We aim to foster a culture of entrepreneurship, innovation and success among engineers in the UK, creating economic growth and societal impact. At the heart of how we do this are the Hub Members, the promising entrepreneurs who we support through our programmes, and our Hub Mentors, the business leaders who volunteer their expertise and time to help the Hub Members succeed.
From manufacturing to medtech, our Hub Membership is made up of some of the UK’s most innovative entrepreneurs. But don’t just take our word for it: read more about our Hub Members to see how they are, without exaggeration, changing the world.
COO and Co-founder, Open Bionics
Open Bionics have created the Hero Arm, an affordable, 3D printed, multi-grip bionic hand. Lightweight and durable, the Hero Arm is an empowering, medically-approved, myoelectric prosthesis for below elbow amputee adults and children aged eight and above.
Designed with customisation and comfort as priorities, the Hero Arm is lightweight and robust while also being breathable and adjustable. Embedded with special sensors, it intuitively detects muscle movement so that it can move and coordinate with life-like precision.
Developed by a rapidly growing team in Bristol, the award-winning technology is now available through prosthetic clinics in the UK and Europe with expansion into the US market planned soon. COO and co-founder, Samantha Payne leads Open Bionic’s product design, branding, communications, culture, HR and customer service. Samantha will use training and coaching through the SME Leaders Programme to strengthen leadership and management skills as the start-up scales internationally. Mentoring and coaching support will also help Samantha to further develop her design-thinking and gain a deeper understanding of the company’s commercial offering as it expands into new markets and develops new products.
Visit the Open Bionics website here.
CEO, Adaptix Ltd
A planar (flat) X-ray imaging solution developed by Adaptix Ltd could significantly improve the availability of 3D X-ray diagnosis.
X-ray is the most commonly used imaging technique in healthcare, supporting clinicians in accurately diagnosing disease and trauma. However, most imaging methods involve bulky, expensive equipment, which limits accessibility.
Adaptix aims to correct this with its lightweight, portable X-ray imaging solution. The technology the company uses is more cost effective and energy efficient. It also harnesses the strengths of emerging techniques, such as digital tomosynthesis, to produce higher quality 3D X-ray imagery and increase diagnostic accuracy.
Making X-ray imaging techniques more portable will help ensure that those with previously poor access will be able to benefit from rapid, accurate diagnosis for a range of conditions, from cardiovascular and pulmonary diseases to lung cancer and osteoporosis.
Mark Evans, CEO, has brought extensive expertise in both business management and medical imaging to Adaptix Ltd. Since becoming an SME Leader in 2017, his team has doubled in size to 32 employees. The programme has supported Mark Evans and his management team to scale the business and secure capital – Adaptix has now raised £8 million in equity.
Adaptix has over 50 published patents and will soon launch its first medical and non-clinical products. The company is making an impact in the fields of medical and dental practice. It has also identified further uses for its 3D imaging technology with industrial, security and veterinary applications.
Material corrosion is a cross-sector problem that costs industry potentially $500 billion globally each year. Current anti-corrosion chemicals contain hexavalent chromate, a highly toxic chemical that will be banned from use in the EU from 2019. The need for alternatives is pressing, and Dr Patrick Dodds, CEO and Founder of Hexigone Inhibitors Ltd, has found a novel solution.
Dr Dodds’ anti-corrosion technology is not simply a chemical, but a system of nano-reservoirs that can be incorporated into coatings such as paint. This technology is activated by the chemicals that cause corrosion, triggering the rapid release of a protective agent and essentially making the coated material self-healing.
The aerospace, automotive and shipping industries are among those currently searching for new anti-corrosion solutions. Dr Dodds’ technology has potential to penetrate the £200 billion-dollar protective coating industry thanks to its speed of action and environmental acceptability. It also aims to match current equivalents on price and the length of its guarantee.
Awards from the Worshipful Company of Armourers & Brasiers, Royal Society and Innovate UK have supported proof of concept and development to date. Dr Dodds is now developing this novel technology in collaboration with Tata Steel to manufacture anti-corrosive paint for metals in Europe. Discussions are progressing with other investors, and there has been interest from several multinationals within the paint industry.
Dr Dodds was awarded a 2017 Enterprise Fellowship to support him to develop the business. Next steps involve scaling up the manufacturing process and both long-term and accelerated testing.
Managing Director, Ludwick Precision
Metal fabrication for applications such as laboratory benches and office furniture requires expertise in materials, as well as finely-tuned engineering processes. Ludwick Precision is a specialist in this area, leading fabrication of high-end, bespoke sheet, box and tubular metal solutions.
