About Us

We are a spin off company with high expertise on health risk assessment related to the exposure to nanoparticles and respirable dust in industrial facilities and urban environments.

Vehicle ExHaust

Construction works

Industrial Pollution

Nanotechnology Works

Transportation Vehicles Exhaust

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News

ITENE and the company CONTROLNANO SL are working on a device for detecting in real time the presence of COVID-19

Posted by on 12:37 pm in News | 0 comments

ITENE and the company CONTROLNANO SL are working on a device for detecting in real time the presence of COVID-19

Experts from the ITENE research center and the start-up CONTROLNANO SL, both located in Valencia (Spain) are working on the development of a new device for detecting the presence of COVID-19 in real time, both in ambient air and in biological fluids, which will be portable, low cost and will offer instant results, which would allow for immediate diagnosis and speed up decision making to stop its expansion. The result of this project, called Covidsense, is expected to be available in the coming months, after the development of a technically viable prototype by ITENE and its validation in hospitals and urban and industrial locations. Although there is a degree of uncertainty about the level of accuracy it will achieve in the first phase, the researchers are confident of developing a technically viable prototype, in which knowledge of nanomaterials, electronics, and biosensors will be applied. This work is being carried out with the support of the Valencian Institute of Business Competitiveness (IVACE) of the Valencian Government (Spain) within the framework of its agreement with ITENE. This development would make it possible to overcome one of the crucial problems in the control of the pandemic that the world is currently experiencing, such as the shortage of rapid tests that allow a routine diagnosis of this disease, since the rapid and accurate detection of the coronavirus is crucial to control it. The biosensor device for the rapid detection of the SARS-CoV-2 virus will be based on the use of nanomaterials that act as support for chemical or biological receptors and interact with specific parts of the virus. This analysis can be performed either on exhaled air – in this case, the device would work in a similar way to a breathalyser – or on blood, urine, or wastewater samples. The recognition and interaction process will allow a signal to be emitted that can be processed in a computer application and sent as an alert to emergency centres or personnel in charge of risk prevention. Currently, clinical tests are being carried out reliably with the classic technique known as PCR (polymerase chain reaction). However, this method requires a complex and costly protocol for processing the sample, as well as expert personnel, and does not allow the so-called “on-site” tests, so the samples have to be sent to specific laboratories for analysis. The biosensors to be developed in the project launched by ITENE are suitable for real-time viral detection due to their high sensitivity and selectivity, low cost, simple operation, portability, and fast analysis. In this way, these systems will facilitate clinical decision-making and eliminate some of the workload of testing laboratories. In addition to their application for the detection of COVID-19, these biosensors will be able to be used for other medical diagnostics, as well as environmental monitoring and in the processing of food, water, and agricultural products. This initiative -in its industrial scaling and market validation stages- has been presented by CONTROLNANO SL, a start-up created by PACKA VENTURES SL, to the EIC Accelerator program in order to obtain support from the European Union for its...

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Safe exposure to nanoparticles is possible with nanowatcher

Posted by on 4:05 pm in Featured, News | 0 comments

Safe exposure to nanoparticles is possible with nanowatcher

Increasing commercial use of nanomaterials, exposure of workers to dusty environments and pollution in urban areas makes exposure to nanoparticles a major public health concern. According to the Wold health organisation, up to 4.2 million premature deaths worldwide every year are caused because of the inhalation of small particles To cope with this situation, last April 2018, European Union member states voted in favour of amending several annexes of the Registration, Evaluation, Authorisation and restriction of Chemicals Legislation (REACH), considering that information on uses and exposure to nanomaterials should be provided to demonstrate their safe use. Therefore, robust and reliable instruments that monitor nanoparticles are needed to meet the growing demand for exposure assessment studies. Nanowatcher by ControlNano is the ideal solution to guarantee safe exposure to nanoparticles. It improves health risk assessment devices developed up to date thanks to 3 main features:  It is robust, providing reliable data in harsh and dusty environments, easy to use, without any technical knowledge or training and supplies automatic reporting according to REACH Regulation. Click here for more...

read more

ITENE and the company CONTROLNANO SL are working on a device for detecting in real time the presence of COVID-19

