https://www.selleckchem.com/products/vh298.html A novel transparent conductive conductor composed of a silver nanowire (AgNW) network and MoOx on a flexible polyethylene terephthalate (PET) substrate, with contemporaneously improved adhesion and reduced resistivity, is prepared using the full-solution process without high-temperature annealing. Under the optimized conditions, a MoOx/AgNW/MoOx multilayer is achieved, which shows much superior optoelectronic performance to that obtained from ITO with a high optical transmittance of 89.2% and a low sheet resistance of ∼12.5 Ω/sq. Unlike pure AgNW films, the sheet resistance is little changed after the tape and ultrasonication tests, illustrating a very strong adhesion to the PET substrate after the encapsulation of MoOx. Moreover, the multilayer film exhibits excellent stability to resist mechanical bending and acid damage. In addition, the successful implementation of the flexible transparent heater demonstrates the practical application value of the electrode.After sufficient doses are manufactured and logistical barriers are reduced, convincing an overwhelming majority of people to receive a COVID-19 vaccination may be the next major challenge during this pandemic. A group of experts recently proposed strategies that have compelling rationales and are well grounded in behavioral science. However, their approaches may sometimes be unacceptable, impractical, and/or unsuccessful. Therefore, other strategies will be greatly needed to address vaccine hesitancy. The present commentary offers 8 additional promising approaches forming a framework known as PANDEMIC. This acronym stands for the following strategies presumptive language, asking for advice, norms on an anonymous level, description of favorable attributes, emphasizing clinicians' own experiences, mandated choice, images, and communication of risk. Each of the strategies is discussed in turn. Many of the proposed strategies have empirical support for achieving de