Biotech startup HypeSound has secured €1.2 million in pre-seed funding to enhance its bioproduction technology. The company, based in Italy, aims to develop its So’Sweep technology, which uses an acoustic modulation system to improve microbial growth. The newly acquired funds will be used to establish a laboratory in Perugia and broaden research into yeasts and bacteria alongside microalgae. The investment round was backed by Eatable Adventures, CDP Venture Capital, Nextup, Vento Ventures, Athena FH, and Ulixes Capital. As industrial bioproduction evolves, HypeSound positions itself as a key player in the field with its sound-based approach.
HypeSound’s recent funding aligns with a growing trend of integrating acoustic technology into biological processes. Similar efforts have been observed in other biotech companies, which have explored sound waves’ effects on cellular growth. However, HypeSound differentiates itself by focusing on low-frequency sound waves for microbial cultivation, a method that fewer competitors have pursued. The company has also received recognition from the European Innovation Council, further validating its approach. Compared to past advancements in bioproduction, HypeSound’s technique presents an alternative to traditional biochemical methods, potentially reducing energy consumption and improving efficiency.
What does the funding mean for HypeSound?
The company plans to invest the funding in strengthening its research and development capabilities. A new laboratory in Perugia will serve as the center for technological development and testing. The expansion will enable the company to explore new types of microorganisms, including yeasts and bacteria, broadening its scope beyond microalgae.
In addition to research expansion, the funding will allow HypeSound to refine So’Sweep technology further. This technology aims to enhance industrial bioproduction by leveraging low-frequency sound waves to optimize microbial growth. The company expects this approach to provide a more sustainable production method across various industries.
How does HypeSound’s technology work?
HypeSound employs low-frequency sound waves to enhance microbial processes, aiming to make bioproduction more scalable and resource-efficient. The company integrates advanced algorithms into its system, allowing for improved biological productivity while reducing resource consumption. This approach is positioned as an alternative to conventional methods that often require large amounts of energy and raw materials.
CEO Matteo Crucito emphasized the importance of combining natural processes with technological advancements, stating,
“Our mission is to combine nature’s intelligence with technological innovation.”
He also highlighted the significance of this funding round, noting,
“This funding round will allow us to further strengthen our product, expand our team to enhance R&D, and accelerate our expansion into key markets. Our goal is to make bioproduction more sustainable and efficient, and this investment brings us one step closer to that vision.”
HypeSound has gained industry recognition, receiving the Seal of Excellence from the European Innovation Council. The company also completed the FoodSeed accelerator program under CDP Venture Capital SGR’s National Network, positioning itself among innovative food tech startups. With this support, it aims to increase its impact on microbial-based industrial production.
Advancements in bioproduction technology continue to reshape industries reliant on microbial growth. HypeSound’s use of sound waves presents a novel approach that could complement or replace traditional biochemical methods. While its technology is still being refined, the potential benefits include improved efficiency and sustainability. However, its success will depend on how effectively it can scale its solutions. If proven viable on a larger scale, this method may find applications in pharmaceuticals, agriculture, and sustainable food production. The expansion of its research into yeasts and bacteria could further diversify its contributions, potentially bringing new solutions to multiple sectors.
