display with see-through screen showing objects behind the display as well as the display contents. Recently, it is receiving much attention as a technology with high potential for diverse applications expanding existing display industry.

Planar explained that unlike the existing display, transparent display pixels are separated into transparent and emitting areas with RGB subpixels located in the emitting area. Planar clarified that what is black on general display becomes see-through and white becomes opaque.

Transparent display’s performance is decided by several factors such as transmittance, brightness, and color gamut. Regarding this, Planar revealed that the transmittance of transparent display is not fixed but can be affected by ambient light; brighter the surrounding environment, higher the transmittance. Additionally, viewers have tendency to perceive the display with higher color gamut as brighter than the actual brightness, and transparent display’s color gamut is therefore an important factor.

In early 2015, Planar revealed a 55inch transparent OLED display prototype. At present, Planar is receiving pre-order and aiming for mass production in February 2016. The company also reported basic specifications for the panel: 45% of transmittance, 100% color gamut, and Full HD (1,920×1,080) of resolution. The product also has 5 input sources: 4 HDMI terminals, and 1 display port.

During the webinar, Planar explained that 32 touch points using IR (infra-red) touch system installation is an option. Although this is less accurate than touch system using touch film, Planar explained that this was an unavoidable choice in order to increase the transmittance. They also added that they are continuing research for new touch system application.

The 55inch panel price starts from under USD 15,000 and Planar is currently receiving pre-order. Although there are many factors that affect transparent OLED’s lifetime, it was measured to be 20,000 hours at LT50. Answering the question on whether it is affected by UV light, Planar explained that it can be UV sensitive and the product was designed to be an indoor installation.

It is estimated that the transparent OLED panel used in the Planar’s product released is produced by Samsung Display as it has the same 45% transmittance, 1920×1080 resolution, and 400nit brightness.

Planar’s Transparent OLED Display to be Mass Produced Source: Planar

Korea’s Survival Hangs on OLED; Government Support is Urgently Needed

2015年 11月 24日/0 コメント/カテゴリ: ディスプレイ, 市場 /作成者: OLEDNET

The last 5 years of budget for Korean semiconductor, which is a key industry for the nation, and display related industry’s original technology development expenses was researched and analyzed.

Electronic information device sector’s expenses can be categorized into semiconductor, display, LED/lighting, and evaluation maintenance fee.

In 2011, 130,000 million KRW was provided as technology development expense, but since then the amount annually decreased. In 2015, the amount was 95,000 million KRW, but in 2016, it is estimated to decrease further 42% and only 55,000 million KRW is expected to be provided.

Semiconductor funding for 2015 occupies 58% of the total budget with 54,800 million KRW. Although that amount will be reduced to 35,600 million KRW in 2016, it is expected to occupy 65% of the total funding.

For display section, the 2015 funding is only 19,500 million KRW, a 21% of the total budge. In 2016, this is estimated to fall to 17%.

The government funding for display sector, which is the core of Korean electronic information industry, is around the same level as LED/Lighting sector.

The rapid reduction of government funding for display industry is expected to cause much difficulty in future display business.

The Korean display panel market that is being maintained by 2 companies, Samsung Display and LG Display, recorded 62 billion KRW in 2012. However, it fell to 52 billion KRW in 2014, and the market power is gradually weakening. As Chinese companies are becoming more active in LCD market, Korean companies’ price competitiveness is waning in low-priced panel market.

If BOE’s Gen10.5 line begins operation in 2018, Korean display companies’ market power is analyzed to rapidly fall in LCD market. In order for the Korean display business to take-off again, now is the time for the government to fund OLED panel which has high added value.

[Automotive Display Seminar] Automotive Display, Urgent Transparent Display Technology Development Needed

2015年 11月 20日/0 コメント/カテゴリ: ディスプレイ, 展示 /作成者: OLEDNET

By Choong Hoon Yi

On November 13, Automotive Display Development Technology and Commercialization Planning seminar was hosted by Educational Center of Future Technology in Yeouido, South Korea.

KATECH (Korea Automotive Technology Institute)’s Dr. Sun-Hong Park explained that “as the automotive display market grows, display market’s domain is expanding” and announced “market for CID (Central Information Display) that mainly functions as navigation device and HUD (Head Up Display) that can show mileage and speed is steadily growing since 2008 and it is anticipated to grow considerably in future”. He added that particularly, 7inch or larger CID is increasing its market share in display market and that CID is becoming larger. He also mentioned that with the increase of traffic accidents from driver’s lack of attention to the road, HUD that can show information on the front window is necessary. However, legibility issues due to brightness and reflectiveness and technological issues such as integration with other display device need to be solved.

