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March 8, 2010 - Volume 88, Number 10
- p. 13
Cover Story
Harry Turner/National Research Council of Canada
BRIGHT LIGHTS David Villeneuve (left)
and Andrei Naumov align a titanium sapphire laser at the Joint Attosecond Science Laboratory, a collaboration between the National Research Council of Canada and the University of Ottawa. Researchers in the laboratory use advanced laser technology to study femtosecond and attosecond processes in atoms and molecules.
- Nifty At Fifty
- Skyward View
- Molecular Dynamics In Real Time
- Ultrafast Structural Dynamics Of Biomolecules
- Molecules At Surfaces And Interfaces
- Electron Dynamics
- A View Inside Tissues And Cells
- Laser Innovation: Fiber Lasers Bring The Fight
- Brief Chronicle Of The Laser
Topics Covered
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October 24, 2011
Bryostatins Retain Promise
(October 24, 2011 | Vol. 89 Issue 43 | pp. 10-17)New results in total synthesis reinvigorate a 40-year-old field of research.
For Cave's Art, An Uncertain Future
(October 24, 2011 | Vol. 89 Issue 43 | pp. 38-40)Disagreement on conservation course of action complicates a potential reopening.
Cancer Stem Cells
(October 24, 2011 | Vol. 89 Issue 43 | pp. 41-43)Researchers zero in on the pathways that allow cancer to bounce back after treatment.
What's That Stuff? Blue Jeans
(October 24, 2011 | Vol. 89 Issue 43 | p. 44)Making the iconic pants requires both color-addition and color-removal chemistry.
Shedding Nanoparticles
(October 24, 2011 | Vol. 89 Issue 43 | p. 5)Materials Science: Chemists observe metal objects sloughing off ions to form nanoparticles.
Modifying Messenger RNA
(October 24, 2011 | Vol. 89 Issue 43 | p. 7)Chemical Biology: Methylated bases in mRNA may have roles in gene regulation and obesity.
Lab-On-A-Chip For Planets, Moons
(October 24, 2011 | Vol. 89 Issue 43 | p. 8)Microfluidics: Automated chip is designed to detect extraterrestrial amino acids.
New Editor For Analytical Chemistry
(October 24, 2011 | Vol. 89 Issue 43 | p. 9)Publishing: Jonathan Sweedler to take the helm.
Science & Technology Concentrates
(October 24, 2011 | Vol. 89 Issue 43 | p. 37)
October 17, 2011
Improving Shop Safety
(October 17, 2011 | Vol. 89 Issue 42 | pp. 56-57)Yale updates policies on machine shop use after student death.
Cleaning Acrylics
(October 17, 2011 | Vol. 89 Issue 42 | pp. 58-59)Conservation scientists seek new ways to keep modern paintings looking their best.
Detecting H2S In Vivo (Member Content)
(October 17, 2011 | Vol. 89 Issue 42 | p. 60)Studies could lead to sensitive and selective analyses for tiny signaling agent.
Rules For Design
(October 17, 2011 | Vol. 89 Issue 42 | p. 9)Materials Science: Guidelines predict structures formed by nanoparticles and DNA linkers.
Identifying Modified Cells
(October 17, 2011 | Vol. 89 Issue 42 | p. 11)Molecular Biology: Technique tags and enriches cells genetically altered by nucleases.
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Asymmetry From A Guest
(October 17, 2011 | Vol. 89 Issue 42 | p. 13)Stereochemistry: Enzymelike pocket that hosts chiral species controls catalyst's enantioselectivity.
Science & Technology Concentrates
(October 17, 2011 | Vol. 89 Issue 42 | pp. 54-56)
Theodore H. Maiman couldn't possibly have guessed how the ruby laser that he and his coworkers first demonstrated 50 years ago at Hughes Research Laboratories would influence the world of chemistry research. But the effect was colossal.
"Modern physical chemistry simply wouldn't exist as we know it without lasers," insists Daniel M. Neumark, professor of chemistry at the University of California, Berkeley. These coherent light generators have been used so broadly to uncover the fundamentals of chemistry, as well as chemical aspects of biology, physics, and materials science, that a few pages in C&EN are hardly sufficient to illustrate their impact. The handful of topics and research projects discussed in this special feature—from atmospheric probes to femtochemistry to cellular imaging—are merely illustrative examples. They were selected to suggest the depth of the laser's impact on our growing understanding of the chemical sciences over the past five decades.
The advances in laser technology during that period have been profound. It used to be that "you'd go around aligning the laser from morning till night, and then, most of the time, experiments didn't work," says X. Sunney Xie, a chemistry professor at Harvard University. These days, highly stable, one-box turnkey systems are common.
The golden jubilee of the laser (light amplification by stimulated emission of radiation) is being celebrated throughout the year by special symposia and conferences, many of which are listed at laserfest.org. Event attendees will no doubt be inspired to wonder what the next 50 years will bring. Laser aficionados may choose to weigh in on that question, but it probably won't be settled for years. For now, here's wishing a workhorse tool in modern chemistry research a very happy anniversary.
- Chemical & Engineering News
- ISSN 0009-2347
- Copyright © 2011 American Chemical Society
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