Laguna, Philippines
Laguna, Philippines

Ionics EMS, Inc. An electronics service provider based in the Philippines, Ionics EMS Inc. offers manufacturing services and integrated supply chain management and design services; Schematic Design, PCB Layout, firmware integration, new product introduction, industrial engineering capabilities.The customer segments Ionics EMS serves are the PC and computer peripherals, telecommunications, consumer electronics, industrial, consumer electronics and medical equipment industries.Ionics EMS is a subsidiary of Ionics, Inc., a Philippine-listed technology group. It fully owns Iomni Precision, Inc., a manufacturer of high-precision plastics; Ionics Circuits Ltd., a venture capital arm in core technologies; and Ionics Properties Inc., a real estate holding company. Wikipedia.


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News Article | November 4, 2016
Site: www.newsmaker.com.au

This report studies Next-Generation Advanced Batteries in Global market, especially in North America, Europe, China, Japan, Southeast Asia and India, focuses on top manufacturers in global market, with production, price, revenue and market share for each manufacturer, covering  Ambri  Amprius  Aquion Energy  Boulder Ionics  EnerVault  PolyPlus  Sakti3 Market Segment by Regions, this report splits Global into several key Regions, with production, consumption, revenue, market share and growth rate of Next-Generation Advanced Batteries in these regions, from 2011 to 2021 (forecast), like  North America  Europe  China  Japan  Southeast Asia  India Split by product type, with production, revenue, price, market share and growth rate of each type, can be divided into  Type I  Type II  Type III Split by application, this report focuses on consumption, market share and growth rate of Next-Generation Advanced Batteries in each application, can be divided into  Application 1  Application 2  Application 3 Global Next-Generation Advanced Batteries Market Research Report 2016  1 Next-Generation Advanced Batteries Market Overview  1.1 Product Overview and Scope of Next-Generation Advanced Batteries  1.2 Next-Generation Advanced Batteries Segment by Type  1.2.1 Global Production Market Share of Next-Generation Advanced Batteries by Type in 2015  1.2.2 Type I  1.2.3 Type II  1.2.4 Type III  1.3 Next-Generation Advanced Batteries Segment by Application  1.3.1 Next-Generation Advanced Batteries Consumption Market Share by Application in 2015  1.3.2 Application 1  1.3.3 Application 2  1.3.4 Application 3  1.4 Next-Generation Advanced Batteries Market by Region  1.4.1 North America Status and Prospect (2011-2021)  1.4.2 Europe Status and Prospect (2011-2021)  1.4.3 China Status and Prospect (2011-2021)  1.4.4 Japan Status and Prospect (2011-2021)  1.4.5 Southeast Asia Status and Prospect (2011-2021)  1.4.6 India Status and Prospect (2011-2021)  1.5 Global Market Size (Value) of Next-Generation Advanced Batteries (2011-2021) 7 Global Next-Generation Advanced Batteries Manufacturers Profiles/Analysis  7.1 Ambri  7.1.1 Company Basic Information, Manufacturing Base and Its Competitors  7.1.2 Next-Generation Advanced Batteries Product Type, Application and Specification  7.1.2.1 Type I  7.1.2.2 Type II  7.1.3 Ambri Next-Generation Advanced Batteries Production, Revenue, Price and Gross Margin (2015 and 2016) 7.1.4 Main Business/Business Overview  7.2 Amprius  7.2.1 Company Basic Information, Manufacturing Base and Its Competitors  7.2.2 Next-Generation Advanced Batteries Product Type, Application and Specification  7.2.2.1 Type I  7.2.2.2 Type II  7.2.3 Amprius Next-Generation Advanced Batteries Production, Revenue, Price and Gross Margin (2015 and 2016)  7.2.4 Main Business/Business Overview  7.3 Aquion Energy  7.3.1 Company Basic Information, Manufacturing Base and Its Competitors  7.3.2 Next-Generation Advanced Batteries Product Type, Application and Specification  7.3.2.1 Type I  7.3.2.2 Type II  7.3.3 Aquion Energy Next-Generation Advanced Batteries Production, Revenue, Price and Gross Margin (2015 and 2016)  7.3.4 Main Business/Business Overview  7.4 Boulder Ionics  7.4.1 Company Basic Information, Manufacturing Base and Its Competitors  7.4.2 Next-Generation Advanced Batteries Product Type, Application and Specification  7.4.2.1 Type I  7.4.2.2 Type II  7.4.3 Boulder Ionics Next-Generation Advanced Batteries Production, Revenue, Price and Gross Margin (2015 and 2016)  7.4.4 Main Business/Business Overview  7.5 EnerVault  7.5.1 Company Basic Information, Manufacturing Base and Its Competitors  7.5.2 Next-Generation Advanced Batteries Product Type, Application and Specification  7.5.2.1 Type I  7.5.2.2 Type II  7.5.3 EnerVault Next-Generation Advanced Batteries Production, Revenue, Price and Gross Margin (2015 and 2016)  7.5.4 Main Business/Business Overview  7.6 PolyPlus  7.6.1 Company Basic Information, Manufacturing Base and Its Competitors  7.6.2 Next-Generation Advanced Batteries Product Type, Application and Specification  7.6.2.1 Type I  7.6.2.2 Type II  7.6.3 PolyPlus Next-Generation Advanced Batteries Production, Revenue, Price and Gross Margin (2015 and 2016)  7.6.4 Main Business/Business Overview  7.7 Sakti3  7.7.1 Company Basic Information, Manufacturing Base and Its Competitors  7.7.2 Next-Generation Advanced Batteries Product Type, Application and Specification  7.7.2.1 Type I  7.7.2.2 Type II  7.7.3 Sakti3 Next-Generation Advanced Batteries Production, Revenue, Price and Gross Margin (2015 and 2016)  7.7.4 Main Business/Business Overview