Dr. Sun-Hong Park of KATECH (Korea Automotive Technology Institute)

Dr. Chi-Sun Hwang of ETRI (Electronics and Telecommunications Research Institute) compared display technology that can actualize transparent display, and technological issues to be solved in order for it to be applied to automotive. Hwang explained that although display technology that can produce transparent display include LCD, OLED TFEL (thin film EL), HUD (projection) among others, AMOLED is the most suitable considering resolution and transmittance. Although LCD technology level is at commercialization stage, as the transmittance is not high it can interfere with the driver’s viewing field. He also added that “poly Si TFT technology performance is good, transmittance is limited. However, oxide TFT technology’s transmittance is high and performance is continuing to improve, it needs to be more actively developed”. To be used as an automotive display, it has to meet certain conditions such as temperature, production cost, and brightness to be an automotive component as well as being placed in the suitable location in the driver’s viewing field; compared to other general display, automotive display is facing higher number of technical issues.

Dr. Chi-Sun Hwang of ETRI (Electronics and Telecommunications Research Institute)

Source: Dr. Chi-Sun Hwang of ETRI (Electronics and Telecommunications Research Institute)

With the focus on the transparent display from automotive display industry, the interest in the technology needed for the application to automotive is also increasing. In order to lead the automotive display market, understanding of automotive components’ characteristics and effort to solve the diverse issues facing the optimized driving condition are required as well as knowledge of display itself.

[Expert Talk] Dr. Mauro Riva, SAES Group’s OLED/OLET Business Developer, on Encapsulation

2015年 11月 20日/0 コメント/カテゴリ: ディスプレイ, 技術 /作成者: OLEDNET

Dr. Mauro Riva, SAES Group’s OLED/OLET business developer, discussed his views on OLED in general as well as SAES Group’s technology through his interview with the OLEDNET and presentation at the OLEDs World Summit (October 27-29) titled ‘The Encapsulation Question’.

Encapsulation is required to prevent the oxidation of emitting and electrode materials by blocking moisture and oxygen. It also protects the device from mechanical and physical shocks. The basic configurations of encapsulation can be divided into 3: glass-to-glass, barrier film lamination, and thin film encapsulation methods. Glass-to-glass configuration is applied to rigid AMOLED for mass produced mobile, barrier film lamination and thin film encapsulation methods are used for flexible AMOLED, and barrier film lamination is used for large area AMOLED panel for TV.

Source: SAES Group, OLEDs World Summit 2015

According to Dr. Riva OLED encapsulation is still facing the same issues it had since the beginning: OLED materials’ extreme sensitivity to oxidizing agents and moisture in particular. He added that OLED materials can also be very sensitive to heat or radiations, generating many process constraints. Encapsulation technology is directly related to the lifetime of the OLED device and Dr. Riva raised several questions regarding the current issues surrounding the technology including the appropriate target lifetime, best definition of “lifetime”, and reliability of the “accelerated tests”. He emphasized that while much progress have been made, a “single optimal, universal solution” does not exist yet to meet various encapsulation requirements depending on OLED architecture, materials, environment, applications, etc. As such, encapsulation materials have to be specifically engineered to meet different types of OLED devices while having “exceptionally high barrier properties, and active fillers or getters, capable of absorbing water on a single molecule basis”. Thus, perfecting this technology is a very challenging task, and, according to Dr. Riva, something that requires in depth collaboration between advance encapsulation materials providers and OLED makers.

For their part in this technology progression, Dr. Riva reported that SAES Group provides a very large portfolio of active edge sealants, active transparent fillers, and dispensable getters. He explained that the portfolio is the results of deep know-how in functional polymer composites (FPC), “specially tailored to address customers’ specific OLED designs and processes”. Discussing the FPC during his talk in OLEDs World Summit, Dr. Riva emphasized the versatility of this approach.

Source: SAES Group, OLEDs World Summit 2015

Regarding application methods for SAES Group’s FPC products, Dr. Riva explained that they can be dispensed via screen printing, blading, syringe, ink-jetting, ODF (one drop filling), and even be employed in thin film encapsulation structures, to make them simpler and more reliable. Furthermore, Dr. Riva reported that while SAES Group considers syringe dispensing as one of the main methods for applying their FPC, “ink-jetting is also becoming more and more widespread, together with ODF, especially for active fillers”.

