Unsere Gruppe organisiert über 3000 globale Konferenzreihen Jährliche Veranstaltungen in den USA, Europa und anderen Ländern. Asien mit Unterstützung von 1000 weiteren wissenschaftlichen Gesellschaften und veröffentlicht über 700 Open Access Zeitschriften, die über 50.000 bedeutende Persönlichkeiten und renommierte Wissenschaftler als Redaktionsmitglieder enthalten.
Open-Access-Zeitschriften gewinnen mehr Leser und Zitierungen
700 Zeitschriften und 15.000.000 Leser Jede Zeitschrift erhält mehr als 25.000 Leser
Terrence J. Collins
Until recent times, chemical processes and products were commercialized solely on the strength of high technical and cost performances. Today we recognize the sustainability requires that health, environment and fairness performances also be integrated into the value proposition of chemical products and processes. The foundational purpose of any field of chemistry that proposes to make the chemical enterprise sustainable must surely be, first and foremost. to protect the plenitude of life from the downsides of commercial chemicals. Such a purpose is more important in its field distinguishing qualities than advancing society by adding to the upsides of chemical commerce through the invention of less hazardous products and processes. Today, the collective chemical enterprise represents an existential threat to the sustainability of our civilization that chemists little understand. This threat is arguably even faster acting than climate change and originates primarily (to the best of our understanding) in the endocrine disrupting properties of many chemicals, including some everydayeverywhere chemicals. In this presentation, I will (i) cover facts that identify endocrine disruption as an existential threat to life on earth (ii) show how endocrine disruptors can be identified experimentally, and (iii) touch on the iterative design process that we have used in the Institute for Green Science that I direct to develop TAML and NewTAML catalysts to destroy endocrine disruptors in water. The technical performance of NewTAMLs is unprecedented across both chemistry and biology and has given birth to the new field of Sustainable Ultradilute Oxidation Catalysis (SUDOC).