| Heavy metal (27) |  |
| Lanthanide (13) | |
| Metal (743) | |
| Precious metal (41) | |
| Transition metal (33) | |
| Heavy metal (27) | |
| Lanthanide (13) | |
| Metal (743) | |
| Precious metal (41) | |
| Transition metal (33) | |
professor at Stanford university. his is the first time anyone has used non-precious metal catalysts to split water at a voltage that low.
A $1000 3d printer that prints metal http://www. vimeo. com/78961565 The Mini Metal Maker prints 3d objects from digital files directly in precious metal clay, rather than in plastic.#
Cryptocurrency is following the same path as precious metals in ancient civilization. Where gold was valued for its color, easy malleability, purity and its anti-corrosive properties,
Precious metals may have been the first and last good to become universally adopted as a means of exchange,
She precipitates the precious metal from an aqueous solution onto a pretreated film with many tiny channels.
which are made with gold and other precious metals. The second-generation technology could allow people to use noninvasive methods to test their glucose levels through saliva tears or urine.
Other conductive inks are made from precious metals such as silver which makes them very expensive to produce
We believe this approach is also applicable to other precious metals if added as minority components in copper."
We believe this approach is also applicable to other precious metals if added as minority components in copper."
and optimal precious metal use. Researchers are optimistic that the approach can be applied readily to other multimetallic catalysts
This is significant because previous methods required using precious metals, whereas nickel is inexpensive, abundant, and offers great stability. here are many catalysts that are sophisticated considerably more than nickel
and often involving obscure and expensive precious metals, said Doug Macfarlane, co-author of the research, in an interview with Ashley Hall at the ABC. o nickel is a rather ordinary catalyst in many respects expect for one thing,
"This demonstrates a completely new concept about how you can make materials that would utilize a minimal amount of precious metals,
The amount of precious metal that does not support the reaction is reduced through the hollowing out process.
Because of the tiny quantities of metal actually used, they can be made inexpensively out of precious metals,
EEJA), which operates the Tanaka Precious metals Group's plating business, together with Professor Junichi Takeya of the University of Tokyo's Graduate school of Frontier Sciences, has achieved the world's first success in the development of technology for the simultaneous formation of contact electrodes for p-type and n-type*1
Holding company of Tanaka Precious metals) Headquarters: 22f, Tokyo Building, 2-7-3 Marunouchi, Chiyoda-ku, Tokyo Representative:
import and export of precious metals (platinum, gold, silver, and others) and various types of industrial precious metals products.
Recycling and refining of precious metals. Website: http://www. tanaka. co. jp/english (Tanaka Precious metals), http://pro. tanaka. co. jp/en (Industrial products) Electroplating Engineers of Japan Ltd.
EEJA) Head office: 5-50 Shinmachi, Hiratsuka-shi, Kanagawa Representative: Koichiro Tanaka, President & CEO Established:
1965 Capital: 100 million yen Employees: 94 (FY2013) Sales: 23,360 million yen (FY2013) Areas of Business:
1. Development, production, sales and export of Sel-Rex precious metal and base metal plating solutions, additives,
www. eeja. com/About the Tanaka Precious metals Established in 1885, the Tanaka Precious metals has built a diversified range of business activities focused on the use of precious metals.
On April 1, 2010, the group was reorganized with Tanaka Holdings Co.,Ltd. as the holding company (parent company) of the Tanaka Precious metals.
In addition to strengthening corporate governance, the company aims to improve overall service to customers by ensuring efficient management and dynamic execution of operations.
Tanaka Precious metals is committed, as a specialist corporate entity, to providing a diverse range of products through cooperation among group companies.
Tanaka Precious metals is in the top class in Japan in terms of the volume of precious metal handled
and stably supplied industrial precious metals, in addition to providing accessories and savings commodities utilizing precious metals. As precious metal professionals, the Group will continue to contribute to enriching people's lives in the future.
The eight core companies in the Tanaka Precious metals are as follows. -Tanaka Holdings Co.,Ltd. pure holding company)- Tanaka Kikinzoku Kogyo K. K.-Tanaka Kikinzoku Hanbai K. K.-Tanaka Kikinzoku International K. K.-Tanaka Denshi Kogyo
K. K.-Electroplating Engineers of Japan, Limited-Tanaka Kikinzoku Jewelry K. K.-Tanaka Kikinzoku Business Service K. K K
#Nanotechnology Raises Possibility to Produce Strongest Commercial Pure Aluminum Alloy Iranian researchers from Amirkabir University of Technology in association with Spanish researchers presented a new process to obtain highly strong
they can be made inexpensively out of precious metals, which resist chemical degradation. They can also be made on plastic, paper and a number of other substrates."
which contains impurities (e g. carbon monoxide) that poison precious metal catalysts (e g. platinum) only at low temperatures (less than 120°C)
Because of the tiny quantities of metal actually used, they can be made inexpensively out of precious metals,
simple process for making platinum"nano-raspberries"microscopic clusters of nanoscale particles of the precious metal("Stability and phase transfer of catalytically active platinum nanoparticle suspensions").
is actually more stable than some commercial catalysts made of precious metals.''We built a conventional water splitter with two benchmark catalysts, one platinum and one iridium,
is actually more stable than some commercial catalysts made of precious metals.''We built a conventional water splitter with two benchmark catalysts, one platinum and one iridium,
#Cancer drug 49 times more potent than Cisplatin Based on a compound of the rare precious metal osmium and developed by researchers at the University of Warwick's Department of chemistry and the Warwick Cancer Research Unit,
This is because silver is a precious metal and relatively expensive, and silver particles with nanoscale dimensions oxidise particularly rapidly;
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