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DUKAS_183303520_NUR
CES 2025 In Las Vegas
LAS VEGAS, USA - JANUARY 08:
Intel presents its Core Ultra 9 chip during CES 2025 in Las Vegas, at the Consumer Electronics Show (CES) 2025, in Las Vegas, Nevada, USA, on January 8 2025. (Photo by Artur Widak/NurPhoto) -
DUKAS_183303512_NUR
CES 2025 In Las Vegas
LAS VEGAS, USA - JANUARY 08:
Intel presents its Core Ultra 9 chip during CES 2025 in Las Vegas, at the Consumer Electronics Show (CES) 2025, in Las Vegas, Nevada, USA, on January 8 2025. (Photo by Artur Widak/NurPhoto) -
DUKAS_167789205_FER
Silicon spiked surface that tears apart virsuses is developed
Ferrari Press Agency
Silicon spikes 1
Ref 15705
27/03/2024
See Ferrari text
Pictures must credit: RMIT University
A virus-killing surface that could help control disease spread in hospitals has been developed by researchers,
The surface is made of silicon and is covered in tiny spikes that skewer viruses on contact.
The minuscule spikes are 2 nanometers thick – 30,000 times thinner than a human hair – and 290 nanometers high.
Lab tests with the hPIV-3 virus that causes bronchitis, pneumonia and croup – showed 96% were either ripped apart or damaged to the point where they could no longer replicate to cause infection.
A spokesperson said this showed the material’s promise for helping control the transmission of potentially dangerous biological material in laboratories and healthcare environments.
The spiked surfaces were manufactured in Australia at the Melbourne Centre for Nanofabrication.
Dr Natalie Borg, from RMIT University in Melbourne said this seemingly unsophisticated concept of skewering the virus required considerable technical expertise.
OPS: Spme of the research team including study corresponding author Professor Elena Ivanova (3rd from left) and study lead author Samson Mah (2nd from right).
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167789204_FER
Silicon spiked surface that tears apart virsuses is developed
Ferrari Press Agency
Silicon spikes 1
Ref 15705
27/03/2024
See Ferrari text
Pictures must credit: RMIT University
A virus-killing surface that could help control disease spread in hospitals has been developed by researchers,
The surface is made of silicon and is covered in tiny spikes that skewer viruses on contact.
The minuscule spikes are 2 nanometers thick – 30,000 times thinner than a human hair – and 290 nanometers high.
Lab tests with the hPIV-3 virus that causes bronchitis, pneumonia and croup – showed 96% were either ripped apart or damaged to the point where they could no longer replicate to cause infection.
A spokesperson said this showed the material’s promise for helping control the transmission of potentially dangerous biological material in laboratories and healthcare environments.
The spiked surfaces were manufactured in Australia at the Melbourne Centre for Nanofabrication.
Dr Natalie Borg, from RMIT University in Melbourne said this seemingly unsophisticated concept of skewering the virus required considerable technical expertise.
OPS: Researcher Dr Natalie Borg in the RMIT lab.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167789203_FER
Silicon spiked surface that tears apart virsuses is developed
Ferrari Press Agency
Silicon spikes 1
Ref 15705
27/03/2024
See Ferrari text
Pictures must credit: RMIT University
A virus-killing surface that could help control disease spread in hospitals has been developed by researchers,
The surface is made of silicon and is covered in tiny spikes that skewer viruses on contact.
The minuscule spikes are 2 nanometers thick – 30,000 times thinner than a human hair – and 290 nanometers high.
Lab tests with the hPIV-3 virus that causes bronchitis, pneumonia and croup – showed 96% were either ripped apart or damaged to the point where they could no longer replicate to cause infection.
A spokesperson said this showed the material’s promise for helping control the transmission of potentially dangerous biological material in laboratories and healthcare environments.
The spiked surfaces were manufactured in Australia at the Melbourne Centre for Nanofabrication.
Dr Natalie Borg, from RMIT University in Melbourne said this seemingly unsophisticated concept of skewering the virus required considerable technical expertise.
OPS:A virus cell on the nano spiked silicon surface, magnified 65,000 times. After 6 hours it has been completely destroyed.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167789202_FER
Silicon spiked surface that tears apart virsuses is developed
Ferrari Press Agency
Silicon spikes 1
Ref 15705
27/03/2024
See Ferrari text
Pictures must credit: RMIT University
A virus-killing surface that could help control disease spread in hospitals has been developed by researchers,
The surface is made of silicon and is covered in tiny spikes that skewer viruses on contact.
