Author: Jesus Acapulco

Affiliation: University of Bern, CH

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Aquatic Palaeoecology specializes in the analysis of biotic remains in lake sediments using palaeoecological and geochemical approaches. This allows the reconstruction of past environmental changes (e.g. climatic change, eutrophication) and ecosystem processes (e.g. changing carbon sources for food webs, methane cycling in lakes). The aim of these studies is to assess how environments and ecosystems responded to natural and human-induced pressures in the past which, in turn, provides a basis for assessing their future response to environmental change.

Affiliation: École Polytechnique Fédérale de Lausanne, CH

Keywords: Organometallic chemistry, synthetic methodology, homogeneous catalysis, reaction mechanism
Bio-mimetic and bio-speculated coordination chemistry

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Xile Hu (胡喜乐) was born in 1978 in a small village in Putian, southeastern China. He studied chemistry at Peking University and obtained a B.S. degree in June 2000. Shortly thereafter, he moved to the United States and began his doctoral study under the guidance of Prof. Karsten Meyer at the University of California, San Diego. His dissertation research focused on the coordination chemistry of tripodal N-heterocyclic carbene ligands. After receiveing a Ph.D. degree in inorganic chemistry in December 2004, he became a postdoctoral scholar in the group of Prof. Jonas C. Peters at the California Institute of Technology in February 2005. At Caltech, he worked on the development of molecular hydrogen evolution catalysts.

In July 2007, he was appointed as a tenure-track assistant professor of chemistry in the Institute of Chemical Sciences and Engineering at the École Polytechnique Fédérale de Lausanne (EPFL) in Switzerland. He is the founder and director of the Laboratory of Inorganic Synthesis and Catalysis. His laboratory is developing catalysts made of earth-abundant elements for chemical transformations pertinent to synthesis, energy, and sustainability. He was promoted to associate professor in January 2013 and full professor in June 2016.

Affiliation: University of Twente, Enschede, NL

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Affiliation: University College London, UK

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Affiliation: ETH Zurich, CH

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My research addresses the interface between plants and their environment. The goal of my work is to understand how plants function in the context of their environment and to reveal how plants shape the provision of ecosystem goods and services that human societies depend on.

Affiliation: Uppsala University, SE

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Our group is a computational (bio)chemistry group, located in the Structural Biology Program of the Department of Cell and Molecular Biology at Uppsala University. Our research programme is highly interdisciplinary, using the tools of chemical physics to understand the chemical basis for complex biological and mechanistic problems.

Affiliation: Max Planck Institute for Nuclear Physics, Heidelberg, DE

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Affiliation: University of Bonn, UK

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Affiliation: University of Liverpool, UK

Keywords: Earth, Ocean and Ecological Sciences

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Affiliation: University of Utrecht, NL

Keywords: Experimental Particle Physics

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The research of my group at Utrecht University focuses on the measurement of heavy-flavour production in collisions of high energetic atomic nuclei in the ALICE experiment at the CERN Large Hadron Collider (LHC). The LHC particle accelerator allows to create and study a novel state of matter, the Quark-Gluon Plasma (QGP) under controlled laboratory conditions. The QGP is predicted by the fundamental theory of strong interactions and is characterized by an equilibrated system of liberated quarks and gluons that are the constituents of atomic nuclei. In cosmology, it is believed that the early expanding universe consisted of such plasma approximately 10 microseconds after the Big Bang. Little is known about this peculiar state of matter and my group studies this fascinating period in cosmological evolution in more detail.