Leif K. McGoldrick scite author profile

The research presented here shows a bridge between biochemistry and cryptography. Enzyme-based assays were used in a new methodology linked to ciphers and cipher systems. Three separate enzyme assays, alkaline phosphatase (ALP) (E.C. 3.1.3.1), lysozyme (E.C. 3.2.1.17), and horseradish peroxidase (HRP) (E.C. 1.11.1.7), were used to create a cipher key in order to encrypt a message. By choosing certain parameters for one’s experiment that are performed in the same way as a person receiving the message, correct encryption and decryption keys would be produced, resulting in a correct encryption and decryption of a message. It is imperative that both parties perform the same experiment under the same conditions in order to correctly interpret the message. Bioaffinity-based assays, in particular enzymatic assays, provide a specific, yet flexible mechanism to use for the encryption of messages. Because of the nature of this process there are a multitude of sets of parameters that may be chosen, each of which would result in a different key being produced, heightening the security and the robustness of the method. This paper shows that by using this concept of forming encryption keys using a bioaffinity-based approach, one is able to properly encrypt and decrypt a message, which could be viable for other biochemically based techniques.

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Recent Advances in Noninvasive Biosensors for Forensics, Biometrics, and Cybersecurity

McGoldrick

Halámek

2020

Sensors

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Recently, biosensors have been used in an increasing number of different fields and disciplines due to their wide applicability, reproducibility, and selectivity. Three large disciplines in which this has become relevant has been the forensic, biometric, and cybersecurity fields. The call for novel noninvasive biosensors for these three applications has been a focus of research in these fields. Recent advances in these three areas has relied on the use of biosensors based on primarily colorimetric assays based on bioaffinity interactions utilizing enzymatic assays. In forensics, the use of different bodily fluids for metabolite analysis provides an alternative to the use of DNA to avoid the backlog that is currently the main issue with DNA analysis by providing worthwhile information about the originator. In biometrics, the use of sweat-based systems for user authentication has been developed as a proof-of-concept design utilizing the levels of different metabolites found in sweat. Lastly, biosensor assays have been developed as a proof-of-concept for combination with cybersecurity, primarily cryptography, for the encryption and protection of data and messages.

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Non‐traditional encryption methods: Moving toward electrochemical cryptography

Biddle

McGoldrick

Halámek

2021

Electrochemical Science Adv

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Cybersecurity and encryption are critical in diverse applications from simple emails to high‐priority government secrets. It is best accomplished by an “unbreakable” cipher or one which is only decrypted by those with a matching cipher key to the initial encryption. Recent advances have incorporated quantitative data as an asymmetric encryption key. With this method, the sender and receiver each run the same experiment to encode and decode the message of interest. Experimental asymmetric keys can come from DNA, enzymatic assays, and most recently, electrochemical data. This manuscript summarizes recent advances in cryptography and outlines new electrochemical techniques.

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