Simple Nudges for Better Password Creation

Recent security breaches have highlighted the consequences of reusing passwords across online accounts. Recent guidance on password policies by the UK government recommend an emphasis on password length over an extended character set for generating secure but memorable passwords without cognitive overload. This paper explores the role of three nudges in creating website-specific passwords: financial incentive (present vs absent), length instruction (long password vs no instruction) and stimulus (picture present vs not present). Mechanical Turk workers were asked to create a password in one of these conditions and the resulting passwords were evaluated based on character length, resistance to automated guessing attacks, and time taken to create the password. We found that users created longer passwords when asked to do so or when given a financial incentive and these longer passwords were harder to guess than passwords created with no instruction. Using a picture nudge to support password creation did not lead to passwords that were either longer or more resistant to attacks but did lead to account-specific passwords

A comprehensive review of the polymer-based hydrogels with electrochemically synthesized silver nanoparticles for wound dressing applications

Modernization and improvement of wound dressing materials is an important topic in biomaterials and biomedicine fields, as the traditional materials are inadequate and susceptible to bacterial infections. In recent times, polymer-based hydrogel materials have presented themselves as excellent candidates for new-generation wound dressings with improved properties, such as high sorption ability, good mechanical properties, and low adhesiveness. Additionally, cross linked hydrogel matrices serve as excellent carriers for controlled release of antibacterial agents, such as silver nanoparticles (AgNPs), which are preferred over conventional antibiotics due to multi-phase mechanism of action and low susceptibility to induce bacterial resistance. Their incorporation inside polymer matrices allows improvement of wound dressing properties and sustained protection against bacterial infection. Electrochemical methods for AgNPs synthesis are facile and green alternatives to chemical routes, allowing the formation of highly stable AgNPs with strong antibacterial effect. In this article, we aim to provide a comprehensive review of the existing research on the topic of electrochemically synthesized silver nanoparticles incorporated in polymer matrices with a special focus on the chitosan-based hydrogels as prospective materials for wound dressing applications