For 25 years, the Hertfordshire-based company has built up a significant reputation in the design and manufacture of engineered products to meet customers’ bespoke requirements.
Ludwick Precision is a fully integrated manufacturing consultancy, from design and prototyping, to assembly and installation, clients are supported at every stage in the process. This has enabled the company to develop several long-term customer partnerships by consistently delivering projects on time and within budget. Ludwick Precision’s extensive work in the pharmaceutical sector, for example, includes the development and manufacture of the first height-adjustable laboratory bench to be built in the UK.
Ryian Ludwick, Managing Director, has used SME Leaders Programme training to support the business through an expansion programme and his team has grown to 20 people since receiving the award in 2017. In 2019/20, Ryian purchased the company from its main shareholder and he has developed a strategy for Ludwick Precision’s continued growth which includes a focus on the demands of existing customers, and exploring the potential to make products applicable to other niche market sectors.
CEO, Oxford nanoSystems
From air-conditioning units to big data computing, heat-transfer components play a fundamental role in a range of technologies. Oxford nanoSystems is revolutionising the manufacture of these components with a novel coating technology that substantially improves materials’ heat transfer capabilities. This enables the development of lighter products at a reduced cost.
The coating facilitates the production of heat-transfer components that are more efficient and consume less energy thereby improving their environmental sustainability. The flexible coating can be customised and incorporated into existing manufacturing processes, or applied to components after manufacturing.
Before completing his PhD, Alexander Reip was invited to bring his expertise in nanomaterials to Oxford nanoSystems. The company at that point was a new startup and he played a principal role in developing its groundbreaking coating.
Dr Reip is now CEO of the company and leads a team that is dedicated to implementing its product more widely. Supported by the SME Leaders Programme since 2017, Alexander has grown the team from three to 17 staff.
Training in management and leadership has helped Dr Reip to strengthen his entrepreneurial skills and develop a strategy for growth. Oxford nanoSystems has now raised over £2 million in equity funding and over £1.5 million in grant funding. It is now preparing to install its first production plant with a view to accessing new markets that will benefit from improved cooling systems, including the large and growing electronics sector.
GreenSpur Wind has developed a generator that could further reduce the cost of wind energy, making this renewable energy source more cost effective, efficient and sustainable. Many existing machines use scarce and expensive rare earth magnets, which are sourced almost exclusively from China. In contrast, GreenSpur’s patented design makes use of ferrite – an abundant, cheaper alternative type of magnet, which will accelerate deployment. Its low-cost generator can concentrate flux and maximise energy generation, making it the first company to develop a credible option using ferrite magnets for large-scale turbines.
Andrew Hine joined the SME Leaders programme in 2017 when Innovate UK had awarded the company a £1.25 million grant to build a single stage 250kW generator, part of a four-stage 1MW design. This was completed in 2019. A feasibility study is now being undertaken, which will demonstrate how the modular GreenSpur design is capable of being scaled to deliver 15MW-plus configurations.
Now, GreenSpur Wind is working on grant applications and funding that could release millions for further product development. Further investment would allow the company to form an R&D design and development team. The company is also looking for a co-development partner to bring its technology and multi-MW generators to the global wind turbine market.
“The programme has enabled us to transition the business towards an applied engineering strategy. I found the mentoring, both formal and informal, a great support during this transition phase. The networking opportunities provided by the Enterprise Hub were also useful and enabled me to obtain a level of engineering support and advice that had previously been very difficult to access.”
A desire to help create sustainable and resilient cities led Arthur Kay to develop bio-bean, the first company to industrialise the recycling process for spent coffee grounds and transform them into advanced biofuels and biochemicals.
With over 500,000 tonnes of spent coffee grounds going to waste in the UK every year, Arthur recognised them as a valuable, and abundant, resource. They are highly calorific and packed with the right compounds to be a source of sustainable energy.
The company slots neatly into pre-existing waste and energy processes, and works closely with waste-management companies to get spent coffee grounds to their large-scale recycling factory. As a result, the award-winning clean technology company already collects thousands of tonnes yearly from offices, transport hubs and coffee shops, including Costa Coffee.
The used coffee grounds are then transformed into sustainable, high-performance products, such as biomass pellets for heating buildings, and the company’s first consumer product ‘Coffee Logs’ for use at home in stoves and fires.
Rapid growth has enabled the company to build its capacity to recycle up to 50,000 tonnes of used coffee grounds each year, which has significantly reduced the amount that ends up in landfill. By engaging in extensive research, bio-bean now plans to expand its range of advanced carbon-neutral biofuels and biochemicals for commercial use.
