Richard Mille introduces the incredible RM UP-01 Ferrari, the world's thinnest mechanical watch at just 1.75mm thick. The model is the first product of the partnership between Richard Mille and Ferrari and was developed in collaboration with Audemars Piguet Le Locle (formerly Renaud & Papi). Limited to 150 pieces, it features a 51 x 39 x 1.75mm titanium case and houses a movement that is just 1.18mm thick! 💰 1.7 Million Swiss Francs . A Richard Mille apresenta o incrível RM UP-01 Ferrari, o mais fino relógio mecânico do mundo, com apenas 1,75 mm de espessura. O modelo é o primeiro produto da parceria entre Richard Mille e Ferrari e foi desenvolvido em colaboração com a Audemars Piguet Le Locle (antes Renaud & Papi). Limitado a 150 peças, possui uma caixa de 51 x 39 x 1,75 mm em titânio e abriga um movimento com apenas 1,18 mm de espessura! 💰 1,7 Milhão de Francos Suíços 📷 @richardmille • • #richardmille #ferrari #rmup01ferrari #ultrathin #ultrathinwatch #rmup01 #finewatchmaking #hautehorlogerie #relogioserelogios https://www.instagram.com/p/Cftg66-uiao/?igshid=NGJjMDIxMWI=

37: Ultrathin // Ultrathin

Ultrathin Ultrathin 2014, Bruised Tongue (Bandcamp)

The handwritten sticker on the plastic sleeve that came with my copy reads:

Ultrathin $10 Proto, psych punk from Montreal. Ultra cool.

Seconded! Ultrathin were a three piece that sounded like a rawer Ty Segall Band who hit for the cycle in the early ‘10s with a 7”, a split, an EP, and an LP before going silent. Their self-titled full-length is loud as hell, up there with a dollar bin Slade live record I picked up a few years back in terms of stuff that makes me feel like I’m bugging the neighbours no matter what the volume knob says. (Oddly, it sounds much better to me on vinyl than the digital version on Bandcamp does, and I’m not normally the kind of psycho who believes wax makes much difference.) The recording job by Marc Montanchez is excellent, full-bodied and never so pitchy you fear tinnitus, though it benefits from cranking the bass on your system. It feels like being with a killer band in the rehearsal studio (except the vocals sound good). “I Wanna Know” has a spacy riff so catchy it ends the only way possible: with the band sonically hammering a nail into the song so they won’t go right on playing it into infinity. On the other end of the album, Ultrathin indulge themselves on “In My Mind,” a melted Segall-worthy stomper with thrilling shredding from guitarist Shaun Anderson.

This is one of the two records I have from Ottawa’s cult fav label Bruised Tongue. At one time their roster included most of Ottawa’s best young bands, including The Yips, New Swears, and the sorely missed Roberta Bondar, a shoulda-been mainstay of the noise rock scene. (BT was also home to one of my favourite artist/title combos, Fucked Corpse’s Led Zeppelin Four.) Bruised Tongue were predominantly a cassette label, and their LP releases were very DIY affairs, with the album art neatly glued onto a folded white cardstock sleeve. It works perfectly well, but the package is too thin to have a spine per se, which means their records tend to hide away on the shelf. I was glad to reintroduce myself to this one—hopefully we see more Bruised Tongue (and Ultrathin too, while I’m at it) releases in the future. Other than selling some pins and prints here and there, the label’s been too quiet by far since 2017.

37/365

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Better Characterization of Ultra-Thin Materials

We take it for approved that a brand-new smart device or tablet is quicker than its outdated predecessor. It has more memory, is thinner, and its touch screen is crystal-clear with a quick reaction rate. In a couple of years it might even be versatile, permitting you to roll it up and put it in your pocket.

We anticipate that renewable resource from solar and wind power will end up being progressively effective and rewarding, which electrical vehicles and trains will play a significant function in a future sustainable society and for our environment.

The semiconductor market is one of the driving forces behind this advancement. It supplies the processing power for dealing with the huge information volumes produced, and provides effective parts for high-power electronic devices.

The brand-new Development Fund job TRIM has an overall spending plan of EUR 3.7 million (DKK 27 million) and is supported by Development Fund Denmark with EUR 2.6 million (DKK 19 million).

The objective is to establish optical technology based upon terahertz radiation, which can determine the quality of electrical and magnetic materials for the semiconductor market. This makes sure top quality and uniform materials.

“Some of the key words for the continued development of a sustainable information society is increased speed, greater storage capacity and higher reliability. All of these require control and quality assurance. Terahertz technology has been the focus of research around the world for many years—now the time has come to bring a huge basic research investment into the real world and prove the value of the technology,” states Peter Uhd Jepsen, Teacher, DTU Fotonik, who will be heading the job for the next 3 years.