Dr. Riva believes the FPC could play an important role in making the encapsulation more effective, and that SAES Group can “leverage on its advanced materials expertise” and in-depth getter/purification knowledge, to “perfect FPC based encapsulation solutions for OLEDs”. 11% of SAES Group’s net sales is allocated to Research and Innovation every year with strong cooperation with universities and R&D centers. The company is collaborating with many companies in diverse areas of interest such as OLED lighting, manufacturing equipment, specialized food packaging, and gas barrier films. This proactive and collaborating approach will enable the SAES Group to play a key role in developing more marketable OLED devices.

Visionox Reveals 604PPI High Resolution AMOLED

2015年 11月 13日/0 コメント/カテゴリ: ディスプレイ, 技術 /作成者: OLEDNET

On November 12, Visionox announced that they recently developed 604ppi (approximately 4.85inch) high resolution full color OLED panel through FMM (fine metal mask) using evaporation technology.

Visionox Z-Type(Source : OLED-info)

In 2014, Visionox developed 570ppi RGB AMOLED panel with newly developed pixel structure, Z-Type. This Z-Type arrangement had larger blue sub-pixel with green and red sub-pixels beside it. The new panel has resolution of 604ppi which is a 35ppi increase from the 2014 panel. With this new reveal, Visionox displayed their high resolution OLED technology improvement.

The 604ppi panel combined the self-developed pixel layout under proprietary intellectual property rights and co-developed Chinese FMM. The resolution is 2,560 × 1,440, manufactured using real RGB method and not pentile.

Chinese companies are developing their high resolution AMOLED panel technology at a fast pace. In August, EverDisplay presented 734ppi 6inch panel, and the technology difference with Korean panel companies is rapidly decreasing.

Visionox revealed that this OLED panel shows Visionox’s research development for high resolution OLED is continuing and aptly demonstrated the current results.

604 PPI High Resolution Display Panel (real RGB) (Source: Visionox)

[Merck Display Insight 2015] Merck Reveals Latest Performance Results for Red and Green Solution Process Materials

2015年 11月 6日/0 コメント/カテゴリ: ディスプレイ, 発光材料 /作成者: OLEDNET

On November 5, during the 16^th Merck Display Insight 2015 seminar, Merck revealed the development results for solution process materials. The solution process materials presented were red and blue materials’ efficiency, lifetime, and CIE.

At present UDC’s evaporation materials are being used in OLED mass production. UDC’s evaporation material performance, published on the company website, were compared with Merck’s materials. Merck’s red material’s efficiency was 19.1cd/A, lifetime was 5,900 hours, and the CIE was (0.66, 0.34) which were approximately 66% of UDC material’s efficiency (29cd/A), 26% of UDC material’s lifetime (23,000 hours), and showed equal CIE.

For Merck’s green material, efficiency was 76.4cd/A, lifetime was 5,200 hours, and the CIE was (0.32, 0.63). These were approximately 89% of UDC’s green’s 85cd/A of efficiency, and 29% of 18,000 hours of lifetime. The CIE were similar with UDC’s (0.31, 0.63).

The comparison of the published materials’ performance, efficiency of solution process materials are developed to the similar levels as evaporation materials, but material lifetime require more research. Through this seminar, Merck revealed that the LT95’s solution process material’s lifetime will be solution process OLED’s most crucial challenge.

During the question and answer part of the poster session, Merck also revealed positive outlook that full stack solution process OLED product will be produced within the next 3-4 years.

Despite being one of the latecomers within the OLED material business, Merck is producing notable results in solution process material development and OLED material sales. This year’s sales results are anticipated to be higher than expected.

According to 2015 Solution Process OLED Annual Report, published by UBI Research, the key issue for solution process OLED is solution process emitting material performance. The solution process red and green’s efficiency reached to the similar levels as evaporation material. However, lifetime showed to be ≤approx. 30% of evaporation material in LT95. On the other hand, solution process blue is analyzed to be falling behind evaporation material in both lifetime and efficiency. As such, it is estimated that solution process OLED will be mass produced using the hybrid structure where red and green are formed through printing, and blue is formed through evaporation.