Contemporary architectural design requires smarter, more flexible materials to help buildings meet their environmental targets. Flexible plastic displays could provide a sustainable option for optimising indoor environments but only if they can be easily manufactured for use in materials such as glass.
Dr Chris Williamson, founded the start-up Flexypix to unlock the potential of flexible plastic displays that can be integrated into glass. His technology can be used to create windows that quickly switch from transparent to opaque, providing privacy or reflecting unwanted heat while consuming no continuous power.
Made using a liquid crystal-based material, Flexypix displays can rapidly switch and adapt on demand, within seconds.
These ultra-thin, plastic panels can also be seamlessly retro-fitted to existing surfaces, or integrated within materials such as glass during manufacture.
As CEO, Chris Williamson brings extensive experience in engineering smart tools and material for construction. He leads Flexypix in developing continuous mass-production processes so that the company can target the global commercial indoor window market, which was valued at $30 billion in 2015.
Chris was awarded a 2017 Enterprise Fellowship to spin out his business, continue testing and upscale the manufacturing process.
Chronic Obstructive Pulmonary Disorder (COPD) is a debilitating lung disease that affects 1.2 million in the UK. Nearly two thirds of cases are thought to be undiagnosed and new methods are needed to improve both diagnostics and treatment.
InspiWave is a non-invasive monitoring device developed by medical innovator Dr Phi Anh Phan, along with Professor Andrew Farmery at the University of Oxford. With its ability to both monitor lung function and pulmonary blood flow, InspiWave has the potential to improve COPD diagnosis rates and allow for more efficient bedside monitoring throughout the treatment pathway.
InspiWave aims to improve patient’s comfort and experience by providing real-time bedside monitoring information in a non-invasive way. It can be used to support patients with a variety of lung conditions, such as intensive care patients with Acute Respiratory Distress Syndrome.
Real-time monitoring ensures that clinician have the information needed to deliver the right treatment at the right time. The technology also provides vital information to improve fluid management for patients undergoing high-risk surgeries.
Medical trials are underway to demonstrate InspiWave’s effectiveness in a range of treatment scenarios, and help with targeting this device for use within the NHS.
Phi was awarded a 2017 Enterprise Hub Fellowship to develop InspiWave, and launch his start-up, Intelligent RespiLabs.
What makes us different is the Academy’s Fellows and our wider Mentor network – an unrivalled community of the UK’s most successful industry leaders, technology experts and entrepreneurs. Find out more about our Mentors and their areas of expertise.
Formerly the UK Innovation Director for Atkins, Elspeth is the CEO and Founder of IAND, a digital platform that helps major enterprises manage multiple suppliers.
Initially graduating as a chemist, Elspeth later turned her hand to transport and urban design, demonstrating business and technical leadership on over 100 transport planning projects both nationally and around the world.
Elspeth chairs the Enterprise Hub’s Innovators Network and is a judge for the Hub’s Launchpad Competition. She is also a member of the Royal Academy of Engineering’s Diversity and Inclusion Committee.
In 2017, Elspeth was awarded a Member of the Order of the British Empire (MBE) for her services to Engineering and Enterprise.
“I believe that collaboration within our industry is the key to driving innovation faster. I am so proud to be involved with the Enterprise Hub, as a Mentor, and as Chair of the Innovators Network and to support young entrepreneurs as a Judge on Launchpad competition.
It is rare to find a place which brings together startups and established companies to exchange ideas and learn from each other. We have a shared goal which is to fast track the growth of engineering enterprises in the UK. The Enterprise Hub has helped me grow my business and it is helping young engineers build the businesses of the future.”
Paul Excell is an award-winning entrepreneur, investor and global executive leader with an impressive track record of delivering growth and transformation in startups, scale-ups, global corporates and is passionate about social mobility. He is Chief Operating Officer and Non-Executive Director at ScaleUp Group™️, providing tech scaleups with unique insights from successful entrepreneurs with over $4 billion in exits plus patient equity/debt growth funding (£2 million to £20 million). He has six tech clients in the growth portfolio, and his clients have raised £30 million to date.
In addition to this, Paul is Co-Founder and Chair of Global iLabs, Founder and CEO of Excelerate™️ and Non-Executive Director with Knowledge Gateway (University of Essex). He acts as a judge and mentor for the UK Enterprise Awards and the Royal Academy of Engineering’s Launchpad Innovation Award and SME Leaders.
