IMPROVE R&D PRODUCTIVITY and enable new discoveries
DigitalGlassware® transforms chemistry into code. It uses Artificial Intelligence (AI) and Machine Learning (ML) to make better molecules and provide insights never before available.
Create reproducible recipes
The process starts with creating a 'recipe' - the name we give to our deeper, context rich chemistry protocol - in our cloud-based DigitalGlassware®.
DigitalGlassware® encodes recipes, steps and operations. As recipes are recorded, writing standards are set that make them easily reproducible.
COLLECT HIGH FIDELITY DATA
The process continues by collecting data about what is happening in the flask, fume hood and the lab. Device X and its sensors work right inside the flask.
DigitalGlassware® provides a guide and records findings in real time, enabling the synthesis to be tracked as it unfolds, along with what is happening in the lab context. As Device X, DigitalGlassware® and the sensors are all at work, the data is stored in the DeepMatter™ cloud.
A unique part of DigitalGlassware® is the time-course data collection approach. Actions during your DigitalGlassware® Recipe Run are time-stamped against the sensor data, providing context that would otherwise be missing. Correlation with reaction outcomes provides a structured framework for deeper analysis
MINE VALUABLE INSIGHTS
Connect to multiple sources
DeviceX is a self-contained multi sensor device that autonomously monitors chemical reactions in the reaction flask. It communicates with a separate DigitalController device that collects and transmits sensor data ready for subsequent analysis and data mining in the deepmatter (dm) cloud. As the sensor data is uploaded immediately to the cloud it is available in real-time from our RecipeRunner tablet application or DigitalGlassware® web browser application. DeviceX is USB rechargeable and available as part of the DigitalGlassware® package.
- Ambient Pressure
- Ambient Temperature
- IR Temperature Sensor
- UVA-UVB Indicator
- Multimedia Video
- Stir Rate Sensing (Derived from Magnetometer)
A novel flask adapter allows the device to be placed into a variety of flask sizes with a neck size of B19 or B24. Other neck sizes can also be supported.
The flask adapter can slide on and off the device without any disassembly required.
Data over USB or Bluetooth
DeviceX transmits the sensor data over USB or Bluetooth to a digital controller which is a paired, smart collection device. The DigitalController and DeviceX together monitor the data in real-time and automate the collection of data for analysis in the deepmatter cloud.
Bluetooth connectivity is used to transmit all of the sensor data except video, which requires a separate USB link to the DigitalController.
Battery and USB power
Powered by an internal rechargeable 2000mAh Li-Ion battery, the sensor device can operate for up to 6-8 hours and can be also charged during longer experiments using the USB connection.
A new lens on data
Read more about DigitalGlassware® in our blog section:
This article highlights the latest release of DigitalGlassware® R2.8.0. The aim of R2.8.0 will be to strengthen and improve the data records captured using the platform to facilitate better insights and analysis.
The addition of outcomes to a run in DigitalGlassware® (and structuring against sensor data) are needed to contextualise and realise the true value of a reaction data set i.e. was this a good data set or a bad data set? This story details the recent update to outcomes, placing the value they provide to data sets and the ability to set Point in Time values.
DeepMatter does more than collect and structure sensor data, we derive insights from your data that you may otherwise miss. An example would be from the DeviceX camera which we can use to quantify colour change and other events in a time-course manner
To facilitate the capture of data from the lab DeepMatter provides several bespoke sensor capturing offerings that come integrated with DigitalGlassware® and are ready to start recording data out of the box: DeviceX and the EnvironmentalSensor
Read our latest press releases here:
DeepMatter announces plans to interface its DigitalGlassware™ platform with the Waters Corporation UNIFI™ Scientific Information System, enhancing the quality and accessibility of data for chemists worldwide.
DeepMatter announces collaboration with the Cancer Research UK Beatson Institute within its Drug Discovery Unit to enhance the reproducibility of its chemistry and accelerate drug discovery
DeepMatter announces collaboration with AstraZeneca focused on improving productivity of compound synthesis using digital technologies enabled with machine learning and artificial intelligence
DeepMatter and the Institute of Process Research and Development (iPRD) at the University of Leeds, have commenced a project to integrate DeepMatter's technology platform, DigitalGlassware™ within the iPRD's laboratories