Understanding aromaticity in catalysis to unlock new opportunities
2021-05-03
(Press-News.org) Aromaticity, a concept usually used to explain the striking stability and unusual reactivity of certain carbon-based molecules, could inspire the design of new catalysts with novel uses, KAUST researchers have shown.
Chemists first came upon the anomalous behavior of aromatic molecules in the nineteenth century while studying benzene. The unexpected stability of this six-carbon cyclic structure comes down to its electrons.
In general, bonding electrons hold a specific pair of atoms together in a discrete chemical bond. But in benzene, six electrons form a delocalized ring across the molecule. A host of other molecules share this feature. "Many classic examples of organic and organometallic reactivity can be explained on this basis," says Théo Gonçalves, a research scientist in Kuo-Wei Huang's lab. "But although the concept is well known, there are limited practical chemical applications of aromaticity," he adds.
One area of practical application is in the field of catalysis. The Huang group recently developed an unusual family of catalysts called PN3(P) pincer complexes. In most catalysts, the central metal ion is where all the bond breaking and making takes place. In PN3(P) complexes, the pincer ligands around the metal can also be active participants in the catalytic process. "Our PN3(P) ligand platform enables catalytic applications beyond conventional systems where metal is the center of reactivity," Huang says.
As the team studied pincer complexes' catalytic behavior, they showed that a six-membered ring structure transiently forms during catalysis and that aromaticity was coming into play. "We have provided strong evidence that during the catalytic cycle, our catalysis benefits from the additional energy coming from aromatization of the ring," Gonçalves says. "Tuning the degree of aromatization will gently tune the reaction output."
The PN3(P) pincer family possesses high catalytic performance for reactions such as the selective hydrogen production from formic acid for reducing carbon dioxide (CO2) and for forming esters and imines. But the real value of the research could be from the new insights it generates into the role of aromaticity in catalysis, and the new horizons that open up as a result. "Prior to our work, the importance of the aromaticity was not highlighted in this field," Gonçalves says. "Fundamentally understanding aromatization and dearomatization will allow redesign of catalysts towards better performance and perhaps novel reactivity."
"Our discovery is not about identifying a new or better catalyst for a known reaction, but about opening a new field for unlimited new opportunities in the future," Huang adds.
INFORMATION:
ELSE PRESS RELEASES FROM THIS DATE:
2021-05-03
In material physics understanding how systems interact across the interfaces separating them is of central interest. But can physical models clarify similar concepts in living systems, such as cells? Physicists at the University of Geneva (UNIGE), in collaboration with the University of Zurich (UZH), used the framework of disordered elastic systems to study the process of wound healing - the proliferation of cell fronts which eventually join to close a lesion. Their study identified the scales of the dominant interactions between cells which determine this process. The results, published in the journal Scientific Reports, will allow better analysis of cell front behaviour, in terms of both wound healing and tumour development. In the future, this approach may offer personalised diagnostics ...
2021-05-03
Scientists are warning that drinking water supplies in parts of rural West Africa are being contaminated by lead-containing materials used in small community water systems such as boreholes with handpumps and public taps.
They analysed scrapings taken from the plumbing of 61 community water supply systems in Ghana, Mali and Niger. Eighty percent of the tested systems had at least one component that contained lead in excess of international guidance.
Lead is released into the water when the components corrode.
The study, by a research team from the University of Leeds, University of North Carolina at Chapel Hill and Boston University, also took samples of the water from those 61 water distribution systems, ...
2021-05-03
Migratory waterbirds are particularly exposed to the effects of climate change at their breeding areas in the High Arctic and in Africa, according to a new study published in Bird Conservation International. The research team came to this conclusion after modelling climatic and hydrological conditions under current and future climate scenarios (in 2050) and comparing the impact on the distribution of 197 of the 255 waterbird species listed under the Agreement on the Conservation of African-Eurasian Migratory Waterbirds (AEWA). The international team was led by Wetlands International, BirdLife International, and the British Trust for Ornithology, involved researchers from various universities, including McGill. The results suggest that investing more in habitat conservation in the wider ...