Posted by on 12:37 pm in News | 0 comments

ITENE and the company CONTROLNANO SL are working on a device for detecting in real time the presence of COVID-19

Experts from the ITENE research center and the start-up CONTROLNANO SL, both located in Valencia (Spain) are working on the development of a new device for detecting the presence of COVID-19 in real time, both in ambient air and in biological fluids, which will be portable, low cost and will offer instant results, which would allow for immediate diagnosis and speed up decision making to stop its expansion. The result of this project, called Covidsense, is expected to be available in the coming months, after the development of a technically viable prototype by ITENE and its validation in hospitals and urban and industrial locations. Although there is a degree of uncertainty about the level of accuracy it will achieve in the first phase, the researchers are confident of developing a technically viable prototype, in which knowledge of nanomaterials, electronics, and biosensors will be applied. This work is being carried out with the support of the Valencian Institute of Business Competitiveness (IVACE) of the Valencian Government (Spain) within the framework of its agreement with ITENE. This development would make it possible to overcome one of the crucial problems in the control of the pandemic that the world is currently experiencing, such as the shortage of rapid tests that allow a routine diagnosis of this disease, since the rapid and accurate detection of the coronavirus is crucial to control it. The biosensor device for the rapid detection of the SARS-CoV-2 virus will be based on the use of nanomaterials that act as support for chemical or biological receptors and interact with specific parts of the virus. This analysis can be performed either on exhaled air – in this case, the device would work in a similar way to a breathalyser – or on blood, urine, or wastewater samples. The recognition and interaction process will allow a signal to be emitted that can be processed in a computer application and sent as an alert to emergency centres or personnel in charge of risk prevention. Currently, clinical tests are being carried out reliably with the classic technique known as PCR (polymerase chain reaction). However, this method requires a complex and costly protocol for processing the sample, as well as expert personnel, and does not allow the so-called “on-site” tests, so the samples have to be sent to specific laboratories for analysis. The biosensors to be developed in the project launched by ITENE are suitable for real-time viral detection due to their high sensitivity and selectivity, low cost, simple operation, portability, and fast analysis. In this way, these systems will facilitate clinical decision-making and eliminate some of the workload of testing laboratories. In addition to their application for the detection of COVID-19, these biosensors will be able to be used for other medical diagnostics, as well as environmental monitoring and in the processing of food, water, and agricultural products. This initiative -in its industrial scaling and market validation stages- has been presented by CONTROLNANO SL, a start-up created by PACKA VENTURES SL, to the EIC Accelerator program in order to obtain support from the European Union for its...

read more

Safe exposure to nanoparticles is possible with nanowatcher

Posted by on 4:05 pm in Featured, News | 0 comments

Safe exposure to nanoparticles is possible with nanowatcher

Increasing commercial use of nanomaterials, exposure of workers to dusty environments and pollution in urban areas makes exposure to nanoparticles a major public health concern. According to the Wold health organisation, up to 4.2 million premature deaths worldwide every year are caused because of the inhalation of small particles To cope with this situation, last April 2018, European Union member states voted in favour of amending several annexes of the Registration, Evaluation, Authorisation and restriction of Chemicals Legislation (REACH), considering that information on uses and exposure to nanomaterials should be provided to demonstrate their safe use. Therefore, robust and reliable instruments that monitor nanoparticles are needed to meet the growing demand for exposure assessment studies. Nanowatcher by ControlNano is the ideal solution to guarantee safe exposure to nanoparticles. It improves health risk assessment devices developed up to date thanks to 3 main features:  It is robust, providing reliable data in harsh and dusty environments, easy to use, without any technical knowledge or training and supplies automatic reporting according to REACH Regulation. Click here for more...

read more

Meet Our Team

Our products are built with the hard work of our amazing team.

Pedro J. Rodríguez

Pedro J. Rodríguez

CEO

Carlos Fito

Carlos Fito

R&D Manager

Maidá Domat

Maidá Domat

Aerosol Technology Scientist

Vanesa Blasco

Vanesa Blasco

Business Developer

Bárbara Ribes

Bárbara Ribes

Communication Manager