Technologies Developed for BIOCUF

BIOCUF leverages several technologies developed and adapted by Cicci Research to support carbon capture, gas management, environmental control and real-time process monitoring.

Bioclimatic Chamber

BIOCUF experiments are performed inside a controlled environmental chamber designed to provide stable and repeatable testing conditions for biochemical, electrochemical and gas-phase studies.

BIOCUF Environmental Chamber

Environmental Specifications

Temperature Range 5 °C - 85 °C
Humidity Range 20 % - 80 % RH
Monitoring Continuous
Control Automated

Stable Conditions

Precise temperature and humidity regulation for repeatable long-term experiments.

Integrated Sensors

Environmental and gas sensors continuously monitor chamber conditions.

Gas Atmosphere Control

Fully compatible with the ARKEO Air Unit for controlled CO₂ experiments.

ARKEO Integration

Direct integration with data acquisition, automation and monitoring software.

ARKEO Air Unit

Precise gas control is essential for carbon capture research. The ARKEO Air Unit provides automated gas delivery, mixing and atmosphere regulation for BIOCUF experiments.

Controlled Experimental Atmospheres

The Air Unit enables precise control of gas composition inside the environmental chamber, allowing researchers to investigate the influence of CO₂ concentration and other environmental parameters on biochemical and electrochemical processes.

Fully integrated with the ARKEO platform, the system supports automated experiments, synchronized monitoring and continuous operation.

Gas Mixing

Generation of custom gas compositions for controlled laboratory experiments.

Flow Regulation

Precise control of gas delivery and atmosphere exchange rates.

Automated Operation

Controlled directly through ARKEO software and experimental routines.

Chamber Integration

Direct coupling with the environmental chamber used throughout BIOCUF.

ARKEO Air Unit Gas Mixing Process

Advanced Sensor Suite

Continuous monitoring is essential for understanding biochemical and electrochemical processes. BIOCUF combines environmental, gas and optical measurements into a unified monitoring platform.

Temperature and Humidity Sensor

Temperature & Humidity Sensor

Continuous monitoring of environmental conditions inside the chamber ensures stable and repeatable experimental conditions throughout long-duration tests.

Temperature Humidity Environmental Control
CO2 Sensor

CO₂ Sensor

Temperature and humidity compensated CO₂ monitoring provides accurate gas concentration measurements during capture and utilization experiments.

CO₂ Compensated 0 - 100 vol %
Spectrometer

Spectrometer

Optical spectroscopy enables real-time monitoring of reaction progress, cofactor concentration and formate production without interrupting experiments. The selected spectrometer covers the visible and near-infrared spectral region required for monitoring the Carbonic Anhydrase (CA) and Formate Dehydrogenase (FDH) reaction system used in BIOCUF, while maintaining a compact footprint and significantly reducing instrumentation cost compared to research-grade laboratory spectrometers.

Its spectral range is fully compatible with the optical measurements required for cofactor regeneration and concentration tracking, while its small size allows direct integration into the chamber and monitoring platform. This enables continuous in-line measurements, simplified deployment and scalable instrumentation suitable for future pilot-scale systems.

Spectroscopy In-Line Analysis Real-Time Monitoring 340-850 nm spectral range

Real-Time Monitoring Platform

All environmental, gas and optical measurements are synchronized through the ARKEO platform, providing a complete real-time view of the experimental process.

ARKEO Monitoring Dashboard
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Live Visualization

Continuous display of environmental conditions, gas concentrations and spectroscopic data.

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Automated Logging

Automatic storage of all measurements for traceability and long-term analysis.

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Experiment Automation

Environmental control, gas management and data acquisition operate as a unified system.

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Research Ready

Designed to support advanced carbon capture, electrochemical and spectroscopic studies.

Integrated Experimental Workflow

1 Chamber Control
2 Gas Management
3 Sensors
4 ARKEO Software
5 Analysis
ISOPHOS Summer School

BIOCUF at ISOPHOS

Project results will be disseminated through ISOPHOS, the International School on Hybrid and Organic Photovoltaics organized by Cicci Research.

Bringing together researchers, students and industry experts from around the world, ISOPHOS provides an ideal platform for sharing BIOCUF developments, fostering collaboration and promoting sustainable energy research.

Visit ISOPHOS →