BioLabIda COMPANY LIMITEDf386825a-978a-ef11-8a6a-6045bd1de1af_CompanyLogo_21032025

BioLabIda COMPANY LIMITED

Company

Our company was established in 2020 in Hong Kong, specialising in developing novel biomedical research equipment. Currently, we focus on the R&D work of a real-time bacterial growth monitor in liquid culture, to eliminate the need for conventional spectrophotometers. Beyond creating equipment, we're building a comprehensive laboratory ecosystem designed to accelerate biomedical research step by step. We envision a future where breakthroughs occur more rapidly, research outcomes improve, and the global scientific community thrives on innovative advancements.

Description

BioLabIda (pronounced as /baɪɒlə‘bi:də/), is a Hong Kong-based technology startup forging the future of biological scientific discovery. We not only develop precision apparatus to streamline experiments but also engineer next-generation equipment that addresses critical research challenges. With an unwavering commitment to excellence and a passionate team, we are poised to revolutionize the field of biomedicine.

BioLabIda COMPANY LIMITEDProductImg1f386825a-978a-ef11-8a6a-6045bd1de1af_ProductImage1_21032025
The Bacterial Growth Monitor revolutionises bacterial culture monitoring in biomedical research labs by providing in situ, real-time tracking of bacterial growth in liquid culture, eliminating the need for conventional spectrophotometers. This product dramatically simplifies the workflow, allowing researchers to focus on science rather than logistics. With this product, scientists can expect precise data collection that enhances experimental outcomes and accelerates discoveries.

Technology

Traditional desktop spectrophotometers measure the optical density of bacterial culture using a specific wavelength. In contrast, our innovative design incorporates a spectrum chip that replicates this measurement process with enhanced efficiency. The compact size of the spectrum chip enables us to redesign the electronic system, making the device portable and adaptable to the culture environments. By integrating an IoT framework, the system allows for real-time, remote monitoring of bacterial growth. Moreover, the spectrum chip provides the capability to measure not only optical density but also other critical parameters simultaneously. This versatility extends the device's applications beyond bacterial culture to other use cases, such as suspension cell cultures, etc.