Date
2024
details
Inspek Solutions
• Formal trends research
• Product system architecture
• Preliminary industrial design & 3D renderings
Embodying Inspek's technology through a product that evokes accurate data analysis.
Inspek develops next-generation sensors for monitoring biological and chemical processes in real time. The device can analyze the composition of a medium using Raman spectroscopy - a technology based on light scattering to analyze molecular vibrations and provide information on a substance's chemical composition.
Units takes part in the design of the sensor, ensuring it can be used in a variety of ways and meets requirements for constrained environments such as bioreactors. Studying the modularity of uses linked to existing processes in laboratories, we design a product and its architecture. We draw our inspiration from photographic sensor aesthetics - accurate and miniaturized - fitting it into a receptacle shape, to evoke data collection.
The result is a coherent product that evokes simplicity of use and blends into the lab environment. Materials have been chosen to meet the challenges of reliability and miniaturisation of the technologies involved in this product.
Inspek develops next-generation sensors for monitoring biological and chemical processes in real time. The device can analyze the composition of a medium using Raman spectroscopy - a technology based on light scattering to analyze molecular vibrations and provide information on a substance's chemical composition.
Units takes part in the design of the sensor, ensuring it can be used in a variety of ways and meets requirements for constrained environments such as bioreactors. Studying the modularity of uses linked to existing processes in laboratories, we design a product and its architecture. We draw our inspiration from photographic sensor aesthetics - accurate and miniaturized - fitting it into a receptacle shape, to evoke data collection.
The result is a coherent product that evokes simplicity of use and blends into the lab environment. Materials have been chosen to meet the challenges of reliability and miniaturisation of the technologies involved in this product.
Inspek develops next-generation sensors for monitoring biological and chemical processes in real time. The device can analyze the composition of a medium using Raman spectroscopy - a technology based on light scattering to analyze molecular vibrations and provide information on a substance's chemical composition.
Units takes part in the design of the sensor, ensuring it can be used in a variety of ways and meets requirements for constrained environments such as bioreactors. Studying the modularity of uses linked to existing processes in laboratories, we design a product and its architecture. We draw our inspiration from photographic sensor aesthetics - accurate and miniaturized - fitting it into a receptacle shape, to evoke data collection.
The result is a coherent product that evokes simplicity of use and blends into the lab environment. Materials have been chosen to meet the challenges of reliability and miniaturisation of the technologies involved in this product.
• Formal trends research
• Product system architecture
• Preliminary industrial design & 3D renderings
Inspek develops next-generation sensors for monitoring biological and chemical processes in real time. The device can analyze the composition of a medium using Raman spectroscopy - a technology based on light scattering to analyze molecular vibrations and provide information on a substance's chemical composition.
Units takes part in the design of the sensor, ensuring it can be used in a variety of ways and meets requirements for constrained environments such as bioreactors. Studying the modularity of uses linked to existing processes in laboratories, we design a product and its architecture. We draw our inspiration from photographic sensor aesthetics - accurate and miniaturized - fitting it into a receptacle shape, to evoke data collection.
The result is a coherent product that evokes simplicity of use and blends into the lab environment. Materials have been chosen to meet the challenges of reliability and miniaturisation of the technologies involved in this product.