Apr 25
According to a report in the Wall Street Journal, LG is planning to launch a flexible OLED smartphone before the end of 2013. More »
Feb 28
Corning says flexible Willow displays are three years out, simpler uses still expected this year
Posted in: Today's Chili 
There’s no question that Corning has had a big impact on mobile devices in recent years with its Gorilla Glass, and it’s hoping for similar success in the years ahead with its new Willow Glass technology. It looks like there’s still a bit of a wait in store before we’ll see products that fully take advantage of the glass’s bendy properties, though. Speaking with Bloomberg, Corning president James Clappin says that products with flexible displays are likely still three years out, adding that it’s now busy making “a lot of effort” to teach what it describes as “very big name” companies how to fully use the product. Clappin did reiterate the company’s earlier that we will see some products using Willow Glass as early as this year, although those will likely take the form of simpler products; he offered a flexible barrier for solar panels and a thin film behind touch panels as some examples.
Source: Bloomberg
Feb 27
Aside from providing clean energy from a practically infinite power source, solar power now has another advantage over traditional power sources: it can be generated on nearly any surface. It’s all thanks these new solar panels that are thin and flexible enough that they can be attached like stickers. Let’s see you make a stick-on gas tank.
The peel-and-stick solar panel was invented by a group of researchers from Stanford University’s Mechanical Engineering department, led by Phd candidate Chi Hwan Lee. The researchers were able to fabricate the panels via “a unique silicon, silicon dioxide and metal “sandwich.” Solar cells are deposited on a thin film of nickel that is in turn deposited on the aforementioned silicon/silicon dioxide (Si/SiO2) wafer. The researchers separate the resulting solar film from the wafer using thermal release tape. Finally the solar film is peeled off of the tape using water. The resulting solar film can now be attached to a variety of surfaces using ordinary adhesive such as double-sided tape.
We may not understand that process in its entirety, but I’m sure you’ll find the group’s other findings to be exciting. Not only did they make stick-on solar panels, they did so using existing machines and materials. Even more exciting is the fact that Chi Hwan Lee and his colleagues believe that the process can also be applied to other components, including printed circuits, transistors and even LCDs. This could go a long way into ensuring that the next Google Glass will be Google Gontact Glens. You get the idea.
[via Nature & Stanford Engineering via Springwise via Electric Power]
Feb 10
NYT: Apple experimenting with wrist-worn iOS devices using curved glass (updated)
Posted in: Today's Chili 
Rumors of Apple building a watch-like device have existed since time immemorial — they’ve built up the same near-mythical status that the iPhone did pre-2007, or a TV set does today. The New York Times, however, claims that the watch concept exists as more than just some fan art. Reportedly, Apple has been “experimenting” with wrist-wearable devices that would run iOS and use curved glass. Other details are left to feverish speculation, although the OS choice suggests it would be more than just a glorified iPod nano watch. Before we get too excited, we’d do well to remember that any testing in a design lab doesn’t equate to production plans: the company might well scrap its work before it ever becomes public, if it’s indeed real to start with. Still, there have been enough advances in flexible displays and miniaturization that the notion of connected, wearable Apple gear is no longer as far-fetched as it once seemed.
Update: Not to be left out, the Wall Street Journal has made a similar claim. It adds that Apple has explored possibilities with its contract manufacturer Foxconn, although there’s not much more to learn at this stage.
Source: New York Times
Feb 04
Just Roll with It: Fujifilm Beat Diaphragm Speakers Curl up and Roll into Themselves
Posted in: Today's ChiliSpeakers now come in a wide variety of shapes and sizes, so it’s quite a feat when someone announces that they’ve developed a speaker that no one else has thought to make before (except maybe these guys). That’s the position Fujifilm currently finds themselves in with their Beat diaphragm speakers.
The Beat Diaphragm is a portable speaker technology made up of ultra-flexible materials. It’s so flexible, in fact, that you can curl and roll it up when you’re done using it. At Tokyo’s nano tech 2013 tradeshow, Fujifilm also showed off the speakers in a variety of form factors, including shiny flat panels, and even in a Japanese folding fan.
The speaker is constructed with a soft polymer on the surface, which makes the rolling-up action possible. However, when sounds from 20Hz to 20kHz are coursed through the speaker, the material hardens. Additionally, the sound is provided by piezoelectric ceramics.
The potential for this is huge, although the technology has yet to find its way into any actual products you can buy.