LG OLED TV Records Highest Monthly Sales Volume

2015年 11月 5日/0 コメント/カテゴリ: セット, 市場 /作成者: OLEDNET

LG Electronics’ strategy of OLED promotion and OLED TV price reduction appears to be working successfully.

On November 3, LG Electronics reported that the October sales exceeded 4,500 units, twice the volume of early 2015. Particularly, the sales volume of the first week of October exceeded 2,000 units and contributed to breaking the monthly sales volume record.

The OLED TV’s bigger price drops from the last week of September seem to have led the high sales volume in the first week of October. According to Amazon, 55inch FHD curved OLED TV fell to US$ 1,797 from October, approximately a 28% drop from August’s US$ 2,499. 55inch UHD curved OLED TV and UHD flat OLED TV also fell to the US$ 2,000 range, making the price difference with UHD LCD TV to be US$ 500. This price competitiveness is analyzed to contribute to the increased sales volume.

Aggressive marketing is also a factor for this sales volume growth. In September, LG Electronics installed OLED TV in 39 key airports in 23 countries including the US, Germany, and Russia, and revealed plan to install approximately 200 units of OLED TV until the end of October. Advertisement of OLED TV can also be easily seen in Korean subway stations. LG Electronics’ OLED promotion strategy, revealed during the Q2 performance announcement appears to be effective.

Recently, LG Electronics announced their aim to lead the OLED TV market through strengthening OLED=LG image and OLED TV and UHD TV product diversification.

LG 55inch OLED TV Price Changes

LG Electronics Strives to Establish OLED=LG Image

2015年 11月 3日/0 コメント/カテゴリ: セット, 市場 /作成者: OLEDNET

On October 29, during the performance announcement, LG Electronics revealed their plan to carry out aggressive marketing through establishment of OLED=LG image.

LG Electronics Home Entertainment business reported that the TV shipment doubled in this quarter compared its previous quarter due to OLED TV and UHD TV product mix. LG Electronics reported that OLED TV market expansion from Korea and North America into Europe and Russia among others contributed to the sales increase.

LG Electronics is anticipating sales increase in Q4 from peak TV market and general market promotion brought premium TV sales expansion. Accordingly, LG Electronics forecast their Q4 sales to be similar to 2014 and that business profit to increase slightly due to improvement in TV’s profit stabilization.

Regarding aggressive marketing from Chinse TV companies including Hisense, and TCL, Jinho Ha of LG Electronics Home Entertainment planning department, admitted the threat. However, through premium TV technology such as smart TV, design, and OLED, Ha explained that they will secure product superiority. He also added that Chinse companies’ North American TV market share is around 3% in terms of volume and remains minimal in revenue.

New premium OLED TV release brought better than expected response from consumers. It is also receiving positive reviews; several media have selected the product as this year’s TV. The company reported that they will strive to expand the market through extension from the premium TV.

LG Electronics’ total revenue was announced to be 13,000 million USD* with business profit of 270 million USD. Home Entertainment department reported 4,000 million USD, a 9% increase from previous quarter, with business profit of 33 million USD.

* 1 USD = 1,100 KRW

ETRI’s Doo-Hee Cho Receives IEC 1906 Award

2015年 11月 3日/0 コメント/カテゴリ: 照明 /作成者: OLEDNET

On October 23, ETRI (Electronics and Telecommunications Research Institute) Information & Communications Core Technology Research Laboratory’s Dr. Doo-Hee Cho received IEC 1906 Award at World Standards Day ceremony. The IEC 1906 Award recognizes exceptional current achievements and it is presented by the International Electrotechnical Commission, one of the top 3 international standards organizations.

Dr. Cho has been active in IEC since his involvement in 2009. The activities include serving as the president of IEC·TC34 (lighting)’s OLED working group and establishment of IEC 62866: Organic Light Emitting Diode (OLED) panels for general lighting – Safety requirements.

Founded in 1906, IEC is one of the top 3 international standards organizations along with ISO (International Organization for Standardization) and ITU (International Telecommunication Union) with 83 member countries. IEC established IEC 1906 Award in 2004. Since then they have been selecting industry’s experts with outstanding contribution to electrotechnical standardization and IEC development and presenting the award annually. With this award for Dr. Cho, acceleration to OLED lighting’s international standardization and OLED lighting business growth are anticipated.

IEC 1906 Award Badge

IEC 1906 Award Certificate

Dr. Doo-Hee Cho

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