Video series: hte experts

Watch the free video series #htexperts to gain insights into faster R&D

Get your R&D ready for the future with our #htexperts

In recent years, the importance of sustainable and renewable feedstocks as sources from energy and material
as well as the implementation of more efficient processes has increased. Automated and parallelized testing
technology is an opportunity to support the processing of feedstocks from renewables & recycled materials,
the utilization of CO₂ as feedstock in chemical processes and the expansion of existing product portfolios
towards other product classes.

In the video series #htexperts, ourdedicated hte experts address current issues
in the fields of electrocatalysis, battery materials, renewables, carbon management, and refining.
They show how parallelized testing technology can be applied and
help you accelerate your R&D and decision-making.

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Battery Materials

Explore the possibilities of enhancing your battery materials R&D through fully automated operation and high-quality data collection.

Electrocatalysis

Find out more about how electrocatalysis works and its areas of application, the latest R&D developments in electrocatalysis and hte's modular plant design.

Carbon management

Discover how to utilize CO₂ in your chemical processes, the challenges of CO₂ capture and the role of hydrogen.

Renewables

Gain more insights about the utilization of bio-based feedstocks and bio-applications.

Refining

Learn more about hydroprocessing, kinetics and the application of high throughput experimentation in aromatics and olefins chemistry.

Electrocatalysis

Transitioning to a sustainable, decarbonized energy future is a key challenge. Electrocatalysis offers energy-efficient pathways, from hydrogen production to CO2 conversion. In this video series, our experts Asha Jacob, Inka Dessel, and Sara Claramunt explain how high throughput experimentation accelerates catalytic process development, ensuring rapid market entry for renewable products.

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Learn more about electrocatalysis and its areas of application.

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Discover how high throughput technology is applied to accelerate electrocatalysis R&D.

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Explore the possibilities of hte's modular plant design.

Battery Materials

With global sustainability goals and the development of emission-free electrification, battery material producers & cell manufacturers are facing more challenging targets in battery specifications. In this video series, our experts Daniel Jalalpoor, Sara Claramunt, and Johannes Witte show how digitalized testing workflows generate faster R&D results and elaborate on the significance of miniaturization, automation, parallelization, and digitalization to optimize the development of battery materials.

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Find out how to generate faster R&D results in battery material development

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Accelerate the development of cathode active materials

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Gain more insights into high data quality and reproducibility for your battery materials R&D

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Explore the possibilities for a shorter time-to-market in battery materials R&D

Renewables

Novel processes for converting renewable & recycled materials make a valuable contribution to reducing the carbon footprint. They also provide new opportunities for platform chemicals and drop-in fuels. In this video series our experts Ghith Al Shaal and Fabian Schneider show how parallelized testing technology can help you to accelerate the development of new catalytic processes for biogenic materials. They explain in which areas the conversion of renewables can be applied, which bio-based feedstocks can be processed by high throughput technology and much more.

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Gain more insights how you can bring efficiency to R&D work and to speed up project execution.

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Learn more about which biogenic feeds can be processed.

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Find out how our unique digital workflow
automatizes your processes and helps you in generating high-quality data.

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Find out more about the process and different project phases of a collaboration.

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Check out the possibilities in on- and offine analytics for biogenic feedstocks.

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Get to know hte's different technologies which can help with your challenges.

Carbon Management

With rapidly rising CO₂ emissions over the past years, a shift in the raw material base away from coal and oil towards gas and renewable feedstocks as sources of energy and material plays a major role, as does increased process efficiency.
Our experts Peter Kolb and Benjamin Mutz provide an overview of the main challenges of CO₂ capture. They also take a look at different technologies for converting CO₂, the role of hydrogen, and how parallelized testing technology can help you overcome your challenges on the road to carbon neutrality.

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Learn more about the complexity of diverse gas ranges and logistical challenges.

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Check out the various technologies to convert CO₂, such as syngas conversion or methanol conversion.

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Discover how we handle different reaction conditions on a lab scale to tackle your challenges.

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Gain more insights about the potential uses of hydrogen and the importance of electrolysis to produce green hydrogen.

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Find out more about the simulation of various C0₂-containing gas streams serving as a feedstock.

Reﬁning

Reﬁneries, engineering companies and catalyst suppliers are facing changing market demands. In order to maintain competitiveness, it is necessary to expand the product portfolio towards other product classes such as oleﬁns or aromatics. In our video series, the experts Marius Kirchmann, Enrico Lorenz and Teo Trotus show how parallelized testing technology helps with shifting product requirements towards petrochemical products and the
conversion of renewable feedstocks.

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Find out how high throughput experimentation enables comparability of lab-scale data with industrial data from a refinery with great reproducibiIity.

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Hear how high throughput technology can help you to generate the database for reactor design and process optimization.

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Explore various analysis methods of the Micro Downflow Unit (MDU) to determine the contribution ol the co-feeds to the cracking products.

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Learn more about the various applications of high throughput experimentation in aromatics and olefins chemistry.

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