Related Items: Facebook Twitter Google+LinkedInPinterestWhatsApp Facebook Twitter Google+LinkedInPinterestWhatsApp#Bahamas, February 2, 2018 – Nassau – The Ministry of Foreign Affairs has received communications about a message that is circulating on social media regarding scholarships being offered by the Organization of American States (OAS) and the Government of China.The Ministry wishes to clarify that, while the Government of The Bahamas, from time to time, receives scholarships from agencies and countries with which we have relations, the information circulating on social media is not completely accurate.The scholarships being offered by the OAS are available to all nationals of member countries of the OAS and not specifically Bahamians. Also, the OAS has subsequently informed that the amount attached to these grants is $15,000, rather than $30,000 as stated in the social media message.The Chinese Government offers six scholarships to the Bahamian Government annually; however, there is no mention of the amount of monies attached to these offers.Official information about scholarships, fellowships and other forms of technical assistance managed by the Ministry can be found on the Ministry’s website, mofa.gov.bs. Information about OAS scholarships can be accessed on the OAS website.The Ministry takes this opportunity to caution members of the general public about circulating information not obtained from official sources.Release: Ministry of Foreign Affairs(BIS)
(PhysOrg.com) — Carbon nanotubes provide some of the most interesting possibilities for future technology. One of the more intriguing possibilities – with a variety of practical applications – is using carbon nanotubes for water transport. In the past, experiments have suggested that extremely fast water transport can be attained through carbon nanotubes as small as two nanometers in diameter by applying a pressure gradient. Citation: Orienting Flow in Carbon Nanotubes (2008, September 2) retrieved 18 August 2019 from https://phys.org/news/2008-09-carbon-nanotubes.html Professor N.R. Aluru at the Beckman Institute for Advanced Science and Technology at the University of Illinois at Urbana-Champaign, and Sony Joseph, who defended his Ph.D. thesis recently, have used computer simulations to explore a method by which water transport through smaller carbon nanotubes could be further enhanced. Some of the results of their work appears in Physical Review Letters: “Pumping of Confined Water in Carbon Nanotubes by Rotation-Translation Coupling.”“Until now,” Sony Joseph tells PhysOrg.com, “previous simulations had shown that single file water movement in short carbon nanotubes have net transport in both directions. But if you could get the water to orient in one direction, in a long tube, you could have net transport along that direction. This would further increase the flow rate when a pressure gradient is applied and be useful in many ways, including to allow us to mimic biological protein channels.”Joseph and Aluru used molecular dynamics simulation in long carbon nanotubes (around 10 nanometers long) to show the relationship between the flow direction of the water and the dipole orientation. “In order to maintain the direction,” professor Aluru explains, “we need either local electrical fields or chemical functional groups at the ends of the nanotubes. These orient the water and keep it flowing in one direction.” The two scientists point out that in order to change the direction of the water flowing through the carbon nanotube, one has only to reverse the direction of the electrical field.Focusing on using an external electrical field, Joseph and Aluru modeled how the field interacts with the water molecules. The molecules have a net zero charge, and interact with the field through torques. These torques are applied to the rotational degrees of freedom of the molecules. Changes to translational degrees of freedom in this water transport system, the scientists point out, are mostly due to how rotational and translational motions couple with each other. Some of the applications considered for carbon nanotube membranes include such items as drug delivery, desalination, and selective ion transport. Joseph and Aluru, however, are especially interested in using this technology for water purification and nanofiltration. “We are trying to show how this would aid the process of reverse osmosis,” Aluru says.Joseph and Aluru emphasize that, right now, this work is largely based on computer simulations with theoretical models. Joseph explains that right now water transport through nanotube membranes of two nanometers have been achieved, but that scientists are working toward pumping water through membranes that are less than one nanometer.“We’ve shown that it is theoretically possible to get this sort of water transport,” Joseph points out. “The next step is getting to the point where this could be tested.”Copyright 2007 PhysOrg.com. All rights reserved. This material may not be published, broadcast, rewritten or redistributed in whole or part without the express written permission of PhysOrg.com. Antigravity water transport system inspired by trees Explore further 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.