fame-nano.org

FAME Function Accelerated nanoMaterial Engineering

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The web site fame-nano.org currently has an average traffic classification of zero (the lower the superior). We have parsed twenty pages inside the site fame-nano.org and found thirty-one websites linking to fame-nano.org. There are one contacts and locations for fame-nano.org to help you reach them. The web site fame-nano.org has been on the internet for five hundred and ninety-five weeks, twenty-seven days, five hours, and twenty-eight minutes.
Pages Parsed
20
Links to this site
31
Contacts
1
Addresses
1
Online Since
Nov 2012

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FAME-NANO.ORG HISTORY

The web site fame-nano.org was created on November 20, 2012. As of today, it is five hundred and ninety-five weeks, twenty-seven days, five hours, and twenty-eight minutes young.
REGISTERED
November
2012

AGE

11
YEARS
4
MONTHS
28
DAYS

LINKS TO FAME-NANO.ORG

Our Story Materials Research Laboratory at UCSB an NSF MRSEC

The innovation engine for new materials. Non-UCSB Use of MRL Facilities. Mitsubishi Chemical - Center for Advanced Materials. Neil Dolinski and Emily Levin Receive 2018 MROP Poster Awards.

Semiconductor Research Corporation - SRC

Efficiency and Performance for Connectivity Constrained Computing. Identifying disruptive solutions designed to minimize the energy cost of moving data. Innovative and Intelligent Internet of Things. Enabling a new generation of intelligent, connected, and autonomous devices. Exploring new materials and processes for enhanced scalability and functional diversification. Trustworthy and Secure Semiconductors and Systems.

Adam Hauser CNSI Elings Prize Fellow UC Santa Barbara

Adam Hauser CNSI Elings Prize Fellow UC Santa Barbara. Magnetic spectroscopy in complex oxide and spintronic systems. Unique physics and new device applications. Novel material systems via low-energy off-axis combinatorial sputtering. New opportunities in custom-built materials. Energy States in Gapped Materials. Cathodoluminescence, absorption, and scattering spectroscopies. Anomalous Hall Effect in Antiferromagnetic Systems. New physics towards new technologies.

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CONTACTS

University of California, Los Angeles

Nevin Gabr

420 Westwood Plaza

Los Angeles, California, 90068

US

1.3108259164
ngabr@ea.ucla.edu

FAME-NANO.ORG SERVER

Our crawlers detected that a single root page on fame-nano.org took three thousand and sixty-three milliseconds to come up. We could not find a SSL certificate, so therefore our web crawlers consider this site not secure.
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3.063 sec
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NOT SECURE
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50.63.202.12

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FAME Function Accelerated nanoMaterial Engineering

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