Twitter On Nov. 30 in Los Angeles, Monsta X will be closing the iHeartRadio Jingle Ball on the main stage, the first K-pop group to perform at a Jingle Ball. Their English-only version of “Shoot Out” describing a toxic love promises to convert new audiences to Korean pop as they continue the tour to San Francisco on Dec. 1, Minneapolis on Dec. 3, Boston on Dec. 4, and finally Philadelphia on Dec. 5.As performers, Monsta X is not a substitute or an alternative for other bands — they succeed at doing their own thing. The mounting following for Korean pop and other cross-Pacific pop music in the U.S. is being won over by recordings and performances, and Monsta X has not let up.Monsta X Bring The Beat With “Jealousy,” Plan U.S. Summer TourRead more Monsta X Heat Up The K-Pop Competition keeping-k-pop-competitive-continued-success-monsta-x News Keeping K-Pop Competitive: The Continued Success Of Monsta X As the K-Pop group’s latest single, “Shoot Out,” tells a dark tale of toxic romance, Monsta X keep up the pressure for American audiences to fall in love with K-popPhilip MerrillGRAMMYs Nov 14, 2018 – 3:24 pm With charm, swagger and style of their own, Monsta X toured the U.S. summer 2018, is returning to tour the U.S., and their latest release, Take.1:Are You There?, reached No. 24 on Billboard’s Independent Albums chart for Nov. 3, 2018. Showing why there is room for more than BTS in American audiences’ discovery of Korean pop music, Monsta X is also on main stage closing out shows for five stops on the iHeartRadio Jingle Ball tour, Nov. 30 through Dec. 5.For the first time in the band’s very bilingual history, a version of their lead single “Shoot Out” has also been released completely in English. To separate the commercial competition from the cultural contributions of many K-pop artists, the fun they have with the English lyrics also has a fresh style all their own. The K-Pop wave reflects America back at us in its art, fusing its own aesthetic with the influence of U.S. music and culture as a growing number of Korean artists deliver pop songs that earn a loyal American following.A rave review of their Los Angeles show in Orange County’s OC Weekly from Aug. 2018 praised their sexiness and even greatness. Their summer U.S. tour was called “The Connect,” emphasizing the group’s connection to the diversity of their fans, an enthusiastic and growing base. As evidence of the success and resonance of their music and message, those U.S. dates all sold out. Facebook https://twitter.com/OfficialMonstaX/status/1062663028720553984 Email
WILMINGTON, MA — The Town’s Purchasing Department currently has the following bidding and contract opportunities available:Invitations To BidMackinac Island and Chicago Trip — Deadline: Tuesday, September 17, 2019 at 2pmAll interested parties must first complete the town’s Bid Registration Form.Visit the Town’s Purchasing Department website for additional information. Contact Wendy Martiniello at wmartiniello[at]wilmingtonma.gov with questions.Like Wilmington Apple on Facebook. Follow Wilmington Apple on Twitter. Follow Wilmington Apple on Instagram. Subscribe to Wilmington Apple’s daily email newsletter HERE. Got a comment, question, photo, press release, or news tip? Email email@example.com.Share this:TwitterFacebookLike this:Like Loading… RelatedTown’s Current Bidding & Contract OpportunitiesIn “Government”Town’s Current Bidding & Contract OpportunitiesIn “Government”Town’s Current Bidding & Contract OpportunitiesIn “Government”
Siddiqur Rahman. FIle photoGovernment Titumir College student M Siddiqur Rahman, who suffered serious eye injuries during a police action at Shahbagh, has been flown to Chennai in India on Thursday for better treatment.The health and family affairs ministry is bearing all the expenses of Siddiqur’s treatment at Shankar Netralaya in Chennai.Siddiqur’s classmate Sheikh Farid said they started for the airport from the hospital around 10:00am along with Siddiqur’s elder brother Nayeb Ali and Zahidul Islam, an assistant professor of National Institute of Ophthalmology and Hospital.Titumir College student Siddiqur sustained injuries in his eyes during a demonstration on 20 July when the police charged tear shells on agitating students of seven government colleges, affiliated with the University of Dhaka, at Shahbagh in the city.Siddiqur was undergoing treatment in the capital’s National Institute of Ophthalmology and Hospital where surgeries on both of his eyes were done on last Saturday.