The technology uses special chances for totally contactless measurements– a home in high need by market, and an important requirement for the characterization of e.g. 2D materials consisting of one or just a couple of layers of atoms.

The advancement of the TRIM technology happens in close cooperation in between DTU and the business Capres A/S, Topsil GlobalWafers A/S, and NKT Photonics A/S.

The job connects the world’s leading skills within terahertz and laser technology, silicon fabrication, and semiconductor materials characterization. It presents totally brand-new technology and method into a conservative and infamously mindful market.

“Denmark has a strong position within characterization of materials for the semiconductor industry, but there is still some way to go before we can roll out our laboratory experience to industry. The investment from Innovation Fund Denmark will help us overcome the technological and commercial barriers, which are completely natural, but must be broken down to ensure acceptance of new technologies and methods,” states Peter Uhd Jepsen.

3 of Denmark’s leading business within semiconductors take part in the job and see fantastic chances in getting direct access to world-leading research study within this location:

“Capres A/S expects the TRIM project to lead to a significant expansion of the market potential for sales of advanced and fully automated machines to both current and new semiconductor industry customers. For Capres A/S, this will entail that the current unique multi-pin nanoprobe and microprobe-based measuring technique, combined with the new contactless optical measurements, extends the scope and measuring speed within materials characterization, process optimization, and process control,” states Peter Folmer Nielsen, CTO and co-founder, Capres A/S.

“NKT Photonics A/S has achieved great success since its founding by being at the forefront where technology is created. The TRIM project is a prime example of a technology under development with the potential to strengthen Danish high-tech industry as a key supplier to the huge semiconductor industry. The role of NKT Photonics A/S in TRIM is to develop and supply laser systems for the project. The project has extremely high phase noise requirements for the laser systems—an area where we are the market leaders,” states Peter Moselund, Principal Research Study Researcher, NKT Photonics A/S.

“For Topsil GlobalWafers A/S, this project will result in improved process control and more precise product characterization. Through improved process control and the resulting increased productivity, Topsil will—also in future—be able to compete against low-wage country production,” states Sune Bridge Duun, Advancement Supervisor, Topsil GlobalWafers A/S.

New post published on: https://livescience.tech/2018/12/26/better-characterization-of-ultra-thin-materials/

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Bvlgari presents a new version of the Octo Finissimo Chronograph GMT, now with a 43 x 8.75 mm rose gold case and brown alligator bracelet and dial. The model is equipped with the automatic movement with peripheral rotor BVL 318, chronograph with column wheel and 55-hour power reserve. 💰 36,000 Euros . A Bvlgari apresenta uma nova versão Octo Finissimo Chronograph GMT, agora com uma caixa de 43 x 8,75 mm em ouro rosa e mostrador e pulseira de crocodilo na cor marrom. O modelo é equipado com o movimento automático com rotor periférico BVL 318, cronógrafo com roda de colunas e 55 horas de reserva de marcha. 💰 36.000 Euros 📷 @bulgari • • #bulgari #bvlgari #gmtwatch #chronograph #bulgariocto #octofinissimo #ultrathin #octofinissimo #gwd2022 #finewatchmaking #hautehorlogerie #relogioserelogios https://www.instagram.com/p/Ch54huPObPM/?igshid=NGJjMDIxMWI=

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Inkjet-printed Ultrathin Solar Cells

The rainbow-colored soap bubbles under the sun always paint a dreamy, unrealistic, and airy-fairy picture. Yet, the scientists from King Abdullah University of Science and Technology (KAUST), Saudi Arabia, have used these fragile surfaces to demonstrate their groundbreaking innovation. They have invented an ultrathin solar cell that is so light that it can sit on the soap bubble surface. Yes, for real.

Indium is a toxic and expensive metal, which is a necessary element to produce thin-film solar cells. Thin-film solar cells, or what we call the CIGS (copper indium gallium selenide) solar cells, are the third generation of photovoltaic cells. They have been proven to have high power generation efficiency of up to 20.3% with just a tiny cell. When the cells are put together as a module, the efficiency can still reach 14%. Yet, because of the high costs of the rare materials and complex production processes, scientists have been working hard to find alternatives to make highly-efficient-low-budget thin-film solar cells.

The researchers from KAUST made a breakthrough. They have developed a transparent conductive polymer called PEDOT: PSS. A layer of organic photovoltaic material is in the middle of the polymer. The solar cells can work indium-free and be inkjet-printed, while the structure is thin and light enough to be carried on soap bubble surfaces.

