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Koryx Copper Inc V.KRY

Alternate Symbol(s):  KRYXF

Koryx Copper Inc. is a Canadian copper development company focused on advancing the 100% owned, PEA-stage Haib Copper Project in Namibia whilst also building a portfolio of copper exploration licenses in Zambia. Haib is a large and advanced copper/molybdenum porphyry deposit in southern Namibia. The Haib Copper project, Exploration and Prospecting License 3140, is held by Haib Minerals (PTY) Ltd, a Namibian corporation fully held by the Company. It holds the option to acquire up to 80% of three large scale exploration licenses in the copper belt in Zambia. The licenses include Luanshya West project (LEL 23247), Chililabombwe project (LEL 23247), and Mpongwe project (LEL 23248). The licenses cover about 752 square kilometers in the Central African Copper belt. LEL 23247 is situated in the center of the Zambian Copper belt, which forms part of the Central African Copper belt. The three licenses sits on the same side of the Copperbelt, which hosts nine large copper mines.


TSXV:KRY - Post by User

Comment by prospero10on Jan 21, 2021 12:12pm
85 Views
Post# 32345487

RE:Worldwide Prominent Battery

RE:Worldwide Prominent Battery

The metamorphosis of rechargeable magnesium batteries.

Context & scale

In order to overcome the monumental challenges of greenhouse emissions and resource scarcity and depletion, sustainable energy sources produced from renewables and stored in environmentally conscious ways are needed. Electrochemical energy storage devices are expected to play a crucial role in enabling these efforts; however, current systems do not meet key technological and environmental demands. In response to these needs, numerous technologies beyond commercially available batteries are being proposed, of which rechargeable Mg batteries appear promising; however, numerous challenges have so far made them uncompetitive. Nonetheless, Mg batteries have recently been undergoing previously unanticipated transformations. They are very significant as they have led to new competent material paradigms, insights into key fundamental phenomena, and have shed light on previously overlooked challenges. These findings are transforming Mg batteries and are discussed in the first review dedicated to them.

Summary

The need for energy storage technologies that meet the demands for safety, sustainability, and high energy density has spurred increased interests in rechargeable Mg batteries. However, verification of their potential remains hampered by the absence of practical components. Recently, an unconventional research direction that deviates from the mainstream path has emerged and is redefining the boundaries of what can be accomplished in Mg batteries. Herein, we analyze this direction with a focus on fundamental phenomena with an aim to reveal new opportunities that can overcome long-standing challenges and unveil unaddressed issues. The topics covered encompass: (1) realizing efficient single salt Mg electrolytes that mimic those used in typical Li- and Na-ion batteries, (2) discovery of important concomitant mechanisms and previously unanticipated interfacial phenomena, and (3) identification of often overlooked bottlenecks in Mg cathodes and alternative anodes. In closing, we put forward our proposal for R&D focuses to help realize practical Mg batteries.

Graphical abstract

 

WMG.V 


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