Summary
Zap&Go has developed a fast charging solution to appliances, devices and vehicles. In contrast to Lithium-ion batteries, the dominant solution in these markets today, Zap&Go’s supercapacitors charge in 5 minutes or less and are proven to be safe to handle without fire risk. Zap&Go has raised 2m EUR in seed funding in 2015 and a ~7m EUR Round A in 2016 from private investors to invest in its pilot production line.
The IP was partly developed at Oxford University, exclusively licensed to Zap&Go and is now being advanced by in-house scientists. Zap&Go is expanding its patent portfolio to secure a sustainable competitive advantage in the markets it is addressing. Core to the technology is the use of carbon nano-materials, including graphene that allow the design of rechargeable pouches or flat cells.
In this Phase II project Zap&Go will develop 1) supercapacitor power modules and electronics specifically integrating with cordless tools such as cordless vacuum cleaners and power drills and 2) build trial units to conduct customer trials. At the end of the project Zap&Go expects to have at least one pre-contract signed with a European high volume manufacturer. In Phase III, Zap&Go will aim to become the leading supplier to the cordless appliance market before entering other global markets such as electric scooters and autonomous passenger transportation vehicles.
In its self-funded Phase I feasibility study Zap&Go established consumers’ willingness via a crowdfunding campaign, pre-selling 1,200 units. Major OEM’s like Stanley Black&Decker and Hilti have visited Zap&Go and shown interest in joint development agreements during Phase II. Zap&Go expects to enter the market at EUR30-40 per pouch at a gross margin of over 90%. Initially pouches will be produced in the in-house pilot production unit before production is outsourced under licensing agreements. Revenues are forecast to hit 150m EUR by 2023. Breakeven will be reached in 2020.
The IP was partly developed at Oxford University, exclusively licensed to Zap&Go and is now being advanced by in-house scientists. Zap&Go is expanding its patent portfolio to secure a sustainable competitive advantage in the markets it is addressing. Core to the technology is the use of carbon nano-materials, including graphene that allow the design of rechargeable pouches or flat cells.
In this Phase II project Zap&Go will develop 1) supercapacitor power modules and electronics specifically integrating with cordless tools such as cordless vacuum cleaners and power drills and 2) build trial units to conduct customer trials. At the end of the project Zap&Go expects to have at least one pre-contract signed with a European high volume manufacturer. In Phase III, Zap&Go will aim to become the leading supplier to the cordless appliance market before entering other global markets such as electric scooters and autonomous passenger transportation vehicles.
In its self-funded Phase I feasibility study Zap&Go established consumers’ willingness via a crowdfunding campaign, pre-selling 1,200 units. Major OEM’s like Stanley Black&Decker and Hilti have visited Zap&Go and shown interest in joint development agreements during Phase II. Zap&Go expects to enter the market at EUR30-40 per pouch at a gross margin of over 90%. Initially pouches will be produced in the in-house pilot production unit before production is outsourced under licensing agreements. Revenues are forecast to hit 150m EUR by 2023. Breakeven will be reached in 2020.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/766670 |
| Start date: | 01-02-2017 |
| End date: | 30-09-2019 |
| Total budget - Public funding: | 2 043 631,25 Euro - 1 430 541,00 Euro |
Cordis data
Original description
Zap&Go has developed a fast charging solution to appliances, devices and vehicles. In contrast to Lithium-ion batteries, the dominant solution in these markets today, Zap&Go’s supercapacitors charge in 5 minutes or less and are proven to be safe to handle without fire risk. Zap&Go has raised 2m EUR in seed funding in 2015 and a ~7m EUR Round A in 2016 from private investors to invest in its pilot production line.The IP was partly developed at Oxford University, exclusively licensed to Zap&Go and is now being advanced by in-house scientists. Zap&Go is expanding its patent portfolio to secure a sustainable competitive advantage in the markets it is addressing. Core to the technology is the use of carbon nano-materials, including graphene that allow the design of rechargeable pouches or flat cells.
In this Phase II project Zap&Go will develop 1) supercapacitor power modules and electronics specifically integrating with cordless tools such as cordless vacuum cleaners and power drills and 2) build trial units to conduct customer trials. At the end of the project Zap&Go expects to have at least one pre-contract signed with a European high volume manufacturer. In Phase III, Zap&Go will aim to become the leading supplier to the cordless appliance market before entering other global markets such as electric scooters and autonomous passenger transportation vehicles.
In its self-funded Phase I feasibility study Zap&Go established consumers’ willingness via a crowdfunding campaign, pre-selling 1,200 units. Major OEM’s like Stanley Black&Decker and Hilti have visited Zap&Go and shown interest in joint development agreements during Phase II. Zap&Go expects to enter the market at EUR30-40 per pouch at a gross margin of over 90%. Initially pouches will be produced in the in-house pilot production unit before production is outsourced under licensing agreements. Revenues are forecast to hit 150m EUR by 2023. Breakeven will be reached in 2020.
Status
CLOSEDCall topic
SMEInst-02-2016-2017Update Date
27-10-2022
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H2020-EU.2.1.2. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies – Nanotechnologies
H2020-EU.2.1.3. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced materials
H2020-EU.2.1.5. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced manufacturing and processing
