Supplier List under Electronic Chemicals Category

CarboTech AC GmbH

WORLD LEADING FULL-SERVICE PROVIDER OF ACTIVE CARBONS

The CarboTech Group is one of the world's leading full-service providers of high-quality powdered, granulated and extruded activated carbons. At our production site in the heart of the Ruhr area, activated carbons, activated coke and carbon molecular sieves are produced, refined and packaged from hard coal, coconut coal and charcoal. As the market leader with over 60 years of experience in the reactivation and use of activated carbon for a wide range of different applications, we are always the competent solution provider for our customers.

This includes not only the selection of the right activated carbon, but also our comprehensive 360° service package, from which our customers can individually select the components they need. The service principle for our customers is: everything from a single source - everything as simple as possible.

QUALITY, EFFICIENCY AND SUSTAINABILITY

Our globally unique fluidized bed process guarantees our customers highly effective activated carbon with consistent quality, excellent service life and high efficiency.

Another step towards expanding our range of services and reducing our carbon footprint was the addition of a brand new multi-chamber vehicle to our service fleet. This enables loaded activated carbon to be exchanged for fresh carbon in just one appointment.

In terms of a functioning and sustainable circular economy, our focus is always on reactivating the loaded used carbons and then returning them to the utilization cycle.

Let us find out what CarboTech can do for you. Our sales experts look forward to hearing from you.

Plansee SE

Plansee is the expert in the field of molybdenum, tungsten, tantalum, niobium and chromium products. Refractory metals, alloys and composite materials from Plansee come into use in electronics, coating technology or high-temperature furnaces - wherever traditional materials are stretched beyond their limits. From tiny heat sinks to huge furnace installations: With its strong metals, Plansee delivers products of high quality worldwide.

As a leading enterprise in the field of powder metallurgy, Plansee covers the entire production process in-house – from the ore right to the customer-specific component. To do this, it presses and sinters metal powder and performs a range of deforming operations to manufacture extremely tough, reliable products.

To help its customers boost productivity and encourage technological innovation, Plansee attaches particular importance to research and development. The company works together closely with its customers to develop new materials and product solutions for forward-looking technologies.

Plansee is active at 32 locations in 24 countries across the globe. In order to remain the industry’s preferred partner in the field of refractory metals in the future, Plansee continuously invests in the training and further development of its 3,000 employees as well as in production capacities and state-of-the-art technology: from powder manufacturing and powder metallurgy processes right up to custom machining and the recycling of raw materials.

Maxterial, Inc.

Maxterial is a Bay Area technology company dedicated to pioneering advancements in material science, including the commercialization of advanced coatings. Founded in 2015, Maxterial leverages an eco-systemic lean tech approach to develop innovative solutions that protect against wear, heat, and corrosion while reducing carbon footprint and eliminating toxic materials from industrial processes. Maxterial is committed to driving responsible transformation in the material science industry through thought leadership, innovation, and collaboration that inspires others to embrace responsible innovation.

Glassomer GmbH

Structuring of glass is challenging and usually requires high temperatures to shape a glass melt or aggressive chemicals for etching of microstructures. Glassomer is a silica nanocomposite which comes as a liquid or a solid. As a liquid Glassomer (e.g. Glassomer L50) can be structured by room temperature replication or stereolithography 3D printing. As a solid Glassomer can be structured using classical subtractive structuring technologies like drilling, milling, lathing or simply carving with a knife. It can further be structured using thermal polymer molding technologies like nanoimprinting, thermoforming or high-throughput roll-to-roll replication. A final heat treatment turns the polymeric nanocomposites into high quality fused silica glass. The conversion takes place at 700 °C below the temperature for handling of silica melts (~2000 °C) and thus saves a considerable amount of energy.

HY2GEN AG

The usage of carbon free hydrogen is a game changer and 
can decrease carbon emissions significantly. This applies for industries, transport and mobility. Hy2gen AG will produce carbon free hydrogen worldwide and support the efforts to save our climate.

