Self-powered IoT revolution

Solar energy is a perpetual & renewable energy source. e-Synergy harnesses this energy for powering IoT distributed nodes applicable in Buildings, Automotive, Wearable and many other devices.

Electronic Components and Systems

Electronic components and systems are core enablers and differentiators for the development of many innovative products and services in all sectors of the economy towards a digital economy and society. e-Synergy offers novel systems architecture and design as well as components, modules and systems integration

From nano- to mini-grids

e-Synergy defines the requirements and specifications of various energy grid subunits, while offering control and optimization systems towards efficient energy management.

Energy Systems Consultancy

We provide Energy services, including Energy Audits, Inspections and Certifications while we design, install and operate solar parks

Intelligent Systems enabled by energy efficient engineering

Smart operation monitoring and management using a self-powered, distributed network of Internet of Things sensors

We provide consultancy and a wide range of R&D services bridging the fields of large-scale, on-grid energy systems and that of small-scale, nanogrids of renewable energy sources aiming at providing power for the Internet of Everything (IoE) and its associated distributed sensor nodes.

e-Synergy defines the requirements and specifications of various energy grid subunits (including renewables, energy storage media, electronics, monitoring systems), while offering control and optimization systems towards efficient energy management.

Our proposed methodology uses efficient energy storage solution, transmission of energy over smart micro-grids, smart meters and local demand management leading to consumer installations with key contribution by IoE energy harvesters that have a significant effect on the energy basket of each region.

Access to energy sources, security of supply and pricing policies that take into account the interests of vulnerable social groups and consumers in difficult situations are a major challenge.

One of the individual 2030 targets outlined by the EU is to cut spending on energy by private consumers and businesses.

The energy market, which is dominated by major energy producers and distributors, must be opened to the production from green neighbourhoods and become more distributed.

Online platforms can transform consumers into producers, creating and disseminating information and share energy.

Electricity will no longer flow ‘top-down’ in a centrally regulated way from large power plants to consumers. It will be produced from many decentralised renewable energy sources that transform the green neighbourhoods to a prosumer.

Prosumers are households or neighbourhoods able to operate in an organised way, that are both producers and consumers of energy produced in small installations.

Smart devices’ technology implemented into an Internet of Things (IoT) network, is expected to grow, fed by millions of data points from multitudes of sources and sensors, targeting the vision of smart homes, buildings and electronic devices.

More and more demands are being made of next-generation IoT devices, such as increased density, lower power consumption, flexibility, multifunctionality, cost-effectiveness, and more facile fabrication.

8

Number of Prototypes

30

Delivered Energy consultancy works

10

PV parks management

8

Cooperation in European projects

OUR PRESENCE PROVES A POINT...

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Our Team

The best of the best

George Viskadouros

George Viskadouros is an Electrical and Computer Engineer specialized in the opto-electronic characterization and simulation of various organic devices (OPVs, OLEDs, FEDs) enabled by nanocomposite materials. His field of expertise includes electronics and automations for electricity management. As a consultant, he has accomplished many electricity production projects in R.E.S (especially in PV plants) and energy performance upgrade studies in buildings. He is also an energy auditor for buildings, and he possesses specific license for the execution of electrical installations of all categories. He is a member of Technical Chamber of Greece, while serving as a technical consultant of energy companies (Minoan Energy Community, Atlas Travel Services, etc.). He has an extensive teaching experience serving as scientific and laboratory collaborator of the Electrical Engineering Department of HMU. He is currently finalizing his doctoral dissertation in collaboration with the Technical University of Crete.

DR KONSTANTINOS ROGDAKIS

He has more than 15 years research experience in the academic sector working on nanoelectronics, spintronics and optoelectronics. He possesses extensive hands-on experience on emerging low dimensional electronic systems including nanowire transistors, GaAs single spin quantum-bits, as well emerging phenomena in functional oxide and superconductive/ferromagnetic interfaces towards beyond-CMOS technologies. He has served at various academic research positions in high reputation European institutions including the Foundation of Research and Technology in Greece, the Institut Néel CNRS in France and the London centre for Nanotechnology – University College of London in United Kingdom. Dr Konstantinos Rogdakis received his undergraduate degree in Applied Mathematics and Physical Sciences and his master’s degree in Microsystems and Nanodevices both from National Technical University of Athens, Greece in 2005 and 2006, respectively. He obtained his PhD in Nanoelectronics from Grenoble Institute of Technology in France, in 2009. He is a member of Technical Chamber of Greece. He is currently a Researcher (Grade C) in the i-EMERGE Research Center of HMU and the Team Leader of Innovative Printed Electronics at the Nanomaterials for Emerging Devices research group. His current research interests include 2D materials engineering in various printed device concepts including high performing solar cells, functional sensors and thin film memristors/transistors for neuromorphic computing towards energy efficient Internet of Things and wearables.

Why Collaborating with Us?

Since we design innovative energy systems from the beginning

INITIATIVES IN THE RIGHT DIRECTION-THE NEED

A BETTER SOLUTION FOR YOUR POWER

A BETTER SOLUTION FOR YOUR POWER

A BETTER SOLUTION FOR YOUR POWER

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