Paul was previously Chief Customer Innovation Officer, Chief Operating Officer/Group Technology Officer, SVP[PS1] Global at BT, Chair/member of several business Boards (UK and Spain, Nordics, AsiaPac) and sat on BT Group Board committees on Technology, Risk and Diversity. He was an Engineering Council Board member and acted as advisor to UN Secretary General on sustainability, technology and innovation.
He started his career as an apprentice and is now a chartered engineer (CEng), Fellow of the Institution of Engineering and Technology (FIET), the Chartered Institute for IT (FBCS) and Court Liveryman, Worshipful Company of Information Technologists.
Professor Mark Arthur Tooley FREng is the immediate Past President of the Institute of Physics and Engineering in Medicine. He was the Head of the Department of Medical Physics and Bioengineering and Director of Research and Development at the Royal United Hospitals, Bath until 2017 when he retired from full-time NHS work. Since then, he has held several part-time roles. He is a specialist scientific advisor for NHS England, a digital clinical advisor for the West of England Academic Health Science network, and a healthcare technology consultant. He is a registered Consultant Clinical Scientist, an honorary professor at the University of Bath, and a visiting professor at the University of the West of England.
Mark completed his BSc in Electrical and Electronic Engineering at the University of Bath in 1979. He was sponsored by Westinghouse Brake and Signal company for the four years of the course. He then did an MSc and PhD in Medical Physics at the University of London. His MSc thesis was developing a EEG frequency analyser for anaesthesia. For his PhD research, Mark invented (with a cardiologist) an original method for rate-independent diagnosis of cardiac rhythm for implantable devices, which was patented. He spent the rest of his career in Medical Physics and Bioengineering departments, both in hospitals and academia, working along medical colleagues. He has worked at St Bartholomew’s hospital in London, Bristol University, United Bristol healthcare NHS Trust, and the Royal United Hospital, Bath. He is a Fellow of the Royal Academy of Engineering, the Royal College of Physicians, the Institute of Engineering and Technology, the Institute of Physics and Engineering in Medicine, and the Institute of Physics. He is a chartered engineer and chartered scientist. Mark is on the peer-review college of EPSRC, has recently been a member of the Engineering and Physical Sciences Research Council Healthcare Technologies Strategic Advisory Team and the Royal Society Fellowship panel.
Mark has been a long-standing member of the Panel for Biomedical Engineering at the Royal Academy of Engineering (now called the healthcare policy topic group). He was recently a member of the biomedical engineering membership panel, the Policy Committee, and the working group for Systems thinking in healthcare. He has mentored on the enterprise scheme.
Mark’s research interests include innovations in medicine, physics applications in anaesthesia, simulation in medicine, physiological measurement, biological signal processing, measuring the depth of anaesthesia, blood pressure measurement and novel patient monitoring solutions.
As an entrepreneur and communications professional, Helen's mission is to help businesses do more good in the world. After nearly 15 years working in government relations and leadership communications, Helen set up her own boutique communications agency, HN Communications. A smaller and more person-centred alternative to bigger agencies, HN Communications works with large and small clients to deliver complex communications projects. Clients include Bosch, Heineken, Nissan and The Climate Group.
Helen founded her latest venture, Leaders LIVE in 2020, just as COVID-19 hit. Leaders LIVE fills a much-needed gap in the market for an independent, online platform for thought leadership and debate. Leaders LIVE brings together leaders from business, government and NGOs to debate some of the biggest challenges facing our world today, from tackling climate change to addressing diversity. After only a year Leaders LIVE has built a dedicated community, with live events hosted on LinkedIn and YouTube. Events regularly have hundreds of live attendees, with thousands more catching up on the replay.
With a mechanical engineering degree from Imperial College London and an MBA from Erasmus, Mike is a chartered engineer, a Fellow of the Institution of Mechanical Engineers and a Sainsbury Management Fellow.
He has led turnarounds, helped establish new businesses and delivered complex projects; challenging and coaching teams to innovate and transcend existing performance. Mike’s experience includes senior operations, project and corporate roles with Royal Dutch Shell UK, and large-scale project development and delivery roles at Alstom in locations across Europe, Asia and North America. Most recently he has been a Director at Centrica Energy, where he is responsible for one of the company’s largest operated gas businesses. He is a Non-Executive Director of Acqualithium and Vice-Chair of the Board of Hymers College.
Naomi started her career at the National Criminal Intelligence Service (now the National Crime Agency), where she spent three years looking at fraud and financial crime intelligence. It included a stint working with the FBI in Quantico, Virginia. She then moved to RBS, where she spent 10 years working in various risk roles, across both the first and second line of defence.
