講者:Prof. Daniel F. Shantz
演講題目:Designing Hybrid Materials for Chemical Transformations and Separations
演講時間:6月24日(三) 上午10:20 AM
演講地點:化工館工223會議室
主持人:王勝仕教授
Designing Hybrid Materials for Chemical Transformations and Separations
Daniel F. Shantz
Chemical and Biomolecular Engineering, Tulane University
This talk will provide an overview of my laboratory’s efforts designing hybrid materials for achieving chemical transformations and separations. After an overview of how the materials are made, the talk will describe our work using these tethered groups as solid base catalysts. The effect of ligand density, spacing, and chemistry will be assessed as it relates to the catalytic activity of these ligands for reactions including the Henry reaction and synthesis of methyl esters. I will then summarize the recent efforts of my lab in developing materials that achieve selective rejection or capture of oxygenate species from solution. The overarching theme is that by suitably designing an organic layer on a ceramic support it is possible to achieve selective capture or rejection. Future prospects in this area will be discussed.
[:en]Speaker:Prof. Daniel F. Shantz
Topic:Designing Hybrid Materials for Chemical Transformations and Separations
Date:6月24日(三) 上午10:20 AM
Location:化工館工223會議室
Host : Prof. Sheng-Shih Wang
Designing Hybrid Materials for Chemical Transformations and Separations
Daniel F. Shantz
Chemical and Biomolecular Engineering, Tulane University
This talk will provide an overview of my laboratory’s efforts designing hybrid materials for achieving chemical transformations and separations. After an overview of how the materials are made, the talk will describe our work using these tethered groups as solid base catalysts. The effect of ligand density, spacing, and chemistry will be assessed as it relates to the catalytic activity of these ligands for reactions including the Henry reaction and synthesis of methyl esters. I will then summarize the recent efforts of my lab in developing materials that achieve selective rejection or capture of oxygenate species from solution. The overarching theme is that by suitably designing an organic layer on a ceramic support it is possible to achieve selective capture or rejection. Future prospects in this area will be discussed.