Welcome, dear reader, to issue 25 of OBC!

The front cover of this week’s issue highlights the work of Rich G. Carter, Oregon State University, and colleagues. In this paper Carter et al. present the development of a proline sulphonamide-catalysed method that facilitates the annulation of α-aryl, α-alkyl-disubstituted aldehydes with acyclic enones to produce highly functionalized cyclohexenones with very good degrees of diastereoselectivity and enantioselectivity.

Proline sulphonamide-catalysed Yamada–Otani condensation: reaction development, substrate scope and scaffold reactivity
Hua Yang, Somdev Banerjee and Rich G. Carter
DOI: 10.1039/C2OB25400J

The inside cover highlights the review of Brian Rasmussenand Jørn Bolstad Christensen that looks at the growing field of organocatalysis with dendrimers. This review outlines advances made in this area of organocatalysis and covers both interior- and surface-based examples, the catalysis of reactions ranging from functional group interconversion and C–C bond forming reactions to enzyme mimicking processes.

Organocatalytic dendrimers
Brian Rasmussen and Jørn Bolstad Christensen
DOI: 10.1039/C2OB25317H

 

 

On behalf of the Search Committee for Dean of Engineering, chaired by Dr. Tammy Bray, Dean of the College of Public Health and Human Sciences, I am pleased to invite the OSU community to attend the following forums where our candidates will speak to their vision for the College. There will be plenty of time for Q&A/conversation.

Sandy Woods. June 8. 1030 – 1145 am. MU Journey Room.

Scott Ashford. June 11. 130 – 245 pm. MU Journey Room.

Joe Hartman. June 13. 130 – 245 pm. MU Journey Room.

Ramesh Rao. June 15. 900 – 1015 am. MU Journey Room.

 

As a reminder, two of our three Dean of Forestry campus forums are yet to come.

Barry Goldfarb. June 6. 1045 am – 1200 pm. Richardson Hall 107.

Thomas Maness. June 11. 1045 am – 1200 pm. Richardson Hall 107.

 

Campus forums are open to all OSU faculty, staff and students. As previously announced, our Dean of Forestry forums will be recorded and posted to the web on June 12. Our Dean of Engineering forums will be recorded and posted to the web on June 15.

 

The Graduate School invites your program’s participation in a campus-based competition for selection of OSU’s nominee for the 2012-13 WAGS/UMI Innovation in Technology Award.

This award recognizes distinguished scholarly achievement at the master’s thesis or doctoral dissertation level for the development of an innovative technology and its utilization for the creative solution of a major problem.  A nominee must have earned the master’s or doctoral degree within the period of July 1, 2011 through June 30, 2012.

This prestigious regional competition is an important opportunity for OSU to showcase technological innovation and creativity by our graduate students to institutions throughout the western region and to celebrate our success. We encourage you to take the time to prepare a nomination.

OSU AWARDS AND RECOGNITION: Each nominee will receive a certificate of accomplishment from the Graduate School to recognize the nominee’s scholarly achievement at the master’s level within his/her graduate program. The Graduate School will provide a cash award of $500 to the student selected as OSU’s nominee for the Western Association of Graduate Schools/UMI Innovation in Technology Award.  In addition, the Graduate School will award $500 to the graduate department/program that submits the thesis selected as OSU’s nominee for the Western Association of Graduate Schools/UMI Innovation in Technology Award.

PROCEDURES: Each graduate program may submit only one nomination for consideration. Graduate programs must provide in one electronic PDF file items b, c and d as reflected in the attached WAGS/UMI guidelines. Please refer to the full announcement for complete details.

NOMINATION DEADLINE: To facilitate the internal selection process, please submit all nomination materials to the Graduate School by 5:00 p.m., Monday, July 9, 2011 to the following e-mail address: Graduate.Scholarships@oregonstate.edu.

Outstanding Innovation in Technology Award Announcement 2012-13 – GENERAL

 

The Graduate School invites your program’s participation in a campus-based competition for selection of OSU’s nominee for the 2012-13 WAGS/UMI Distinguished Master’s Thesis Award.

This award recognizes distinguished scholarly achievement at the master’s level. Nominations will be accepted in any discipline in which the institution offers a master’s degree. A nominee must have earned the master’s degree within the period of July 1, 2011, through June 30, 2012.

This prestigious regional competition is an important opportunity for OSU to showcase the scholarly excellence of our master’s students to institutions throughout the western region and to celebrate our success. We encourage you to take the time to prepare a nomination.

OSU ELIGIBLE PROGRAMS: Any discipline in which a master’s degree is offered.

