Conferences - Seminars

22FEB
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  16:15-17:30 BCH 2201

There is enormous potential to use microalgae as feedstocks for everything from recombinant proteins and high value chemicals to biofuels, but to implement this technology in a sustainable and economic manner, it will be necessary to optimize many parameters, and metabolic engineering strategies will be essential. However, in comparison with the well-developed molecular biology tools ... Read more about "Chemical Engineering Seminar - Thinking outside the flask - how to do something useful with algal metabolism"
By Prof. Alison Smith, Department of Plant Sciences, University of Cambridge ...
26FEB
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  17:15-18:15 BCH 2218

The four dNTPs (dATP, dTTP, dCTP, and dGTP) are the building blocks of DNA. A balanced supply and a correct overall concentration of dNTPs are key prerequisites for faithful genome replication. These requirements, along with the fact that the concentrations of dNTPs fluctuate during the cell cycle, mean that the production of dNTPs must be ... Read more about "dNTPs and maintenance of genome stability"
By Professor Andrei Chabes Dept. of Medical Biochemistry and Biophysics Umeå ...
27FEB
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  15:00-16:00 CE 06

Energy density and cost of Li-ion batteries (LIBs) based on conventional intercalation compounds are closely approaching their limits. The reliance of conventional cathodes on the use of toxic metals additionally endangers health and safety of miners in developing countries. Conversion-type active materials offer an opportunity to double energy stored in LIBs, reduce their cost by ... Read more about "Beyond Lithium-Ion: Conversion Electrodes, Solid State and Aqueous Batteries"
27FEB
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  15:00-16:00 CE 1 6

Energy density and cost of Li-ion batteries (LIBs) based on conventional intercalation compounds are closely approaching their limits. The reliance of conventional cathodes on the use of toxic metals additionally endangers health and safety of miners in developing countries. Conversion-type active materials offer an opportunity to double energy stored in LIBs, reduce their cost by ... Read more about "Chemical Engineering Seminar - Beyond Lithium-Ion: Conversion Electrodes, Solid State and Aqueous Batteries"
By Prof. Gleb Yushin, School of Materials and Engineering, Georgia Institute ...
28FEB
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  16:00-17:00 Zeuzier, I17 4 K2

ChE-605 - Highlights in Energy Research seminar series Metal–organic frameworks (MOFs) are an emerging class of solid-state materials built up from metal-based nodes and organic linkers. They exhibit permanent porosity and unprecedented surface areas which can be readily tuned through coordination chemistry at the inorganic node and/or organic chemistry at the linkers. The high porosities, ... Read more about "Programmable Smart Bio-Inspired Sponges"
By Prof. Omar K. Farha
Department of Chemistry,
Northwestern University,
Evanston ...
01MAR
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  16:15-17:30 BCH 2201

Metal–organic frameworks (MOFs) are an emerging class of solid-state materials built up from metal-based nodes and organic linkers. They exhibit permanent porosity and unprecedented surface areas which can be readily tuned through coordination chemistry at the inorganic node and/or organic chemistry at the linkers. The high porosities, tunability, and stability are highly attractive in the ... Read more about "Chemical Engineering Seminar - Programmable Smart Bio-Inspired Sponges"
By Prof. Omar K. Farha, Department of Chemistry, Northwestern University, USA.
22MAR
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  16:15-17:30 BCH 2201

We are developing tools of “biofabrication” that enable facile assembly of biological components within devices, including microelectronic devices, that preserve their native biological function. By recognizing that biological redox active molecules are a biological equivalent of an electron-carrying wire, we have developed biological surrogates for electronic devices, including a biological redox capacitor that enable bi-directional ... Read more about "Chemical Engineering Seminar - Towards Electrogenetics: integrating biofabrication, synthetic biology, and microelectronics"
By Prof. William E. Bentley, Fischell Department of Bioengineering, University of ...
26MAR
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  16:15 SV.1717

The Ferrell lab studies signal transduction and cell cycle regulation, mainly focusing the spatial and temporal regulation of mitotic entry and exit. They explore how the individual proteins that regulate these processes work together in circuits, generating reliable systems-level behaviors, by using quantitative experimental approaches, modeling, and theory. Much of their work make use of ... Read more about "Trigger waves in cell signalling"
By Prof. James Ferrell, Prof. of Chemical and Systems Biology, Professor ...
28MAR
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  16:00-17:00 Zeuzier, I17 4 K2

ChE-605 - Highlights in Energy Research seminar series Access to clean water along with sustainable energy and the protection of the environment are probably the greatest challenges of our society but also a unique opportunity to reshape our technology landscape. Major molecular separation issues underpin these areas. Take for instance CO2 capture: here, one wishes ... Read more about "Approaches to porous materials development to address separation challenges"
By Dr. Camille PETIT
Department of Chemical Engineering,
Barrer Centre, Imperial ...
28MAR
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By Prof. Clément Mazet, University of Geneva
https://www.unige.ch ...
10MAY
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  16:15-17:30 BCH 2201

Our research employs electrochemistry as the primary synthetic tool to fabricate a variety of solid state materials as thin-film type electrodes and catalysts. These materials are selected for use in electrochemical and photoelectrochemical cells that produce fuels, building block chemicals, and clean water using renewable energy sources. We develop electrodeposition-based synthesis strategies to design and ... Read more about "Chemical Engineering Seminar - Electrochemical and Photoelectrochemical Water Splitting, Biomass Conversion, and Desalination"
By Prof. Kyoung-Shin Choi, Department of Chemistry, University of Wisconsin-Madison, USA.
24MAY
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  16:15-17:30 BCH 2201

Identification of the active catalytic site and design of catalysts with 100% atom efficiency has been a long-standing goal in heterogeneous catalysis. A promising approach to reaching this goal through the controlled preparation of isolated single-atom heterogeneous catalysts has emerged in the recent literature. For catalytic metals, atomic dispersion affords better utilization, different (often better) ... Read more about "Chemical Engineering Seminar - Single Metal Atoms as Game-Changers in Heterogeneous Catalysis"
By Prof. Maria Flytzani-Stephanopoulos,  Department of Chemical Engineering, Tufts University, USA.
28MAY
  16:15 SV 1717

The Bonger lab combines organic chemistry with molecular biology and biochemistry to target and answer biological questions related to autoimmune- and protein misfolding diseases. Active projects include Coordination-Assisted Bioorthogonal Chemistry, Selective targeting of autoreactive B-cells and Chemoenzymatic subcellular protein labeling. Read more about "TBA"
By Dr. Kimberley Bonger, Radboud University, Netherlands

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