With the existing project pipeline of a production capacity of more than 93600 tons per year, Hy2gen AG is already worldwide in the leading position.

BioCORE

Our innovative patented system design combines high-temperature fuel cells (SOFCs) with subsequent catalytic methanation and CO2 separation of the exhaust gas, providing the missing link for a successful energy transition:

• Electrical efficiencies ≥ 80% - Disrupting the existing biogas market by doubling the electricity production compared to conventional combustion-based systems, enabling more than 10% of total power demand/ 20 million households in Germany to be supplied with base-load capable and controllable bionenergy

• Reversible operation - Providing balancing energy to the fluctuating electricity supply from wind and PV, with switching times ≤1min between fuel cell/generation and electrolysis/storage mode

• Long term energy storage - Offering profitable power-to-gas operation with maximum flexibility by green hydrogen or biomethane generation, while massively reducing infrastructure and investment costs using the existing gas grid for storage and tranport

• Negative CO2-Balance - Achieving mitigation targets by utilization or storage (CCU/CCS) of up to 20 million tons CO2 per year, resembling ~2.5% of the total emissions in Germany

• Containerized - Easy scalable plant size to customer-specific requirements due to 100kW standard modules

• Plug & Play - Fully automated and itelligent control system reduces maintenance requirements and enables instant upgrade of existing biogas plants

Tiamat Energy

Tiamat designs, develops and manufactures sodium-ion batteries for mobility and stationary energy storage. Stable chemistry for simple, safe, fast and performing solution.

Spun off from the CEA/CNRS late 2017, TIAMAT Energy is a start-up that designs, develops and produces innovative solutions for energy storage applications. The Na-ion technology used in Tiamat 18650 cells presents outstanding properties for power applications, fast charging and enhanced cycle life. Tiamat aims to further develop its technology in the years to come and to qualify its prototypes in collaboration with many industrial partners and end users.

reLi Energy GmbH

reLi is a start-up that is revolutionizing the way batteries operate.

Integrating our software solution with a stationary energy storage battery makes it operate smarter. The result is up to 35% longer lifetime and up to 70% more energy cost savings.

Our unique approach combines advanced analytics, modeling, and operational optimization to extend the lifetime of batteries while maximizing economic benefits.

Our goal is to reduce the environmental impact of lithium-ion batteries while maximizing profits.

Hafnium Labs ApS

Hafnium Labs supports chemicals, energy, and pharma companies by solving one of the biggest challenges in chemistry:

Obtaining reliable physical properties fast.

From drugs that save our lives, to crop and energy technologies that will save our tomorrow, advances in chemistry change the world. By supporting researchers and engineers working with chemistry we help create a brighter future.

We have developed a breakthrough system for combining state-of-the-art predictive methods, such as quantum chemistry and AI, with experimental physical property data.

By intelligently and transparently using all available information, we provide the most accurate physical property predictions and quantify the uncertainty, so you know how reliable each prediction is.​

Our Q-props™ tools support decision making from molecular discovery to process optimization.

Groam Tech AG

Groam is on a mission to convert agricultural biomass waste streams into new biodegradable foamed materials.

Foams are all around us: in our insulation, car interior, protective packaging and many more. Polymeric foams have excellent properties and functions like damping, cushioning, insulating or simply sparing material. The light and bulky foams are however very hard or impossible to recycle and mostly not biodegradable. This is especially alarming for fast disposables.

We believe in a future of recycling and renewable resources. This is why we started screening different kinds of waste streams and their components and thinking of how to foam them. Today, Groam has a vision of creating foams based on agricultural waste streams at the same performance and price as today’s foams. In the future, Groam plans to establish connections with agricultural waste stream producers and converters to develop a whole new supply chain connecting the food and polymeric foam industry and bringing impactful products to the consumers.