Grant
Agency: Cordis | Branch: H2020 | Program: IA | Phase: NMP-15-2015 | Award Amount: 11.85M | Year: 2016

MATChING goal is the reduction of cooling water demand in the energy sector through innovative technological solutions, to be demonstrated in thermal and geothermal power plants. The project targets include an overall saving of water withdrawal of 30% in thermal power generation, and a decrease of evaporative losses up to 15% in geothermal sector. The use of advanced and nano-technology based materials will be leveraged to make economically affordable water saving in power plants and pave the way to the market uptake. All technological areas of plant cooling systems will be affected: cooling tower, steam condenser, cooling water circuit and water conditioning. The use of alternative cooling fluids will be investigated to develop advanced hybrid cooling towers for geothermal high temperature power plants, and hybrid cooled binary cycles for low temperature geothermal fields, combining dry/wet cooling, and closed loop groundwater cooling. To increase available effective water supply at reasonable costs, alternative water sources will be exploited: different membrane based technologies will be used to re-cycle or re-use municipal, process and blow down waters. To improve cooling equipment robustness advanced materials and coatings for cooling tower and condensers will be investigated, allowing increasing concentration cycles or directly using aggressive fluids. Demonstration will take place in partner-owned industrial sites, operating pilot plants in intended environment and/or in demo scale, guaranteeing the achievement of TRL 6 for all the technologies. The demonstration activities and the partnership composition ensures the validation of suitable business models and the finalization of business plans, guaranteeing the technological transfer from industry to market, increasing competitiveness at European level, and impacting on water use in power generation sector.


Patent
Ionics | Date: 2014-06-10

A cleansing device includes a toothbrush body having a handle on a first end and brush bristles on a second end. The second end movable with respect to the first end. A vibrating device is enabled to vibrate the brush bristle end to produce sonic vibrations. A metal anode is the handle and exposed on an outside of the handle and an cathode is positioned near or at the brush bristle end. An electronic circuit substantially within the handle has a mode switch operable to provide electrical potential to the metal anode, the mode switch also operable to cause activation of the vibrating device. A user using the toothbrush completes an electrical circuit to enable ions to flow from the cathode.


Patent
Ionics | Date: 2013-08-29

A mass spectrometer interface, having improved sensitivity and reduced chemical background, is disclosed. The mass spectrometer interface provides improved desolvation, chemical selectivity and ion transport. A flow of partially solvated ions is transported along a tortuous path into a region of disturbance of flow, where ions and neutral molecules collide and mix. Thermal energy is applied to the region of disturbance to promote liberation of at least some of the ionized particles from any attached impurities, thereby increasing the concentration of the ionized particles having the characteristic m/z ratios in the flow. Molecular reactions and low pressure ionization methods can also be performed for selective removal or enhancement of particular ions.