OSU AWARDS AND RECOGNITION: Each nominee will receive a certificate of accomplishment from the Graduate School to recognize the nominee’s scholarly achievement at the master’s level within his/her graduate program. The Graduate School will provide a cash award of $500 to the student selected as OSU’s nominee for the Western Association of Graduate Schools/UMI Distinguished Master’s Thesis Award.  In addition, the Graduate School will award $500 to the graduate department/program that submits the thesis selected as OSU’s nominee for the Western Association of Graduate Schools/UMI Distinguished Master’s Thesis Award.

PROCEDURES: Each graduate program may submit only one nomination for consideration. Graduate programs must provide in one electronic PDF file items b, c, d as reflected in the attached WAGS/UMI guidelines. Please refer to the full announcement for complete details.

NOMINATION DEADLINE: To facilitate the internal selection process, please submit all nomination materials to the Graduate School by 5:00 p.m., Monday, July 9, 2011 to the following e-mail address: Graduate.Scholarships@oregonstate.edu.

Outstanding Thesis Award Announcement GENERAL

NEW COMPOUND COULD BECOME “COOL BLUE” FOR ENERGY EFFICIENCY IN BUILDINGS

CORVALLIS, Ore. – A new type of durable, environmentally-benign blue pigment discovered at Oregon State University has also been found to have unusual characteristics in reflecting heat – it’s a “cool blue” compound that could become important in new approaches to saving energy in buildings.

The compound, which has now received patent approval, was discovered about three years ago almost by chance, as OSU scientists were studying some materials for their electrical properties.

Its potential use to help reduce heat absorption on the roofs and walls of buildings – which is an evolving field of considerable interest in warm regions where cooling is a major expense – adds another role for the material, which is now being considered for various commercial applications.

“This pigment has infrared heat reflectivity of about 40 percent, which is significantly higher than most blue pigments now being used,” said Mas Subramanian, an OSU professor of chemistry who discovered the compound.

“The more we discover about the pigment, the more interesting it gets,” Subramanian said. “We already knew it had advantages of being more durable, safe and fairly easy to produce. Now it also appears to be a new candidate for energy efficiency.”

“Cool roofing,” in which paints are used to reflect significant portions of the sun’s heat and thereby reduce cooling costs, is an important new trend in “green” construction and energy efficiency, experts say. Such reflective coatings also are more aesthetically pleasing, have less thermal degradation, reduce the “heat island” effect in cities, lower peak energy demand, and reduce air pollution due to lower energy use and power plant emissions.

“We’re seeking licensing partners for this invention right now,” said Mary Phillips, associate director of the Office for Commercialization and Corporate Development at OSU. “We believe it can contribute to new energy efficiency solutions around the world.”

In general, any darker color of the type often used for roofs, houses, automobiles or other applications will tend to absorb more heat. But some compounds, like the one discovered at OSU, have dark tones but also the ability to reflect heat in the infrared spectrum, which is responsible for most of the heat energy absorbed from sunlight.

The material created at OSU, researchers say, is probably the best blue pigment humans have produced since ancient times – going back to efforts by the Egyptians, the Han dynasty in China and Mayan cultures. Blue pigments have been sought through history but often had serious drawbacks, such as decaying quickly, being toxic, costly or carcinogenic.

In research funded by the National Science Foundation, OSU scientists discovered this material by coincidence while they were looking for something else.

Some manganese compounds came out of a 2,000 degree Fahrenheit oven transformed into a beautiful blue, which researchers later determined was due to an unusual “trigonal bipyramidal coordination” of their molecules that changed when exposed to extreme heat.

Research will continue at OSU on the heat reflectance capabilities of the new compound and the underlying molecular structure responsible for it, scientists said.

About the OSU College of Science: As one of the largest academic units at OSU, the College of Science has 14 departments and programs, 13 pre-professional programs, and provides the basic science courses essential to the education of every OSU student. Its faculty are international leaders in scientific research.

Researchers at Oregon State University have discovered a chemical compound, a “cool blue” pigment that has notable heat reflecting properties that could lead to new approaches to saving energy in buildings.

The patent-approved compound could be used to develop roofing paint and other products that would reduce heat absorption.

“The pigment has infrared heat reflectivity of about 40 percent, which is significantly higher than most blue pigments now being used,” said Mas Subramanian, the OSU professor of chemistry who discovered the compound, in a press release.

Subramanian said the pigment is also safe, durable and relatively easy to produce.

Mary Phillips, associate director of OSU’s office for commercialization and corporate development, said the university is looking for licensing partners to develop the compound into products.

“We believe it can contribute to new energy efficiency solutions around the world,” Phillips said.

OSU said the manganese compound — molecules transformed by a 2,000-degree Farenheit oven into a beautiful blue — was discovered in research funded by the National Science Foundation.

Researchers say it’s probably the best blue pigment humans have produced since ancient times – going back to efforts by the Egyptians, the Han dynasty in China and Mayan cultures. Blue pigments have been sought through history but often had serious drawbacks, such as decaying quickly, being toxic, costly or carcinogenic.

