{"id":932,"date":"2017-05-19T18:55:32","date_gmt":"2017-05-20T01:55:32","guid":{"rendered":"http:\/\/gsds.mrl.ucsb.edu\/?p=932"},"modified":"2017-05-19T18:59:40","modified_gmt":"2017-05-20T01:59:40","slug":"recent-work-of-our-fellow-gsds-members","status":"publish","type":"post","link":"http:\/\/gsds.mrl.ucsb.edu\/?p=932","title":{"rendered":"Recent work of our fellow GSDS members"},"content":{"rendered":"

Education is our passport to the future, for tomorrow belongs only to the people who prepare for it today.<\/em>“- Malcolm X<\/em>.<\/p>\n

It can be difficult to educate ourselves on the work done by other graduate students\u00a0with limited time. I took the time to learn something new by looking at\u00a0the research of a few of our GSDS members. I hope that in reading this article\u00a0you will also learn a little bit about a broad array of superb work done by Clayton, Juan Carlos, Emre, and Wennie.<\/p>\n

The search for (better) white light<\/strong><\/p>\n

Clayton Cozzan<\/a> is a Ph.D. candidate in the Materials Department working in Ram Seshadri\u2019s group<\/a>. He has been a very active member of GSDS serving on the Marketing Committee (2014-2016), as Recruitment Chair (2014), Reception Chair (2015), and Scheduling Chair (2016). Clayton studies thermally stable phosphors for their application in high power white lighting.<\/p>\n

On the left is sample phosphor and the right is sample excited remotely by a near UV laser diode (in plane of view).<\/p>\n

\"ckaytoncozzan\"<\/a><\/p>\n

What are you most proud of in this work?<\/strong><\/p>\n

“The reduction in time that our approach offers is what I am most proud of. We took a phosphor that usually requires 12-24 hours to make and reduced the time to 30 minutes using a conventional microwave, and then densified the powder into a free-standing sample in just another 30 minutes (see picture of sample). Both of which, to our knowledge, are new approaches for this canonical blue emitter.”- Clayton<\/em><\/p>\n

Blue light emitting diodes<\/a>\u00a0(LEDs) were first made by Herbert Paul Maruska<\/a> and co-workers. These devices were not bright enough for commercial applications. Subsequent research by Amano<\/a> and Akasaki<\/a> as well as methods developed independently by Moustakas<\/a> and Nakamura<\/a> enabled the production of high brightness blue LEDs. Akasaki, Amano, and Nakamura were awarded the 2014 Nobel Prize in Physics for the invention of the first high brightness blue LED. When combined with inorganic phosphors contained in silicone, part of the blue emission can be downconverted to longer wavelength light, producing other colors of the spectrum that mix to create white. Ultimately, a simple combination of a blue LED with a yellow emitting phosphor results in efficiently produced white light.1<\/sup> Laser diodes (LDs) are the high power improvement to LEDs. The high intensity light generated by them requires new structures that allows the phosphors to conduct heat efficiently to avoid damage and minimize loses in efficiency.2<\/sup> Clayton\u2019s work is exciting because he was able to greatly reduce both preparation time and self-heating damage associated with phosphors in silicone traditionally used for LEDs. This work is also the first demonstration of a thermally stable blue phosphor morphology.<\/p>\n

You can read more about this work at http:\/\/escholarship.org\/uc\/item\/3gk7625k<\/a><\/p>\n

Stemming the tide of overfishing<\/strong><\/p>\n

Juan Carlos Villase\u00f1or Derbez<\/a> is a MESM (Master of Environmental Science and Management) at the Bren School of Environmental Science and Management<\/a>. As a Latin American Fisheries Fellow, his graduate studies are focused in Coastal Marine Resources Management. Juan Carlos became a GSDS member in 2016 after attending the GSDS Fall Social in the Bren Courtyard.<\/p>\n

What are you most proud of in this work?<\/strong><\/p>\n

“We developed a general approach and app to evaluate the effectiveness of no-take marine reserves. Our work enables marine conservation by empowering small-scale fishers and managers.”- Juan Carlos<\/em><\/p>\n