The minuscule spikes are 2 nanometers thick – 30,000 times thinner than a human hair – and 290 nanometers high.
Lab tests with the hPIV-3 virus that causes bronchitis, pneumonia and croup – showed 96% were either ripped apart or damaged to the point where they could no longer replicate to cause infection.
A spokesperson said this showed the material’s promise for helping control the transmission of potentially dangerous biological material in laboratories and healthcare environments.
The spiked surfaces were manufactured in Australia at the Melbourne Centre for Nanofabrication.
Dr Natalie Borg, from RMIT University in Melbourne said this seemingly unsophisticated concept of skewering the virus required considerable technical expertise.
OPS: Researcher Dr Natalie Borg inspects a sample of the nano spiked silicon sheet.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167789200_FER
Silicon spiked surface that tears apart virsuses is developed
Ferrari Press Agency
Silicon spikes 1
Ref 15705
27/03/2024
See Ferrari text
Pictures must credit: RMIT University
A virus-killing surface that could help control disease spread in hospitals has been developed by researchers,
The surface is made of silicon and is covered in tiny spikes that skewer viruses on contact.
The minuscule spikes are 2 nanometers thick – 30,000 times thinner than a human hair – and 290 nanometers high.
Lab tests with the hPIV-3 virus that causes bronchitis, pneumonia and croup – showed 96% were either ripped apart or damaged to the point where they could no longer replicate to cause infection.
A spokesperson said this showed the material’s promise for helping control the transmission of potentially dangerous biological material in laboratories and healthcare environments.
The spiked surfaces were manufactured in Australia at the Melbourne Centre for Nanofabrication.
Dr Natalie Borg, from RMIT University in Melbourne said this seemingly unsophisticated concept of skewering the virus required considerable technical expertise.
OPS: A virus cell on the nano spiked silicon surface, magnified 65,000 times. After 1 hour it has already begun to leak material.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUK10126339_012
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: The gingerbread house creator Travis Casagrande
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_011
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: Under the microscope. The gingerbread house sits in the flattened head of a miniscule snowman, both made from silicon
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_010
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: Under the microscope. The gingerbread house sits in the flattened head of a miniscule snowman, both made from silicon
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_009
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: The gingerbread house creator Travis Casagrande
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_008
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: Under the microscope. The gingerbread house sits in the flattened head of a miniscule snowman, both made from silicon
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_007
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: Under the microscope. The gingerbread house sits in the flattened head of a miniscule snowman, both made from silicon
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_006
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: Under the microscope. The gingerbread house sits in the flattened head of a miniscule snowman, both made from silicon
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_005
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: Under the microscope. The gingerbread house sits in the flattened head of a miniscule snowman, both made from silicon
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_004
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: TUnder the microscopic . The gingerbread house sits in the flattened head of a miniscule snowman, both made from silicon, with a human hair alomgside for comparison
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_003
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: Researcher Travis Casagrande works on the gingerbread house
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_002
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: Under the microscope. The gingerbread house sits in the flattened head of a miniscule snowman, both made from silicon
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10126339_001
FEATURE - Das wohl kleinste Haus der Welt ist nur unter dem Mikroskop zu sehen
Ferrari Press Agency
Gingerbread 1
Ref 11229
19/12/19
See Ferrari text
Pictures must credit : Travis Casagrande /McMaster University
A new house has big ambitions – to be the world’s tiniest. The microscopic dwelling , made out of silicon, is in the style of the gingerbread house from the Hansel and Gretel Brothers Grimm fairy story.Even more incredible, the miniscule creation was built on the head of a winking silicone snowman.Both of them together are barely taller than the width of a human hair .The house measures just six microns wide by 10 microns long.A micron is 0.001 of a millimeterThe house and snowman were made by researcher Travis Casagrande at McMaster University in Hamilton, Ontario, Canada.When the pieces are paced next to a human hair under the microscope . the hair looks like a huge tree trunk in comparison.