 

New compound could become “cool blue” for energy efficiency in buildings

A new type of durable, environmentally-benign blue pigment discovered at Oregon State University (OSU) has also been found to have unusual characteristics in reflecting heat – it’s a “cool blue” compound that could become important in new approaches to saving energy in buildings.

The compound, which has now received patent approval, was discovered about three years ago almost by chance, as OSU scientists were studying some materials for their electrical properties.

Its potential use to help reduce heat absorption on the roofs and walls of buildings – which is an evolving field of considerable interest in warm regions where cooling is a major expense – adds another role for the material, which is now being considered for various commercial applications.

“This pigment has infrared heat reflectivity of about 40 per cent, which is significantly higher than most blue pigments now being used,” said Mas Subramanian, an OSU professor of chemistry who discovered the compound.

“The more we discover about the pigment, the more interesting it gets,” Subramanian said. “We already knew it had advantages of being more durable, safe and fairly easy to produce. Now it also appears to be a new candidate for energy efficiency.”

“Cool roofing,” in which paints are used to reflect significant portions of the Sun’s heat and thereby reduce cooling costs, is an important new trend in “green” construction and energy efficiency, experts say. Such reflective coatings also are more aesthetically pleasing, have less thermal degradation, reduce the “heat island” effect in cities, lower peak energy demand, and reduce air pollution due to lower energy use and power plant emissions.

“We’re seeking licensing partners for this invention right now,” said Mary Phillips, associate director of the Office for Commercialisation and Corporate Development at OSU. “We believe it can contribute to new energy efficiency solutions around the world.”

In general, any darker colour of the type often used for roofs, houses, automobiles or other applications will tend to absorb more heat. But some compounds, like the one discovered at OSU, have dark tones but also the ability to reflect heat in the infrared spectrum, which is responsible for most of the heat energy absorbed from sunlight.

The material created at OSU, researchers say, is probably the best blue pigment humans have produced since ancient times – going back to efforts by the Egyptians, the Han dynasty in China and Mayan cultures. Blue pigments have been sought through history but often had serious drawbacks, such as decaying quickly, being toxic, costly or carcinogenic.

In research funded by the National Science Foundation, OSU scientists discovered this material by coincidence while they were looking for something else.

Some manganese compounds came out of a 1 093-degree Celsius oven transformed into a beautiful blue, which researchers later determined was due to an unusual “trigonal bipyramidal coordination” of their molecules that changed when exposed to extreme heat.

Research will continue at OSU on the heat reflectance capabilities of the new compound and the underlying molecular structure responsible for it, scientists said.

 

 

Background on this Event: First Friday is a casual event held once per month on the first working Friday at the University Motor Pool. We started these potlucks as an opportunity for people with different schedules to pause from work and get together for lunch to enjoy the people connections and community aspect of working at a great University.

Mark your calendars for upcoming events on the first Friday of every month or pickup the new Motor Pool calendars (we marked it for you).

We hope to see you on First Fridays!

 

Micron Technology Inc. is finishing a R&D Fabrication Facility in Boise Idaho and is currently aggressively searching for qualified candidates to fill positions.  Most of the positions will be graduate level positions but there will likely be a full spectrum of possible jobs and educational requirements.  A list of the positions available for outside candidates can be found at the following link: www.micron.com/jobs.  There might be very good job opportunities here for some of our graduates.  Applicants can apply directly from the web site or they can forward their applications through Shane Trapp, Dry Etch R&D, Micron Technology (208 368 4728; ) and he can pass them along to the appropriate people.

 

Undergraduate of the Quarter - Fall 2012
Undergraduate of the Quarter – Fall 2012

Matthew Stolt has been selected as an undergrad chem major of the quarter for Spring 2012.  Matt was born and raised in Oregon – growing up in the Beaverton area. He attended Jesuit High School.  He cites his big brother as a significant influence in his life including encouraging him to attend Jesuit High School as well as Oregon State University.  While he came to OSU initially to be a Chemistry Engineering major, one of his friends, Evan, got him interested in becoming a Chemistry major.  Matt has been conducting undergraduate research with Mas Subramanian since his sophomore year.  He initially worked closely with senior graduate student Geneva Laurita-Plankis; however, he is now working on an independent project within Professor Subramanian’s lab.   He specifically mentioned emeritus professor Glenn Evans as his favorite teacher. He described Dr. Evans has “unbelievably challenging,” but he did a wonderful job of making sure that the students really “know” the material.  Matt plans to continue his education after graduation – likely getting a PhD in materials / inorganic chemistry.  He would like to thank all the faculty and students he has worked with during his time here as well as his study group and friends for their support. We congratulate Matt on all his accomplishments to date and he is a wonderful part of the Chemistry program at OSU!