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1. Backbone controller android for android#
2. Backbone controller android android#

Outside these services, you can also connect it to Steam, Xbox, and PlayStation if you want to utilize the remote play. It's a versatile controller which also works with the gamepad when you connect to other platforms such as Amazon Luna, GeForce Now, and Xbox Cloud Gaming. The Backbone One is not limited to mobile games alone. Supported Devices of Backbone One ControllerĪ report from Techspot suggests that the following devices are capable of running the Backbone mobile game controller.

Backbone controller android android#

The Backbone mobile gaming controller exclusively works on devices with Android 8.0 version or later. It's also compatible with the USB-C and can be attached to the gamepad. Although iPhone owners can choose different colors for this controller, the Android users could only select black as their option, according to IGN.

Backbone controller android for android#

Hong.The Backbone One controller for Android is customizable to the point that you can remap its buttons and other clickables. This, in turn, could reduce energy consumption and make solar power more practical and cost-effective," concludes Prof. "Improved thermoelectric materials could lead to more efficient electricity generation from the waste heat released in industrial processes or even from the human body. The study thus presents a new approach to synthesizing IDT-based polymers that simultaneously exhibit low thermal conductivity and high electronic conductivity, a prerequisite for developing efficient thermoelectric materials and thermoelectric conversion technology. As a result, the PIDTa-EDOT polymer demonstrated a 6-fold improvement in thermoelectric performance compared to that of pristine PIDT-EDOT polymer. These, in turn, imparted a low thermal conductivity of 0.09 W m −1 K −1 on one hand and 30 times higher electronic conductivity on the other. Upon testing the PIDTa-EDOT polymer, the researchers observed an improved doping efficiency, condensed π−π stacking, and reduced grain size. Hong, when asked about the motivation behind the study. Accordingly, we proposed a strategy that would allow us to place the dopant near the sidechains of the polymer backbone," explains Prof.

"We showed that the low conductivity of conventional IDT results from their non-polar side chains, which cause the dopant to be located between the polymer chains (backbone) instead of at the side chains. The addition of the acetal group was crucial, since it directed the dopant next to the benzylic position of the polymer skeleton, facilitating the desired dopant position control.

Next, they synthesized a Lewis-acid base complex by introducing nitrosyl hexafluorophosphate (NOPF 6), a Lewis acidic dopant into the IDTa component.

The team chose PIDT-EDOT, a copolymer of IDT and then acetal-functionalized it to form PIDTa-EDOT. Their study was made available in Chemistry of Materials. Equipped with their understanding of plausible reasons for the observed low conductivity, the team designed a novel strategy for developing an IDT-based polymer with improved thermoelectric performance based on dopant (impurity) position controlling within an acetal-functionalized IDT (IDTa) polymer.

Sukwon Hong Gwangju Institute of Science and Technology in Korea have now found a solution to the problem. Unfortunately, these polymers suffer from low electronic conductivity, limiting our ability to synthesize high-performance thermoelectric materials from IDT-based polymers.Ī team of researchers led by Prof. Owing to their high charge carrier mobility in the amorphous state, IDT-containing conductive polymers have the potential to reduce thermal conductivity while keeping their electronic conductivity intact. In recent years, conjugated polymer-based material has received attention as an environmentally benign alternative to the conventional rare earth metal-based thermoelectric materials. This, unfortunately, makes them expensive and environmentally hazardous.