Unsustainable fisheries were described as a tragedy of the commons in 1968 by Hardin<\/a>.3<\/sup> Unregulated use of a common resource in a society where quantity directly corresponds to profit undoubtedly leads to depletion and ultimately destruction of that resource. However, regulating\/managing fisheries is complicated, requiring a balancing act between environmental and socioeconomic goals for sustainability.4<\/sup> Almost 15 years ago, Pauly<\/a> argued that harvest control methods for fisheries must also be accompanied by conservation in the form of no-take reserves in marine protected areas.5<\/sup> Juan Carlos\u2019 work with his group, TURFeffect, led to the creation of a guidebook for the evaluation of no-take marine reserves in Mexico.\u00a0 Juan Carlos and TURFeffect also created an app called the Marine Reserve Evaluation Application (MAREA) which provides a facile way to evaluate the biological and socioeconomic objectives of no-take reserves.<\/p>\n

\"marea-transparency_2\"<\/a><\/p>\n

You can read more about it on the project\u2019s official website turfeffect.org<\/a> or Juan Carlos\u2019 ResearchGate<\/a> profile.<\/p>\n

A bright idea for fluoropolymer synthesis<\/strong><\/p>\n

Emre Discekici<\/a> is a Ph.D. candidate in the Chemistry Department<\/a> working jointly in Javier Read de Alaniz<\/a> and Craig Hawker<\/a>\u2019s groups. Emre has been a member of the Marketing Committee (2014-2015), Scheduling Chair (2015), and currently serves as the director for the GSDS DOW Distinguished Lecture Series. In this work, Emre and coworkers developed a highly efficient and facile polymerization protocol using light for semi-fluorinated polymers in collaboration with the groups of Professors Christopher Bates<\/a> and Thomas Davis<\/a>. This should create opportunities across a breadth of fields that exploit fluorine-containing materials for bulk, interfacial, and solution applications.<\/p>\n

Below is a modified TOC graphic exhibiting one of Emre\u2019s favorite pastimes, poker.<\/p>\n

\"emrejpg\"<\/a><\/p>\n

What are you most proud of in this work?<\/strong><\/p>\n

“I am most proud of how this work utilized the backgrounds of many different group members. This could not have possibly been accomplished by one person alone. This work is really a reflection of a team effort and it was a team I was happy to play a part in.”- Emre<\/em><\/p>\n

Fluoropolymers are among some of the most thermally and chemically resistant polymers.\u00a0 Some of these polymers are household names like Teflon, which was created and patented<\/a> by Roy Plunkett<\/a> at DuPont in the late 1930s\/early 1940s. In addition to non-stick surfaces, fluorinated and semi-fluorinated polymers have a broad range of applications<\/a>. Conventional techniques for the synthesis of semi-fluorinated polymers are limited and Emre\u2019s work sought to develop a method to alleviate these limitations.6<\/sup> Using ultraviolet light (360 nm) induced atom transfer radical polymerization they can synthesize semi-fluorinated acrylate and methacrylate polymers with incredible control.\u00a0 This work opens the door to novel well-defined fluorine containing polymers with potential utilization in lubricants, surfactants, coatings, and even drug delivery.<\/p>\n

You can read more about this work at http:\/\/pubs.acs.org\/doi\/full\/10.1021\/jacs.7b01694<\/a><\/p>\n

Defects. How many of us have them?<\/strong><\/p>\n

Wennie Wang<\/a> is a Ph.D. candidate in the Materials Department<\/a> in the Van de Walle Computational Group<\/a>. Wennie has served as our fearless leader for the past year. She\u2019s shown a passion for outreach while in GSDS, serving as Outreach Director (2015) and Scheduling Chair on the Outreach Committee (2014).<\/p>\n

\u201cWe use first-principles calculations to understand the microscopic mechanisms of how defects impact electronic and optical properties of semiconductors. It’s the simulation of the materials that go into your computer on a computer!\u201d- Wennie<\/em><\/p>\n

What are you most proud of in this work?<\/strong><\/p>\n

“Learning to use the black box, known as the terminal. This was one of the more intimidating parts of the learning curve.”-Wennie<\/em><\/p>\n

