New Dimmable Window Solutions for Cruise Industry Launched | Switchable Window Film

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So, as we said, Intel is revealing 11 chip SKUs today. Here’s a peep at the "core" specs down the lineup…

Tech companies insist they are not spying on their customers via virtual assistants and home gadgets, and that they only ever listen when expressly commanded to do so. These claims, as least as far as they can be externally verified, appear to be true. But this doesn’t mean no listening is happening, or couldn’t happen, in ways that challenge traditional notions of privacy.

Then there’s electrochromic (EC) glass, like what View and Kinestral are pushing to market, which changes state when it’s exposed to an electrical charge. There are a number of advances to EC smart glass, for example it’s more durable, the level of “tint” can be manually controlled, and power is only required during its transition between shades.

ZnO is a wide-bandgap semiconductor of the II-VI semiconductor group. The native doping of the semiconductor due to oxygen vacancies or zinc interstitials is n-type.This semiconductor has several favorable properties, including good transparency, high electron mobility, wide bandgap, and strong room-temperature luminescence. Those properties are valuable in emerging applications for: transparent electrodes in liquid crystal displays, energy-saving or heat-protecting windows, and electronics as thin-film transistors and light-emitting diodes.

Designing improved energy-saving materials is an active research topic in materials science because of the increasing concerns related to energy consumption and sustainable development. It is known that residential buildings are responsible for almost 30 to 40% of the primary energy consumption in the world (1). Thus, the use of chromogenic materials on building fenestration and the applications of building-integrated photovoltaic technologies such as solar cells have been demonstrated to be effective ways to increase the energy efficiency of buildings and reduce the energy consumption (2–7). Notably, smart coatings based on thermochromic materials, the so-called “smart windows,” can modulate the transmittance of solar radiation in response to the change of temperature, making them very promising for improving the energy utilization efficiency of buildings (8).

Following the passage of the European Union’s General Data Protection Regulation, or GDPR, any EU resident may demand a company send them the entirety of the data collected about them through both internet services and hardware products like an Alexa-equipped Echo smart speaker. One German user, under the alias “Martin Schneider,” did just that in August of this year. What he got back from Amazon, however, were thousands of Alexa voice recordings, which was strange considering he didn’t own an Alexa device.

Like many living organisms in nature, a single microscopic particle will often behave differently by itself than in a group. Lavrentovich’s models show how a structured environment causes the particles to not only move in a given direction, but also maybe join together and form patterns ranging from simple chains to sophisticated vortices. In other cases, some particles can be directed by the liquid crystal to go in one direction while others go in the opposite direction.

Double-side polished silicon wafers with a thickness of 100 μm (University Wafer) were used as the substrates in film and pattern imaging. The silicon wafers were cleaned through multiple steps of solvent rinse, in the sequence of toluene, acetone, isopropanol, and deionized water, followed by O2 plasma (300 sccm O2 flow rate, 300 W, and 15 min) before the spinning coating process. To fabricate the PMMA films, PMMA 950 A4 solution (MicroChem) was spin-coated onto the cleaned silicon wafer at a speed of 1000 to 4000 rpm/s for 45 s. After soft baking at 180°C for 5 min, the film thickness was measured with an ellipsometer (Rudolph AutoEL IV-NIR-II). To fabricate the pattern, PMMA 950 A4 solution was spin-coated onto the silicon wafer at a speed of 4000 rpm/s for 45 s to get the electron-beam resist layer. After soft baking at 180°C for 5 min, the MIP patterns were fabricated onto the PMMA layer with electron-beam lithography using a Zeiss Supra 40 VP scanning electron microscope equipped with an electron-beam blanker and through subsequent development with methyl isobutyl ketone/isopropanol solvent mix (1:3 in volume).

Worldwide Switchable Glass market 2019 is a complete, competent report distributes Switchable Glass market research information that is suitable for brand new aspirant also as established players. It includes decisive designing of the businesses running within the Switchable Glass industry and their impact analysis.

Research Frontiers patented SPD-SmartGlass technology is the same best-selling smart window technology that can be found on various car models from Daimler, McLaren Automotive, and other auto makers. The MAGIC SKY CONTROL feature, which is now in use on tens of thousands of Mercedes-Benz SLs, SLC/SLKs, Maybach and S-Class models around the world, and more recently on four announced McLaren models, uses patented SPD-SmartGlass technology developed by Research Frontiers to turn the roof transparent by electrically aligning tiny particles in a thin film within the glass. With the touch of a button, drivers and passengers can instantly change the tint of their roof to help keep out harsh sunlight and heat, and create an open-air feeling even when the sunroof is closed. Glass or plastic using Research Frontiers’ patented SPD-SmartGlass technology effectively blocks UV and infrared rays in both clear and darkly tinted modes, helping keep the cabin cooler, and protecting passengers and interiors while also enhancing security inside the vehicle. These benefits become even more important when a car uses large surface areas of glass, especially in warm climates.