[Tech-On! via Engadget via Dvice]
Jan 07
Intel, Plastic Logic and Queen’s U build the PaperTab: a flexible e-paper tablet (video)
Posted in: Today's Chili 
Plastic Logic may have bowed out of building its own e-readers, but that’s not stopping the company from making its presence felt at CES. It’s teaming up with Intel and Queen’s University on the PaperTab, a 10.7-inch tablet concept built around a flexible, e-paper touchscreen. The prototype runs a Sandy Bridge-era Core i5 processor that lets it stand on its own, but it’s ultimately designed to work as part of a team: position awareness lets multiple PaperTabs join together to share a work area, and tapping one tablet with content can send it to a waiting document in another. The bendy nature isn’t just for durability and a paper-like feel, either, as readers can flip through pages just by bending the relevant side. A fuller reveal is planned for January 8th, but you can get an initial sense of how the plastic slate works through the video after the break.
Gallery: Intel and Plastic Logic PaperTab
Source: Queen’s University
Nov 16
Athens university prints polymer circuits with lasers, speeds us towards low-cost electronics
Posted in: Today's Chili 
The dream of ubiquitous technology revolves around cheaper materials, and polymer circuits could help make the dream a reality… if the solvents used to produce the circuits didn’t cause more problems than they cured, that is. The National Technical University of Athens has developed a more exacting technique that, like most good things in science, solves the crisis with lasers. The approach fires a laser at a polymer layer (covered by quartz) to throw some of that polymer on to a receiving layer; by moving the two layers, the scientists can print virtually any 2D circuit without resorting to potentially damaging chemicals. Any leftover worries center mostly around risks of changing the chemical composition as well as the usual need to develop a reliable form of mass production. Any long-term success with laser-printed polymers, however, could lead to more affordable technology as well as more instances of flexible and wearable gear — there might not be much of a downside to ditching the circuit status quo.
Filed under: Science
Athens university prints polymer circuits with lasers, speeds us towards low-cost electronics originally appeared on Engadget on Fri, 16 Nov 2012 17:32:00 EDT. Please see our terms for use of feeds.
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Oct 08
The current crop of smartwatches are a bit lackluster in my opinion, especially when it comes to their displays. Maybe the Futaba flexible OLED screen on display at this year’s CEATEC show will change this. This is basically a concept watch that uses a video display wrapped around your wrist.
With the right manufacturing process, OLEDs can be surprisingly flexible, which is a must if you’re trying to create a watch that has a screen which wraps around your wrist. The current display has a 256 × 65 pixel resolution on its 3.5-inch display, and the entire watch is 0.22 mm thick. Beat that, Apple!
This prototype watch seems to get its power and data from an external circuit board. How this would be integrated into an actual watch remains uncertain. Also, someone needs to tell Futaba that the case they set this into doesn’t look very cool. A bit of styling goes a long way. Maybe they should partner up with some of the TokyoFlash watch designers next time.
[via SlashGear]
Sep 19
LG gets patent for mobile UI that reacts to flexible displays, encourages origami
Posted in: Today's Chili 
As often as companies love to toy with flexible displays, we’re seldom told how we’d control that newfound freedom. Are we supposed to make e-paper cranes? Credit LG for some forward thinking — it’s just receiving a US patent for a 2008-era user interface invention that would use a bending screen to its advantage. The implementation includes two displays, one of which flexes while the other accepts touch; bend or fold the first display, and the touchscreen changes to suit the context. Having two closely linked displays would also let the panels run either in unity or independently. Suffice it to say that the technology is unlikely to roll out as-is on a smartphone, if ever: LG’s attention has swung towards having one big touchscreen as of late. However, the interface does give the Korean firm a place to start if it develops devices to match its new flexible batteries.
Filed under: Cellphones, Displays, Mobile
LG gets patent for mobile UI that reacts to flexible displays, encourages origami originally appeared on Engadget on Wed, 19 Sep 2012 13:24:00 EDT. Please see our terms for use of feeds.
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Sep 02
LG Chem develops very flexible cable batteries, may leave mobile devices tied up in knots
Posted in: Today's Chili 
The world is no stranger to flexible batteries, but they’ve almost always had to be made in thin sheets — that doesn’t amount to a long running time if you’re powering anything more than a watch. LG Chem has developed a flexible lithium-ion battery that’s not just better-suited to our bigger gadgets but could out-do previous bendable energy packs. Researchers found that coating copper wires with nickel-tin and coiling them briefly around a rod results in a hollow anode that behaves like a very strong spring; mating that anode with a lithium-ion cell leads to a battery that works even when it’s twisted up in knots. Join multiple packs together, and devices could have lithium-ion batteries that fit many shapes without compromising on their maximum deliverable power. Some hurdles remain to creating a production-grade battery, such as a tendency for the pack to shed a small amount of capacity whenever it’s put under enough stress. LG Chem is fully set on turning these cable batteries into shippable technology, however, and could ultimately produce mobile devices and wearables that really do bend to their owners’ every whim.
Filed under: Wearables, Science
LG Chem develops very flexible cable batteries, may leave mobile devices tied up in knots originally appeared on Engadget on Sun, 02 Sep 2012 16:03:00 EDT. Please see our terms for use of feeds.
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