Electrochromic<\/a> materials, like tungsten trioxide (WO3<\/sub>), undergo reversible color changes because of an external electrochemical stimulus. For many transition metal and rare earth oxides, oxygen vacancies (defects) are thought to play a crucial role in their properties.7<\/sup> Like many observed phenomena in the sciences the exact mechanism for WO3<\/sub> electrochromism is currently still disputed.8<\/sup> Wennie\u2019s work utilizes hybrid density functional theory to understand two things (1) what defects do to the structure and electron density of WO3<\/sub> and (2) how they lead to the resulting electronic properties.<\/p>\n

The graphic below is an example of the level of detail possible to observe with first-principles calculation methods.<\/p>\n

\"wenniewang\"<\/a><\/p>\n

Electron charge density associated with one possible oxygen vacancy configuration in a semiconductor supercell, (a) before, where the density is localized around the defect and (b) after atomic relaxation, where the density has spread out.<\/p>\n

You can read more about this work at http:\/\/pubs.rsc.org\/en\/content\/articlehtml\/2016\/tc\/c6tc01643j<\/a><\/p>\n

I hope you enjoyed this introduction to the work of some of our GSDS members. I hope you stay curious, read more, and ask questions.<\/p>\n

References<\/strong><\/p>\n

(1) \u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 George, N. C.; Denault, K. A.; Seshadri, R. Phosphors for Solid-State White Lighting. Annu. Rev. Mater. Res.<\/em> 2013<\/strong>, 43<\/em> (1), 481\u2013501 DOI: 10.1146\/annurev-matsci-073012-125702.<\/p>\n

(2) \u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 Cozzan, C.; Brady, M. J.; Dea, N. O.; Levin, E. E.; Nakamura, S.; Denbaars, S. P.; Seshadri, R. Monolithic translucent BaMgAl10O17\u202f: Eu lighting phosphors for laser-driven solid state lighting. AIP Adv.<\/em> 2016<\/strong>, 6<\/em> (105005) DOI: 10.1063\/1.4964925.<\/p>\n

(3) \u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 Hardin, G. Tragedy of the Commons. Science<\/em> 1968<\/strong>, 162<\/em> (3859), 1243\u20131248 DOI: 10.1126\/science.162.3859.1243.<\/p>\n

(4) \u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 Liu, O. R.; Thomas, L. R.; Clemence, M.; Fujita, R.; Kritzer, J. P.; McDonald, G.; Szuwalski, C. An Evaluation of Harvest Control Methods for Fishery Management. Rev. Fish. Sci. Aquac.<\/em> 2016<\/strong>, 24<\/em> (3), 244\u2013263 DOI: 10.1080\/23308249.2016.1161002.<\/p>\n

(5) \u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 Pauly, D.; Christensen, V.; Gu\u00e9nette, S.; Pitcher, T. J.; Sumaila, U. R.; Walters, C. J.; Watson, R.; Zeller, D. Towards sustainability in world fisheries. Nature<\/em> 2002<\/strong>, 418<\/em> (6898), 689\u2013695 DOI: 10.1038\/nature01017.<\/p>\n

(6) \u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 Discekici, E. H.; Anastasaki, A.; Kaminker, R.; Willenbacher, J.; Truong, N. P.; Fleischmann, C.; Oschmann, B.; Lunn, D. J.; Read de Alaniz, J.; Davis, T. P.; et al. Light-Mediated Atom Transfer Radical Polymerization of Semi-Fluorinated (Meth)acrylates: Facile Access to Functional Materials. J. Am. Chem. Soc.<\/em> 2017<\/strong>, jacs.7b01694 DOI: 10.1021\/jacs.7b01694.<\/p>\n

(7) \u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 Ganduglia-Pirovano, M. V.; Hofmann, A.; Sauer, J. Oxygen vacancies in transition metal and rare earth oxides: Current state of understanding and remaining challenges. Surf. Sci. Rep.<\/em> 2007<\/strong>, 62<\/em> (6), 219\u2013270 DOI: 10.1016\/j.surfrep.2007.03.002.<\/p>\n

(8) \u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 Wang, W.; Janotti, A.; Van de Walle, C. G. Role of oxygen vacancies in crystalline WO 3<\/sub>. J. Mater. Chem. C<\/em> 2016<\/strong>, 4<\/em> (27), 6641\u20136648 DOI: 10.1039\/C6TC01643J.<\/p>\n

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