In an example of doped nanocrystals, this charge density plot shows magnesium impurities in cadmium-selenium nanocrystals at two different gap levels: (a) resonant and (b) hybrid. Image credit: Gustavo Dalpian and James Chelikowsky. On the macroscale, doping led to the transistor. On the nanoscale, scientists believe that doping could lead to an assortment of technologies, including solar cells, electroluminescent devices and electronic devices. Doping, which means adding impurities containing electrons, can enable electric conductance in a controlled way. But the miniscule size of semiconductor nanocrystals – also described as one-dimensional “quantum dots” – means that scientists must explore new methods for doping. Because nanocrystals have very little interior volume and are virtually all surface, scientists in the past believed that inner impurities can easily migrate the short distance to the surface and be ejected. “People used to believe that nanocrystals had fewer defects due to their limited size,” explains Gustavo Dalpian, coauthor with James Chelikowsky of a recent publication in Physical Review Letters on the energetics of doping. “People believed that defects could be annealed away from the nanocrystal in an easy way due to its limited size. After a few jumps, the impurity will be out of the nanocrystal.”In 2005, scientists (Erwin et al.) proposed that the difficulties in doping nanocrystals could be explained by the crystals’ surface topology and how easily impurities could bind to the surface. For these reasons, these scientists determined that the smaller the size of a nanocrystal, the less binding energy, and the more difficult doping becomes.Dalpian and Chelikowsky, from the University of Texas, have shown that understanding doping in semiconductor nanocrystals requires an understanding of both kinetic and thermodynamic/energetic properties. By explaining nanocrystals’ tendency toward self-purification in terms of the energy needed to form impurities in nanocrystals, the scientists hope to find new ways to increase the dopability of these materials.“Annealing was basically a kinetic argument,” Dalpian said to PhysOrg.com. “[Erwin et al.] show that, changing their solution to an anion-rich (negatively-charged) environment, they could put more impurities into the nanocrystals. Their argument was that there is a shape change in their nanocrystal that increases the binding energy of the impurity into the surface. We show that the difficulty of nanocrystal doping can also be explained through energetic arguments: when you change the solution to an anion-rich environment, the formation energy of the defects is decreased. Explore further ‘Nanocrystal doping’ enhances semiconductor nanocrystals Citation: Nanocrystals’ ‘self-purification’ mechanisms explained by energetics (2006, June 21) retrieved 18 August 2019 from https://phys.org/news/2006-06-nanocrystals-self-purification-mechanisms-energetics.html “In principle, an energetic argument should be better because it is simpler:” he continued. “To discuss kinetics, one needs energy barriers, diffusion coefficients, exact shape of the nanocrystal, etc. However, in our model, supposing the system is under thermodynamic equilibrium, we just need the formation energy of the defect.” When an impurity enters a nanocrystal, a level is created in the gap of the nanocrystal, which (along with structural properties) affects the formation energy of the impurity. Dalpian and Chelikowsky found that a defect’s structural properties do not depend on nanocrystal size, but that the level in the gap is deeper (energy difference is larger) for smaller nanocrystals. “Suppose you have two different systems that create levels in the gap, and one is deeper than the other,” said Dalpian. “If you want to populate these levels (put electrons on them), it will cost more energy to populate the one that is deeper. That is why it costs more energy to put impurities in the small nanocrystals than the larger ones: the level created in the gap is filled and is deeper for smaller nanocrystals.”Because smaller nanocrystals contain deeper impurity levels, more energy is required for doping and the lower the population of defects. This explanation supports the idea that self-purification is an intrinsic property of nanocrystals, but also a property that can be overcome.