> A method for forming a V-NAND device is disclosed. Specifically, the method involves deposition of at least one of semiconductive material, conductive material, or dielectric material to form a channel for the V-NAND device. In addition, the method may involve a pretreatment step where ALD, CVD, or other cyclical deposition processes may be used to improve adhesion of the material in the channel..
Is it possible to use BTC-XMR atomic swaps as an extra layer to Bitcoin for totally private transactions? I don't know if it can work because I am not a DEV but it sounds like a cool idea. The best part is that by doing this we are using as second layers other blockchains that are decentralized and proven to work. There is no need to built a new second layer on top that will take time to grow up (like lighting network) + there is no need for centralised second layers that are build from companies.
Got an Atom LT and itβs been pretty nice for 40-55 degree weather so far. Does it make sense to layer a kyanite under an Atom LT on colder days? Like windy 40βs or calm 30s when running errands?
Any obvious disadvantages? Would the LT or AR make the most sense? (If any) the AR was super soft when I tried one on but the sleeves kinda pulled up as I moved.
If itβs gonna be super cold I have a Peacoat I just throw over everything.
I was watching the HBO Chernobyl series and they said that there is graphite around the core to slow down the atoms.
Anybody here working in the semiconductor industry dealing with epitaxy process growth? I accepted a job offer in a large foundry as an EPI Process Engineer. Any key points to look out for while in the job?
Could we potentially create a private-token fork of Nano that can interop with the core protocol and you can atomically swap in and out of the privacy token, and back into Nano, with a 1-to-1 coin value relationship? For example, two users:
User a: 10 Nano -> 10 Privano
User b: 15 Nano -> 15 Privano
Coins then move within the Privano network, user a and user b send all their coins to user C on the Privano network, user c then swaps their 25 Privano back to Nano. Now you don't know who user C is, or how many hands those coins have moved from, but you're back in Nano effectively clearing your transaction history. Privano is Nano for all intents and purposes, but running on a second network so that Nano can maintain it's non-privacy basis to avoid regulatory scrutiny, but provide the option to opt-in privacy.
What is the technical feasibility of something like this?
Iβm going to Lapland next month and the temperature will be varying from -5 to -15. Was wondering what would be better, the atom lt hoody or jacket? Iβll be wearing a base layer and a fleece under the atom and a Rab down jacket over it and probably a Balaclava and a neck gaiter too.
Wonβt be doing very active stuff I donβt think, just some dog sledding, snowmobiling and some hikes.
Or would you recommend something else?
Thanks!
https://youtu.be/6V4yQcRYw9s
Excellent gas separation performance and suitable stability and mechanical properties are simultaneously obtained via Al2O3 atomic layer deposition on PIMβ1 membranes owing to the strong molecular sieving effect induced by Al2O3 deposition that tailors the polymer microporosity.
Abstract
Tailoring the microporosity of intrinsically microporous polymers at the atomic level is one of the biggest challenges in achieving highβperformance polymeric gas separation membranes. In this study, for the first time, the Al2O3 atomic layer deposition (ALD) technique was used to modify the microporosity of a typical polymer of intrinsic microporosity (PIMβ1) at the atomic level. PIMβ1 with six ALD cycles (PIMβ1βAl2O3β6) exhibited simultaneous high thermal, mechanical, pureβ and mixedβgas separation, and antiβaging properties. The O2/N2, H2/N2, and H2/CH4 separation performances were adequate above the latest tradeβoff lines. PIMβ1βAl2O3β6 showed CO2 and O2 permeabilities of 624 and 188β Barrer, combined with CO2/CH4 and O2/N2 selectivities of 56.2 and 8.8, respectively. This significantly enhanced performance was attributed to the strong size sieving effect induced by the Al2O3 deposition.
https://ift.tt/3clpgvQ