Most recently, Naomi has been working at LBG as a Director in the Chief Resilience and Security Office, where she led on operational resilience and cyber and information security policy. She co-founded the Operational Resilience Collaboration Group, made up of more than 40 firms working together to build resilience in the industry, and co-authored the ORCG industry standard on operational resilience. Naomi also developed the ‘Mind the Gap’ initiative across various FTSE100 companies, with senior women giving inspirational talks and providing mentorships to help encourage more women into careers in security.
Dr John C Taylor OBE FREng was born in Buxton, Derbyshire in 1936. Having spent five years living in Canada
during his childhood, he returned home towards the end of the Second World War.
He attended King William’s College on
the Isle of Man before studying Natural Sciences at the University of Cambridge.
Dr John C Taylor is one of the UK’s most successful and prolific living inventors and, over a sixty-year career, has invented, produced and sold components for numerous electrical appliances around the world.
While at his company Strix Ltd, Dr Taylor established the business as the world-leading manufacturer of kettle controls. His research was instrumental in designing the ubiquitous safety switch that turns a kettle off when it boils and prevents it from overheating, and he also designed the 360˚ cordless connectors in modern kettles.
Dr Taylor’s innovations led to the production and sale of almost two billion kettle controls - 75% of the global market. His inventions in the development of bi-metallic safety critical cut-outs for electric motors are also used in domestic appliances such as hairdryers and fan heaters. His work has also seen over four hundred patents filed, including automatic windshield wipers, electric motor protectors and cordless kettle connectors and controls, and it is a testament to these components’ visionary design that they continue to be in prolific use today.
Dr Taylor has been the recipient of many honours including, but not limited to, the following:
He is also an elected Honorary Fellow of Corpus Christi College, University of Cambridge, and has been conferred Honorary Doctorates from University of Manchester Institute of Science and Technology (UMIST) and Durham University. When he’s not inventing and innovating, Dr Taylor is a keen aviator, mountaineer, yachtmaster and philanthropist.
Dr John C Taylor is a committed philanthropist and has made a number of donations in order to ensure that young engineers in the UK have the tools they need to be competitive in a global market. In 2017, he became the main sponsor of the new Dr John C Taylor Enterprise Hub, affectionately known as the Taylor Centre, in the Royal Academy of Engineering. He also established in perpetuity a Chair Professorship of Innovation in the Engineering Department of the University of Cambridge.
Following his career in creating electrical control switches, Dr Taylor became well-known for his interest in clocks and is one of the world’s leading experts in the work of John Harrison, an early pioneer of timekeeping and sea clocks. This led him to design and help build the Corpus Chronophage, a large, time-eating clock which that stands proud on the exterior of the Taylor Library, Corpus Christi College, Cambridge. Dr Taylor donated the clock, alongside a bestowment to make the Taylor Library possible, to his alma mater in order to support bright students of future generations.
Richard has significant experience in managing early stage and high-growth investor-backed businesses. He has spent the last 20 years finding, building and exiting these, investing in many.
He has a strong focus on numbers, financial models, strategic and execution planning, and risk management. He has a toolkit of methodologies to call on to help businesses grow.
He is an experienced non-executive director of both SME and PLC (AIM) companies, has a good knowledge of the funding landscape and is well networked (UK and global) with connections to most Venture Capital, PE, lawyer, accountant and High Net Worth Investor communities. He has led and advised on many fundraises, including: grant; EIS and SEIS High Net Worth Investors; Venture Capital Trust; crowdfunding; ‘follow-ons’; Series A; ‘new’ such as, revenue-based funding; and all forms of debt.
Richard is a trained mentor and coach and able to challenge and win trust at the same time. He has designed and delivered incubator and accelerator structures and programmes.
He founded and runs Realise Capital, a strategic financial and growth practice, is a chartered accountant (FCA) and previously has had roles as co-founder, CEO and corporate finance director. He has seen and had to deal with most situations that arise on a growth journey and can be hands on if the need arises. He has supported more than 75 ambitious founders to achieve exits in excess of £150 million and raise investment in excess of £25 million.
Amelia is a Senior Growth Architect at BCG Digital Ventures. She has more than five years’ experience building and scaling numerous B2B and B2C tech startups in the UK, US, Dubai and France. She has also worked with some of the world’s largest corporates to accelerate their marketing, sales and e-commerce efforts.
Her capabilities include competitive market intelligence, data-driven marketing experiments, analytics, go-to-market strategies, proposition development, digital marketing, and creating martech stacks across traditional and digital channels. Prior to BCG Digital Ventures, Amelia was a Growth Strategy Consultant at Manifesto Growth and Head of Brand and Partnerships at TRIBE.