Feb 22nd, He speaks using so many words. Consistent word vomit that convolutes the concepts being taught. He would always go at least 10 minutes over class time. If you need to leave the lecture early, this means you have extra work having to go back to his lecture recording.
Extremely knowledgable and intellectual, but not the best lecturer. Skip class? Test heavy. Jan 19th, D was good - he was excited to teach and hosted helpful exam review sessions. However, this was still the hardest and most demanding class I took. There were in class lectures, pre class lectures, bonus lectures, graded homework, and non-graded homework.
Lots of homework Accessible outside class Get ready to read. Dec 10th, Dieckmann lectured well and always offered help to students who needed it. Tests were frequent every weeks so staying on top of work in Gen Chem is important, but it isn't too hard to do well if you put the effort in.
Test heavy Clear grading criteria Lecture heavy. Dec 7th, They have changed the exam to free-response and MC, while last year it was all MC. IF you take it online, it doesn't matter who you take. But in person, take Professor Tony. He has the best!! Lots of homework Get ready to read Test heavy. Nov 23rd, Respected Graded by few things Lecture heavy.
All Rights Reserved. Dieckmann's and his lab's major contribution in the field of nanotechnology and CNT chemistry is the design and synthesis of peptides that noncovalently bind and functionalize CNTs.
These designed peptides constitute a new set of powerful tools for the manipulation and generation of new CNT properties. They have also published on the use of a new class of peptides, reversible cyclic peptides, for the dispersion and functionalization of single-walled CNTs.
These are being modified for applications from preparative purification of CNTs based on diameter, to control of CNT surfaces and architectures for materials applications. A third class of amphiphilic peptides—surfactant peptides—has been designed for the interrogation of individual amino acid interactions with CNT surfaces and their impact on CNT electronic properties.
Future directions involve the use of designed peptide-based molecules to create 3D architectures that incorporate both CNTs and other nanoparticles of interest e. Regents outstanding teaching award Hero. Baughman, Gregg R. Dieckmann, Rockford K. Draper, Inga H. Musselman, and Paul Pantano. Musselman, Ray H. Baughman, and Rockford K.
Biopolymers, 71 3 , - O71 Dalton, Ray H. Professional Preparation Ph. D - Chemistry University of Michigan - S - Chemistry University of Michigan - Research Areas Research Description Using an integrative approach, the Dieckmann Lab utilizes protein design to create simple model systems. Projects include: Bionanotechnology: designed protein motifs for the noncovalent functionalization of carbon nanotubes Thiolate-rich Zn II sites and alkyl transfer: how does protein environment control Zn II reactivity DNA-binding domains: probing the molecular basis of gene regulation and DNA repair.
Publications Samarajeewa, D. Chiu, C. Chiu, Chi-Cheng, Gregg R. Dieckmann, and Steven O. Biopolymers: Peptide Science 92 3 : Becraft, Eric J. Klimenko, and Gregg R. Dalton, Damian Aherne, Gregg R. Dieckmann, and Jonathan N. Biomacromolecules 9 2 : Journal of Physical Chemistry B 51 : Xie, Hui, Eric J. Becraft, Ray H. Baughman, Alan B. Dalton, and Gregg R.
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