Patent
Ionics | Date: 2010-05-17

A process for treating produced water to generate high pressure steam. Produced water from heavy oil recovery operations is treated by de-oiling the produced water to provide a de-oiled evaporator feedwater that is fed to an evaporator. The pretreated produced water stream is evaporated to produce (1) a distillate having a trace amount of residual solutes therein, and (2) evaporator blowdown containing substantially all solutes from the de-oiled produced water feed. The distillate may be directly used, or polished to remove the residual solutes therein, before being fed to a steam generator. Steam generation in a once-through steam generator, or in a packaged boiler such as a water tube boiler having a steam drum and a mud drum with water cooled combustion chamber walls, produces high pressure steam for down-hole use.


An interface for mass spectrometers. The interface uses non coaxial sampling pathways of the analyte ion beam prior to entering the entrance of a mass spectrometer for decreasing chemical background, and can be done in such a way as to permit multiple sprayers, increasing sample throughput and sensitivity for LC/MS (liquid chromatography/MS). The interface includes an ion source having an exit from which a beam of analyte ions are emitted, a curtain plate and an aperture in the curtain plate member, an orifice plate having an orifice therein. The orifice plate is being spaced from the curtain plate member defining a flow passageway therebetween, and the aperture in the orifice plate is aligned with a sample entrance to a first vacuum stage of a mass spectrometer maintained substantially lower than atmospheric pressure. The aperture in the curtain plate member is non coaxially aligned with the orifice in the orifice plate and the interface includes a gas flow mechanism for directing a counter flow gas into the flow passageway.


A linear exchange element with functionalized polymer on a core of rope, twine or yarn has well defined physical structure and may function as a spacer or be formed into free-standing exchange elements. A screen is fabricated from such strands or strips, with a pattern of mixed, sequential or other exchange types for enhanced operation in a capture device or in an electrodialysis device. Strands possess tensile strength, enabling deionization devices of new architecture, such as fiber-wound cartridges and other packing arrangements. Bodies made of the strands may operate as walls to perform the function of an exchange membrane or bed, or may operate as spacers positioned between membranes to enhance ion capture and transport, and their properties simplify handling and regeneration. Electroseparation devices advantageously employ the open spacers to better treat food, fermentation product or other streams where high conductivity, suspended solids and fouling would otherwise present problems. Woven mats may be arranged so that strands of one type in a first layer possess at least some points of contact with strands of opposite type in an adjacent layer, and different strand diameter and mesh pitch or dimension may be employed for treating fluids of different viscosity or concentration to optimize treatment throughput and removal rate, or to minimize fouling or flow obstruction and otherwise extend the range of treatment parameters.


Patent
Ionics | Date: 2014-12-17

A mass spectrometer interface, having improved sensitivity and reduced chemical background, is disclosed. The mass spectrometer interface provides improved desolvation, chemical selectivity and ion transport. A flow of partially solvated ions is transported along a tortuous path into a region of disturbance of flow, where ions and neutral molecules collide and mix. Thermal energy is applied to the region of disturbance to promote liberation of at least some of the ionized particles from any attached impurities, thereby increasing the concentration of the ionized particles having the characteristic m/z ratios in the flow. Molecular reactions and low pressure ionization methods can also be performed for selective removal or enhancement of particular ions.


Patent
Ionics | Date: 2013-01-14

A mass analyzer includes a desolvation chamber into which an upstream gas is injected to provide a counter-flow to said downstream flow in the chamber. The counter-flow may slow the downstream flow of solvated ionized particles in the chamber, while allowing lighter desolvated ions to travel toward an outlet aperture of the desolvation chamber.


PLEASANTVILLE, N.Y., Dec. 20, 2016 /PRNewswire/ -- In 2016, Global Ionics LLC, introduced the Beverage Power, a drinking vessel that is powered by the human body, along with a patented circuit, and one AAA battery, to generate a small, safe electric current within any beverage. The...

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