Chris Adam
Chris Adam, Purdue University
Articles
Researchers develop approach to make N95 masks last longer
A Purdue University research team is working on extending the shelf life for an N95 mask, a crucial piece of personal protective equipment (PPE), by making the elastic band last longer.
Polymer manufacturing technique developed vehicle, packaging production
Purdue University researchers have developed a new way for manufacturers to use nanocellulose that can utilize sustainable cellulose nanomaterials for use in vehicles, food packaging and other manufactured items.
Cloud efficiency platform developed for databases
A Purdue University data science and machine learning professor has developed OPTIMUSCLOUD, which is designed to give cloud efficiency to organizations and users for data-intensive situations like the COVID-19 pandemic.
System designed to improve database performance for health care, IoT
Purdue University scientists developed a system called SOPHIA designed to help users reconfigure databases for diverse applications ranging from metagenomics to high-performance computing (HPC) to IoT.
Technologies developed to make 3D cameras easier to use
A Purdue University professor who has developed new technologies aimed at making 3D cameras easier to use by compressing 3D camera files and automating focus and exposure settings.
Mixed-signal hardware security thwarts electromagnetic attacks
Purdue researchers created hardware technology that uses mixed-signal circuits to embed critical information to stop potential computer attacks.
Cybersecurity tool uses machine learning, honeypots to stop attacks
Purdue University researchers have developed a cybersecurity tool designed to stop cyber attacks using supervised machine learning, unsupervised machine learning and rule-based learning
Wearable power generator for IoT devices developed
Researchers at Purdue University have created technology designed to address the thickness issue for wearable power generation for Internet of Things (IoT) devices.
Hybrid technique could produce stronger nickel for manufacturing applications
Purdue University researchers have created a hybrid technique to fabricate a stronger form of nickel that could be used for automotive, medical and manufacturing applications.