Day: February 23, 2015

Distinguished Teaching Award Finalists Announced

by William G. Jackson CTL

The William G. Jackson Center for Teaching and Learning seeks input for its annual Distinguished Teaching Awards, which recognize outstanding contribution to the instructional mission of the University.

Based on more than 50,000 student rating of instruction responses, ten finalists have been identified for the 2015 awards. The selection committee is soliciting comments from students, staff, faculty and alumni to aid in its deliberation process.

The finalists for the two awards include:

Associate Professor/Professor
Associate Professor William Breffle (SBE)
Professor Mary Carol Friedrich (VPA)
Associate Professor William Kennedy (CLS)
Professor Gregory Odegard (ME–EM)
Professor Gordon Parker (ME–EM)

Assistant Professor/Lecturer/Professor of Practice
Lecturer Todd Arney (SoT)
Assistant Professor Joseph Bump (SFRES)
Assistant Professor Tarun Dam (Chem)
Lecturer Danny Miller (SoT)
Senior Lecturer Elizabeth Reed (Math)

Comments on the nominees are due by Friday, April 3, and can be completed online.

The process for determining the Distinguished Teaching Award recipients from this list of finalists also involves the additional surveying of their classes. The selection committee makes the final determination of the award recipients. The recipients of the 2015 Distinguished Teaching Award will be formally announced in May 2015.

Impact of Molecules, Morphology and Nano/microstructures in Sensing, Optical, Energy and Display applications

Chemistry Department Seminar Faculty Candidate
Dr. Kaushik Balakrishnan

Monday March 2, 2015 – 4:00 PM
Chem-Sci 101

Abstract
The ability to control optical and electrical properties of materials as a function of size and dimension has profound implications in numerous miniaturized technologies such as sensing, communication, lighting, display, optical and electrical circuits, and energy applications. This talk will unravel critical information about molecular stacks from individual molecular entities and advance to our newly uncovered possibilities to co-¬‐localize, and co-¬‐assemble two distinct molecular entities in a single stack of highly organized assemblies. Such self-¬‐assembled structures show immense potential in photonic and opto-¬‐electronic devices and are a promising approach for advancing organic electronic materials in advance applications.
Second part of this talk will focus on energy harvesting and storage. The nanocarbon structures such as carbon nanotubes, and graphene are highly attractive for use as electrodes in supercapacitors, and lithium ion batteries. The detailed workings of the recent breakthroughs in ‘in-¬‐plane’ geometry that enables an ultrathin, flexible, and solid-¬‐state graphene based supercapacitors will be described. Also, nanocomposites for achieving high performance electrolytes capable of withstanding high temperatures with large voltage windows for next generation of supercapacitors and batteries will also be described.

Synthesis of Taiwaniadducts I and J

Xin Yan
Original Research Proposal
Michigan Technological University
Department of Chemistry
Advisor-Dr. Lanrong Bi
Thursday, February 26, 2015
9:00 am Admin Building Room 404
Abstract
The Taiwaniadducts I and J, as cycloadducts of terpene quinones from taiwania cryptomerioides, will be synthesized. These two compounds are isolated from Taiwania cryptomerioides hayata, a large coniferous evergreen species common to Taiwan. They have potential in medical applications due to the breadth of their biological activities. However, low yields of these naturally extracted compounds limits further research on their biological activities and no synthetic approaches to these two compounds have been reported before. Herein, we design a synthetic route which can provide adequate quantities of target compounds for further biological studies. Moreover, the design methodology involved in this proposal may show a reasonable approach to the synthesis of this kind of cycloadducts.