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Oct. 21, 2015: CTIMES
By Sri Peruvemba
Our hands, wrists and shoulders are not hard or flat & rectangular. They're soft, pliable and pressure-sensitive. But the current personal electronics gadgets we're carrying around are still hard, flat and pretty rigid. All this will change as portable/wearable devices move into mass market acceptance.
Flexible electronics circuits are already here. So is system packaging. But why are we still using rigid materials in display and touch interfaces? The whole wearable device can and should be flexible to accommodate us.
The differing properties of the two most-applied touchscreen materials, traditional sputtered indium tin oxide (ITO) and silver nanowire conductors, couldn't be more radical.
The most popular touchscreen technology is projected capacitance, or pro-cap. At the core of this technology is a transparent conductor, a layer of material that needs to conduct electricity while remaining transparent and allowing light from the underlying display to shine through the screen. ITO, the legacy conductor material, is neither very conductive nor transparent compared with silver nanowire.
In transparent electrodes used for touchscreen displays, there is a massive switch from ITO to ones using silver nanowire. This transition in display interfaces, particularly where screen flexibility and other new properties are required, is because of several dramatic differences.
First, silver is the most electrically conductive material on Earth.
In tablets, smartphones and wearables, silver nanowire film-based transparent conductors can create thinner, lighter and stronger touchscreens. Silver nanowire has a higher transmission that also enhances battery-life-per charge and creates brighter displays since the silver nanowire-based touch sensor does not impede light as greatly as traditional materials.
Creating electronic devices for humans means the interface must radically evolve. Brittle glass and brittle ITO is out. Flexible electronics and interfaces provide enhanced portability, durability and allow virtually unlimited design flexibility. Flexible touch displays enable flexible ergonomics. Imagine unbreakable phone screens that flex instead of shattering when dropped. Consider folding a seven-inch tablet so it slips into your pocket.
Figure 1 : Test showing ITO and AgNW bent at 3mm radius. Data courtesy: Nissha Printing Company, Japan
How about a display that wraps around your arm, or a huge public display wrapping around a pillar or a building like neon lighting does? We are driving toward products like these and they are creating increasing demand for flexible, bendable and rollable touch screens. As more product designers become aware of silver nanowire touch displays, we'll be seeing an extensive array of great new products.
If slim industrial design is a must, flexibility in personal devices is as well. In real-world tests, silver nanowire coated films withstand greater than 100,000 turns around a 3mm bending radius, demonstrating great fit in flexible, rollable electronic products. ITO does not flex.
True single-layer touch sensors based on silver nanowires offer notably lower cost than ITO because they use fewer layers of adhesives and conductors in the touchscreen stack so there's less manufacturing complexity and materials used. Thin is in because nearly all products, particularly portable/wearable ones in the consumer electronics domain need to appear sleek and aesthetically attractive. Score another essential advantage for silver nanowire touch sensors.
Overall, silver nanowire-based touchscreens range from slightly less to significantly lower cost than equivalent ITO film-based solutions. This is partially because silver nanowires cost less to pattern using a room temperature laser process. This in turn enables greater throughput using less energy with quality similar to that achieved with high-end photo processing. Laser patterning roughly is one-fourth the cost of photo patterning because equipment costs are lower. Additionally the process requires no chemicals/consumables like photo resist, etchants or strippers. It's a greener way of making new touchscreens.
The growth potential for flexible electronics is supported by IDTechEx, a market research, technology scouting and events firm, which reported in part, "...the progress of wearable technology is of increasing interest and focus of developers. It requires the new form factors that printed, organic and flexible electronics can offer for products that can be priced to have reasonable margin".
Silver nanowires are being adopted as the transparent-conductor-of-choice by leading industry heavyweights including Hitachi, LG, TPK, Nissha, 3M, Okura and many others. The switch is on and being driven by the range of key factors mentioned above. Fast responding transparent touch screens are essential to the desired user experience. This result can only be achieved with highly transparent conductors not visible to the eye. An essential enabler of these important benefits is silver nanowire conductor technology.
Sri Peruvemba is a vice president at Cambrios Technologies Corp. Cambrios provides innovative solutions using nanotechnology. Cambrios is headquartered in Silicon Valley.
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