“In order to make doping easier, we also propose that the sample should be grown in an anion-rich solution,” said Dalpian. “Since manganese impurities like to go to the cation (positively-charged) site in cadmium-selenium nanocrystals, a lot of cations create ´competition´ between the impurities and the cadmium (a cation precursor) to occupy the cation site. In an anion-rich environment (the other thermodynamic limit), you have a lot of selenium (an anion precursor) and a deficiency of cadmium, reducing the competition between impurities and cadmium, and making it more likely for the impurities to go to the cadmium site.”Citation: Dalpian, Gustavo M., and Chelikowsky, James R. Self-purification in Semiconductor Nanocrystals. Physical Review Letters 96, 226802 (2006)By Lisa Zyga, Copyright 2006 PhysOrg.com. All rights reserved. This material may not be published, broadcast, rewritten or redistributed. Doping semiconductor nanocrystals will likely provide a basis for a wide variety of nano applications. But since the tiny nanocrystals tend to repel impurities, scientists must first find a way to overcome nanocrystals’ “self-purification” mechanisms and exploit them for doping. This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
The worst part about meetings isn’t showing off your new presentation; it’s how difficult it is to get your computer screen to show up on the TV.At Computex, Intel introduced its real-time collaboration solution Unite to remove some of the headaches associated with sharing presentations. The system uses a secure Wi-Fi connection with a rotating PIN to connect to a Core vPro processor-powered mini PC connected to an office’s display. Attendees download and install a lightweight client on their Mac or Windows machine and can share their desktop, annotate shared presentations and view up to four attendee’s screens at once.It’s a pretty straightforward solution. It makes meetings start quicker and gives attendees the ability to work together on a single presentation. But, it’s the upcoming extensibility that could convince your IT department to drop your current solution for Unite.Intel will release reference plugins in the next 30 days that will add additional functions to the Unite platform including a Skype plugin that can be used to turn the collaborative-meeting system into a teleconferencing system. These reference plugins will coincide with the release of a Unite SDK for third-party developers.The upcoming reference plugins will also include a way to control a room’s lighting and a telepresence solution. But Intel is keen to see what the community builds for the platform.It’s a low-cost platform (roughly $700 with a computer according to Intel) that’s already available for large IT departments. Intel VP of Business Client Platform Division Tom Garrison noted that those departments will be able to deploy updates to all devices running Unite just like any other PC on a network. For small businesses looking for a meeting solution, a version for them will be available in 30 days. Problem Solvers with Jason Feifer 2 min read This story originally appeared on Engadget June 3, 2015 Hear from business owners and CEOs who went through a crippling business problem and came out the other side bigger and stronger. Listen Now
Get the biggest Daily stories by emailSubscribeSee our privacy noticeThank you for subscribingSee our privacy noticeCould not subscribe, try again laterInvalid EmailUPDATE: This has now cleared. The A53 is reported to be partially blocked following an accident in North Staffordshire this morning (Wednesday June 26). Traffic is reported to be queueing in both directions following the collision near the junction of the road and Three Mile Lane in Whitmore in Newcastle Borough. Inrix, the traffic data company, also reports there has been a fuel spillage as a result of the accident. The collision was first reported to StokeonTrentLive at around 9.10am today. We have no further information at this stage. Dad slams ‘disgusting’ hospital window Punter found hiding in bushes Follow StokeonTrentLive Download our app – You can download our free app for iPhone and iPad from Apple’s App Store , or get the Android version from Google Play . Follow StokeonTrentLive on Facebook – Like our Facebook page to get the latest news in your feed and join in the lively discussions in the comments. Click here to give it a like! Follow us on Twitter – For breaking news and the latest stories, click here to follow SOTLive on Twitter . Follow us on Instagram – Featuring pictures past and present from across Stoke-on-Trent, North Staffordshire & South Cheshire – and if you tag us in your posts, we could repost your picture on our page! We also put the latest news in our Instagram Stories. Click here to follow StokeonTrentLive on Instagram . Driver named following fatal collision Police search for missing woman Read MoreTop stories on StokeonTrentLive The location of the collision in Whitmore (Image: Inrix)