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Intermolecular interactions revisited-Flaws in the fabric and applications to lower-dimensional structures. This project aims to capitalise on recent developments, that have shown that previously accepted theories are deeply flawed, in various applications in fundamental physics and in unsolved problems in biology that involve electromagnetic fields. Interactions driven
by electromagnetic fluctuation forces, and real photon exchange, between molecules will be investigated. The project will inv ....Intermolecular interactions revisited-Flaws in the fabric and applications to lower-dimensional structures. This project aims to capitalise on recent developments, that have shown that previously accepted theories are deeply flawed, in various applications in fundamental physics and in unsolved problems in biology that involve electromagnetic fields. Interactions driven
by electromagnetic fluctuation forces, and real photon exchange, between molecules will be investigated. The project will investigate how dispersion interactions change in mesoscopic pores, in electrolytes, and at finite temperatures. Applications involve
catalysis, molecular formation, and quantum logic. The project also aims to develop a unified theory for energy and charge transfer, relevant for photosynthesis and the way biological molecules transfer information.Read moreRead less
Investigating Thermal And Possible Non-thermal Effects Of Radiofrequency Radiation In Brain Tissue
Funder
National Health and Medical Research Council
Funding Amount
$245,681.00
Summary
There are ongoing concerns over the possible harm from the prolonged use of mobile phone handsets. The WHO have issued a research agenda to address these concerns. This study aims to study possible mechanisms at the cellular level that was identified as a high priority research need. It aims to find out whether cellular changes that could be harmful follow as a result of slight heating effects within tissue, or whether some other, non-thermal, mechanisms may be involved.