Libor Kovarik
Libor Kovarik is a materials scientist in the Physical and Computational Sciences Directorate at PNNL. Since joining PNNL, his work has focused predominantly on materials for heterogenous catalysis.
Krista Kulesa
Krista Kulesa is an electrochemist and Linus Pauling Distinguished Postdoctoral Fellow in the Catalysis Science group at PNNL.
Zezhen (Jay) Cheng
Zezhen (Jay) Cheng is a chemist at Pacific Northwest National Laboratory.
SYSTEMS AND METHODS FOR MONITORING ORGANISMS WITHIN AN AQUATIC ENVIRONMENT
Systems and methods for monitoring organisms within an aquatic environment are described. According to one aspect, an injectable acoustic transmission device includes a body configured to be injected inside of an organism, a transducer within the body and configured to convert a plurality of electrical signals into a plurality of data transmissions which are transmitted externally of the body and the organism, a plurality of circuit components within the body and configured to use electrical energy from a power source to generate the electrical signals which are provided to the transducer, and wherein the transducer defines an internal volume and at least one of the circuit components is provided within the internal volume of the transducer.
Systems and Methods for Monitoring Organisms Within an Aquatic Environment
Systems and methods for monitoring organisms within an aquatic environment are described. According to one aspect, an injectable acoustic transmission device includes a body configured to be injected inside of an organism, a transducer within the body and configured to convert a plurality of electrical signals into a plurality of data transmissions which are transmitted externally of the body and the organism, a plurality of circuit components within the body and configured to use electrical energy from a power source to generate the electrical signals which are provided to the transducer, and wherein the transducer defines an internal volume and at least one of the circuit components is provided within the internal volume of the transducer.