2021-05-03
A team of researchers led by Nanyang Technological University, Singapore (NTU Singapore) has developed a device that offers a quicker and less invasive way to seal tears and holes in blood vessels, using an electrically-activated glue patch applied via a minimally invasive balloon catheter.
This device could eventually replace the need for open or keyhole surgery to patch up or stitch together internal blood vessel defects.
After inserting the catheter into an appropriate blood vessel, the glue patch - nicknamed 'Voltaglue' - can be guided through the body to where the tear is located and then activated using retractable electrodes to glue it shut in ...
2021-05-03
Symptoms of health anxiety are common already during childhood and adolescence - and if the children do not receive the correct help, the anxiety can become a permanent problem with serious personal and socio-economic consequences. This is shown by a new research result from Aarhus University and the University of Copenhagen.
Ida is 11 years old. Six months ago, her grandmother died of cancer after a long illness and since then Ida has become more and more anxious that she too will get cancer and die. The anxiety can be triggered when she passes by a hospital or sees people who look ill. ...
2021-05-03
What would it be like to produce fertilizer in your own basement? Leguminous plants, like peas, beans, and various species of clover, obtain the organic nitrogen they need for their growth from symbiotic soil bacteria via specialized structures in their roots. A team led by the cell biologist Prof. Dr. Thomas Ott from the University of Freiburg's Faculty of Biology has now detected a factor in the root cells that the plants need for the initial contact with these so-called root-associated bacteria, which live in the soil. They discovered a protein found only in legumes called symbiotic formin 1 (SYFO1) and demonstrated the essential role it plays in symbiosis. Together with the molecular biologist Prof. Dr. Robert Grosse University of Freiburg's Faculty of Medicine and the evolutionary ...
2021-05-03
In a number of biological processes, iron-sulfur clusters play a vital role, where they act as cofactors to enzymes. Research published in Angewandte Chemie now shows that cubic clusters can support unusual bonding states. This study shows that the cluster copes well with a multiple bond between iron and nitrogen--a structural motif that may be involved in biological nitrogen fixation.
Clusters made of iron and sulfur atoms are essential cofactors for a number of enzymes, especially in biological processes involving electron transfer. As an example, nitrogen-fixing bacteria use iron-sulfur clusters to convert ...
2021-05-03
An international team of scientists from 20 countries identified 47 problems that hinder the successful prevention and elimination of the consequences of the tsunami. Based on the carried out analysis, the world's leading experts on natural hazards have outlined directions for further scientific research. The research group's review is published in a special issue of the "Frontiers in Earth Science".
The main problems identified in the review are related to the large gaps and uncertainties in knowledge about tsunami, the lack of well-documented observations, and imperfect methods of processing available information. One of the reasons is the lack of coordination of the efforts of those countries for which the study and prediction of tsunamis, forecasting the corresponding risks, and preparation ...
2021-05-03
Berlin, 3 May - In a new report, ALLEA, the European Federation of Academies of Sciences and Humanities, examines the potential of technical and policy measures to tackle science disinformation and calls for improved European exchange and coordination in this field.
While disinformation strategies are intoxicating public discourses in many fields, science disinformation is particularly dangerous to democratic governance and society at large. As highlighted by the ongoing pandemic, an undermining of trust in science poses a fundamental threat to political and individual decisions based on evidence and scientific knowledge.
Over ...
2021-05-03
Impaired bone health is among the most significant long-term consequences of hematopoietic stem cell transplantation (HSCT), a common therapy for patients with malignant and non-malignant haematological diseases.
To address this serious problem, the International Osteoporosis Foundation (IOF) expert Working Group on Cancer and Bone Disease has published a new Executive Summary of its authoritative state-of-the-art review. The review outlined the major factors affecting bone health in HSCT patients, and provided expert guidance for the monitoring, evaluation and treatment of bone loss in these patients. ...
LAST 30 PRESS RELEASES:
[Press-News.org] Understanding aromaticity in catalysis to unlock new opportunities
