To mobilize the minerals needed for milk production, osteocytes—the cells responsible for maintaining bone quality—facilitate the release of calcium and other minerals from the bone matrix surrounding them. In this study, researchers investigated how osteocytes balance the rapid release of calcium with maintaining bone integrity. https://lnkd.in/gxs8UkwN
Advanced Light Source
研究服务
Berkeley,California 3,050 位关注者
Synchrotron Light Source at Berkeley Lab
关于我们
The Advanced Light Source is a Department of Energy-funded synchrotron facility that provides users from around the world access to the brightest beams of soft x-rays, together with hard x-rays and infrared, for scientific research and technology development in a wide range of disciplines.
- 网站
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https://als.lbl.gov
Advanced Light Source的外部链接
- 所属行业
- 研究服务
- 规模
- 51-200 人
- 总部
- Berkeley,California
- 类型
- 政府机构
- 创立
- 1993
- 领域
- synchrotron light source、accelerator physics、biology、chemistry、physics、materials science、crystallography、scattering、spectroscopy、microscopy、imaging和diffraction
地点
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获取路线
1 Cyclotron Rd
US,California,Berkeley,94720-8099
Advanced Light Source员工
动态
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We love hosting U.S. Department of Energy Office of Science #SCGSR fellows at the ALS!
Hey, CCI and SULI alumni! Do you know about the SCGSR program? While completing your PhD, this program enables you to become a "scientist in residence" at a one of the DOE national laboratories for 3-12 months. Propose a research project based on your PhD #dissertation or #thesis topic, in which you will use the unique facilities and state-of-the-art instrumentation at one of the labs.?And, yes, this is a PAID opportunity! Access a wealth of useful information here: https://lnkd.in/gzkMdRYj Office of Science Graduate Student Research (SCGSR) Program Workforce Development for Teachers & Scientists Berkeley Lab #gradschool
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An ambient-pressure probe of a solid electrolyte revealed how surface electrochemical mechanisms lead to poor electrolyte performance and battery failure. The results can help scientists engineer better coatings and interfaces, which are essential for building safer and better-performing batteries, particularly for use in vehicles.https://https://lnkd.in/gzmsd4uW
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We are happy to share our new article on the surface dynamics of Nickel nanoparticles during and after exsolution. As Moritz L. Weber shows the time scales on which nanoparticles move and merge depends on the local bonding between nanoparticle and host - Moritz found a nice way to engineer this interaction by controlling the surface chemistry... and in particular our dear friend 'surface defect chemistry' :) This was a great collaboration of our team at Peter Grünberg Institute 7 (Lisa Heymann Rainer Waser Regina Dittmann Alexander Gutsche) with Advanced Light Source (Slavomir Nemsak Michal Prochazka), Imperial College London (Stephen Skinner, Ainara Aguadero, Andrea Cavallaro Sarah Fearn Jia Guo Liam Yasin Sam Cooper ) and our dear colleagues at Forschungszentrum Jülich (Christian Lenser Olivier Guillon (IDM) Dylan Jennings Joachim Mayer (ERC) Wolfgang Rheinheimer (now Stuttgart University). I am very happy to see the results online - Congrats, Moritz L. Weber and the entire team. https://lnkd.in/eUc3Jvas
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We love seeing collaborations come to life!
Advancing Technology in Molecular Electronics | Skilled in X-ray Spectroscopy, Surface Science, Thin Film Deposition, Ultra High Vaccum & Semiconductor Device Physics.
X-ray Absorption Spectroscopy experiments at Synchrotron facilities like the Advanced Light Source are an integral part of my research on molecular #magnetism and organic #spintronics. Beamtime is precious and at the same time exhausting, especially when there are technical challenges. However, having excellent co-experimentalists like Wai Kiat, Chin (陳偉傑) and a beamline scientist Alpha N'Diaye who is an excellent communicator and goes above and beyond are a blessing. Navigating challenges, strategizing and maintaining effective communication are skills beyond the usual technical ones that I try to cultivate regularly!
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Using synchrotrons to study cultural heritage materials! cc: Berkeley Lab, Lightsources.org
I am happy to announce that our new book is finally out, diving into the fascinating worlds of cultural heritage materials and biomineralization, through the use synchrotron radiation! https://lnkd.in/g8YwVAux
Synchrotron Radiation, Cultural Heritage, Biomineralization
wiley.com
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Program Head (Fundamental Symmetries & Neutrinos) & Senior Physicist, Nuclear Science Division, Berkeley Lab
This year's Nuclear Science Day for Scouts event patch depicts the synthesis of superheavy elements nowadays. A beam of particles (recently, Berkeley Lab Nuclear Science Division demonstrated that a titanium-50 beam could work) collides with the target nucleus. They fuse together to form a new element. Many thanks to Berkeley Lab Nuclear Science Division Berkeley Lab K-12 Programs, Advanced Light Source and Berkeley Lab's #CreativeServices support for this event. On the day of the event, November 9, scouts and their leaders will learn more about this process.
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I am happy to announce the publication of my most recent article in Wiley's Advanced Functional Materials entitled "Detection and Signal Processing for Near-Field Nanoscale Fourier Transform Infrared Spectroscopy." The theoretical (and experimental) work meticulously steps through the detection and signal processing steps that occur in the background to enable scattering-type #nanoscale-#FTIR. Each processing step is modeled as a linear operator, and all calculations are shown (especially if you dive into the SI). An algebraic expression is derived that can be easily used to approximate the sample's local extinction coefficient by using the real and imaginary parts of the nano-FTIR spectrum as inputs. The algebraic model is valid in the weak oscillator limit and matches ATR-FTIR absorption data better than the phase, imaginary part, or ratio of reflection coefficients. My collaborators (Hans Bechtel and Robert Kostecki) and I hope the article will be of benefit to new users and seasoned practitioners alike, who want to have a deeper understanding of the technique, and/or want a springboard for developing additional rigorous #nanoscale-#FTIR data interpretation approaches. The work was a collaboration between Berkeley Lab / Baylor University Baylor Chemistry & Biochemistry Department / Advanced Light Source #AFM #sSNOM #nanoFTIR #NanoOptics #MaterialsCharacterization #IR #MaterialsScience
Detection and Signal Processing for Near‐Field Nanoscale Fourier Transform Infrared Spectroscopy
onlinelibrary.wiley.com
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We are flashing forward this week at the ALS with the release of our new five-year strategic plan! Our vision to continue leading in scientific discovery and cutting-edge technology sets an exciting path forward with ALS-U and beyond. Developed with valuable input from staff, partners, and users over the past year, this plan builds on the inspiring ideas from our 2023 User Meeting science visioning workshops. Thank you to everyone who contributed to bringing this document to life. Join us as we tackle global challenges in energy, environment, and health through transformative science capabilities and team science! Visit als.lbl.gov/strategic-plan to read the full plan. ???? ??: Thor Swift/Berkeley Lab Illustrations by Kayla Naas
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Ever dreamt of having an older sibling in your science field that could show you the ropes? Do you have questions about how to make it in Big Science and dream of conducting an experiment on a light source? Then do not hesitate and rush to https://beamtime.eu to find out more about the Twinning program at photon and neutron sources of Europe. #NEPHEWS
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