OPS: Under the microscope. The gingerbread house sits in the flattened head of a miniscule snowman, both made from silicon
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10087130_008
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Roger Federer (SUI) and Bill Gates defeated Jack Sock (USA) and Savannah Guthrie 6-3 at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554673
(c) Dukas -
DUK10087130_011
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Bill Gates runs down a ball during his doubles set with Roger Federer (SUI) against Jack Sock (USA) and Savannah Guthrie at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554686
(c) Dukas -
DUK10087130_007
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Bill Gates hits a forehand during his doubles set with Roger Federer (SUI) against Jack Sock (USA) and Savannah Guthrie at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554681
(c) Dukas -
DUK10087130_009
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Roger Federer (SUI) hits a forehand volley during his doubles set with partner Bill Gates against Jack Sock (USA) and Savannah Guthrie at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554680
(c) Dukas -
DUK10087130_016
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Roger Federer (SUI) and Bill Gates defeated Jack Sock (USA) and Savannah Guthrie 6-3 at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554689
(c) Dukas -
DUK10087130_010
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Roger Federer (SUI) and Bill Gates walk out to play Jack Sock (USA) and Savannah Guthrie at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554672
(c) Dukas -
DUK10087130_027
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
Mandatory Credit: Photo by Mal Taam/CSM/REX/Shutterstock (9449801a)
Roger Federer (SUI) and Bill Gates walk out to play Jack Sock (USA) and Savannah Guthrie at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM
Tennis The Match for Africa 5 Silicon Valley 2018, San Jose, USA - 06 Mar 2018
(c) Dukas -
DUK10087130_026
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
Mandatory Credit: Photo by Mal Taam/CSM/REX/Shutterstock (9449801b)
Roger Federer (SUI) and Bill Gates defeated Jack Sock (USA) and Savannah Guthrie 6-3 at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM
Tennis The Match for Africa 5 Silicon Valley 2018, San Jose, USA - 06 Mar 2018
(c) Dukas -
DUK10087130_025
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
Mandatory Credit: Photo by Mal Taam/CSM/REX/Shutterstock (9449801h)
Bill Gates runs down a ball during his doubles set with Roger Federer (SUI) against Jack Sock (USA) and Savannah Guthrie at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM
Tennis The Match for Africa 5 Silicon Valley 2018, San Jose, USA - 06 Mar 2018
(c) Dukas -
DUK10087130_024
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
Mandatory Credit: Photo by Mal Taam/CSM/REX/Shutterstock (9449801k)
Roger Federer (SUI) and Bill Gates defeated Jack Sock (USA) and Savannah Guthrie 6-3 at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM
Tennis The Match for Africa 5 Silicon Valley 2018, San Jose, USA - 06 Mar 2018
(c) Dukas -
DUK10087130_018
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Roger Federer (SUI) defeated Jack Sock (USA) 7-6 (9), 6-4 at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554627
(c) Dukas -
DUK10087130_017
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Roger Federer (SUI) defeated Jack Sock (USA) 7-6 (9), 6-4 at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554634
(c) Dukas -
DUK10087130_023
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Roger Federer (SUI) defeated Jack Sock (USA) 7-6 (9), 6-4 at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554605
(c) Dukas -
DUK10087130_022
PEOPLE - Für den guten Zweck spielt Roger Federer mit Bill Gates Tennis
March 05, 2018: Roger Federer (SUI) defeated Jack Sock (USA) 7-6 (9), 6-4 at The Match for Africa 5 Silicon Valley played at the SAP Center in San Jose, California. ©Mal Taam/TennisClix/CSM/Sipa USA(Credit Image: © Mal Taam/CSM/Sipa USA) *** Local Caption *** 22554607
(c) Dukas -
DUKAS_25121696_REX
'Art of Failure' electron microscope competition - 06 Aug 2012
Mandatory Credit: Photo by Tan Lee Koon/Systems-on-Silicon / Rex Features (1810295j)
'Naughty Beach Fun' Wins Electron Microscope Competition
Naked bodies appear to frolic on a beach, a frog happily perches on a hill and a kangaroo bounds across the landscape.
These are some of the familiar - and bizarre - sights scientists have seen under the microscope.
These images were entries in the recent International Symposium on the Physical and Failure Analysis of Integrated Circuits in Singapore.
The annual photography competition sees eggheads showing off the fun side of their research in microelectronics technology.
The analysts work on 'failure analysis', the process of investigating why a particular electronic component fails to work.