Inkjet printing is a science on its own. The scientists need to formulate functional inks for each layer of the solar cell architectures. They also need to overcome the intermolecular force within the cartridge and the ink to let the tiny nozzle eject the very fine ink droplets one by one before they go for the drying stage and other processes to finish the entire production.

These inkjet-printed ultrathin solar cells are coated with waterproof parylene, which can prevent damage from the weather. In the glass plate tests, the researchers found that the inkjet-printed solar cells’ light-electric power conversion efficiency is 4.73%, which is not high. However, the researchers believe that this new technology has its competitive advantages: with the support from computers, inkjet printing can diversify the design of solar cells because the inks can be printed on specific places. So, the ultrathin solar cells can flexibly be made or applied to various devices, skipping the molding process, which saves materials and costs.

The size of batteries is very important to some devices, such as miniaturized sensors, wearable electronics, electronic skins, sensors for flying devices, and biosensors. The toxic-free inkjet-printed solar cell, with its ultrathin and superlight structure, is the perfect power solution for the mentioned devices. Let’s hope scientists can further advance this technology, especially its power generation efficiency, to broaden its application.

(To read the article at SolarCare Programme’s website HERE)

可貼在肥皂泡上的超薄太陽能電池

在陽光底下泛出七彩炫光的肥皂泡，總會給人一種夢幻、虛浮、不切實際的感覺。但一班來自沙地阿拉伯阿卜杜拉國王科技大學（KAUST）的科學家，卻利用這些浮幻的肥皂泡，向我們確實地展示了他們的研究成果。他們研發了一種超薄的太陽能電池，材質又薄又輕，使其能黏附在肥皂泡的表面上，可謂給太陽能科技帶來了革新。

銦(Indium)是貴金屬，而且有毒，但在現有的薄膜太陽能技術中，卻是不能缺少的元素。銅銦鎵硒型（CIGS）是第三代太陽能電池的代名詞，效能極高，一塊細小面積的電池，光轉電效率已經達到20.3%，而模組的效率也達14%。可是，因原料稀有，再加上複雜的製作過程，這種電池的生產成本非常高。因此科學家們都在積極研發效率高、成本低的薄膜太陽能電池。

KAUST的研究團隊在這一範疇中得到了革命性的突破。他們研發出一種極為透明的導電聚合物PEDOT：PSS，這種聚合物中間夾了一層有機太陽能材料，不含任何銦元素，只需利用噴塗印刷（inkjet printing），就能製造出薄得能黏在肥皂泡表面上的超薄太陽能電池。

噴塗印刷並不是一門簡單的學問。要運用這技術製造超薄膜太陽能電池，科學家須特意為太陽能電池調配出具特殊功能的油墨（functional inks），更要克服墨盒和墨水之間的分子間作用力（intermolecular force），方能從極小的噴嘴中噴射出一滴滴油墨，然後才處理乾燥墨膜、成品等工序。

這種「噴塗式超薄膜太陽能電池」（inkjet-printed ultrathin solar cell）的外層塗有防水的聚對二甲苯（parylene），可避免太陽能電池因風雨而導致的耗損。在玻璃基板實際測試後，研究團隊發現其光轉電效率為 4.73%。雖然效率不高，但研究團隊認為，這種技術另有優勢：噴墨印刷透過電腦輔助，不但使太陽能板的設計更多樣化，更能將墨水準確地噴印於特定位置上，不用模具，就能製作出各式各樣的特殊元件，既節省原料、又能降低成本。

再者，噴塗式超薄膜太陽能電池不含有毒貴金屬銦，加上它極輕極薄，適合應用在發展受限於電池大小的設備上，例如小型感測器、穿戴式電子設備、電子皮膚、飛行器感測器、生物感測器等。希望在不久的將來，科學家能進一步提高噴塗式超薄膜太陽能電池的發電效率，進而擴大它的應用範圍。

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MIT engineers have developed ultralight fabric solar cells that can quickly and easily turn any surface into a power source.

These durable, flexible solar cells, which are much thinner than a human hair, are glued to a strong, lightweight fabric, making them easy to install on a fixed surface. They can provide energy on the go as a wearable power fabric or be transported and rapidly deployed in remote locations for assistance in emergencies. They are one-hundredth the weight of conventional solar panels, generate 18 times more power-per-kilogram, and are made from semiconducting inks using printing processes that can be scaled in the future to large-area manufacturing.

When they tested the device, the MIT researchers found it could generate 730 watts of power per kilogram when freestanding and about 370 watts-per-kilogram if deployed on the high-strength Dyneema fabric, which is about 18 times more power-per-kilogram than conventional solar cells.

They also tested the durability of their devices and found that, even after rolling and unrolling a fabric solar panel more than 500 times, the cells still retained more than 90 percent of their initial power generation capabilities.