The winning image, entitled People on the Beach by Lim Saw Sing at Infineon Technologies, depicts a polyimide surface after exposure to reactive ion etching and sputter coating. In reality, it looks uncannily like a saucy beach scene with dozens of cavorting couples.
Second prize was Wings by Foo Fang Jie at Advanced Micro Devices which sees fracture analysis of a silicon sample resembling a pair of wings. Third prize The Hope Terrace by Tan Lee Koon at Systems-on-Silicon Manufacturing Co. is a picture of wafer-edge chipping giving the effect of step-like spectacular landforms.
Other highlights included a 'Royal Elephant' on a silicon sample, a particle embedded in a metal layer resembling a tortoise in water and a 'Fist of Victory' highlighted by an image showing the nano fabrication capability of a FIB (Focused Ion Beam).
For more information visit http://www.rexfeatures.com/stacklink/IAHGIEGYE (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_25121695_REX
'Art of Failure' electron microscope competition - 06 Aug 2012
Mandatory Credit: Photo by Foo Fang Jie/ Advanced Micro / Rex Features (1810295h)
'Naughty Beach Fun' Wins Electron Microscope Competition
Naked bodies appear to frolic on a beach, a frog happily perches on a hill and a kangaroo bounds across the landscape.
These are some of the familiar - and bizarre - sights scientists have seen under the microscope.
These images were entries in the recent International Symposium on the Physical and Failure Analysis of Integrated Circuits in Singapore.
The annual photography competition sees eggheads showing off the fun side of their research in microelectronics technology.
The analysts work on 'failure analysis', the process of investigating why a particular electronic component fails to work.
The winning image, entitled People on the Beach by Lim Saw Sing at Infineon Technologies, depicts a polyimide surface after exposure to reactive ion etching and sputter coating. In reality, it looks uncannily like a saucy beach scene with dozens of cavorting couples.
Second prize was Wings by Foo Fang Jie at Advanced Micro Devices which sees fracture analysis of a silicon sample resembling a pair of wings. Third prize The Hope Terrace by Tan Lee Koon at Systems-on-Silicon Manufacturing Co. is a picture of wafer-edge chipping giving the effect of step-like spectacular landforms.
Other highlights included a 'Royal Elephant' on a silicon sample, a particle embedded in a metal layer resembling a tortoise in water and a 'Fist of Victory' highlighted by an image showing the nano fabrication capability of a FIB (Focused Ion Beam).
For more information visit http://www.rexfeatures.com/stacklink/IAHGIEGYE (FOTO:DUKAS/REX)
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'Art of Failure' electron microscope competition - 06 Aug 2012
Mandatory Credit: Photo by Jacqueline Kwa/Advanced Micro / Rex Features (1810295d)
'Naughty Beach Fun' Wins Electron Microscope Competition
Naked bodies appear to frolic on a beach, a frog happily perches on a hill and a kangaroo bounds across the landscape.
These are some of the familiar - and bizarre - sights scientists have seen under the microscope.
These images were entries in the recent International Symposium on the Physical and Failure Analysis of Integrated Circuits in Singapore.
The annual photography competition sees eggheads showing off the fun side of their research in microelectronics technology.
The analysts work on 'failure analysis', the process of investigating why a particular electronic component fails to work.
The winning image, entitled People on the Beach by Lim Saw Sing at Infineon Technologies, depicts a polyimide surface after exposure to reactive ion etching and sputter coating. In reality, it looks uncannily like a saucy beach scene with dozens of cavorting couples.
Second prize was Wings by Foo Fang Jie at Advanced Micro Devices which sees fracture analysis of a silicon sample resembling a pair of wings. Third prize The Hope Terrace by Tan Lee Koon at Systems-on-Silicon Manufacturing Co. is a picture of wafer-edge chipping giving the effect of step-like spectacular landforms.
Other highlights included a 'Royal Elephant' on a silicon sample, a particle embedded in a metal layer resembling a tortoise in water and a 'Fist of Victory' highlighted by an image showing the nano fabrication capability of a FIB (Focused Ion Beam).
For more information visit http://www.rexfeatures.com/stacklink/IAHGIEGYE (FOTO:DUKAS/REX)
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'Art of Failure' electron microscope competition - 06 Aug 2012
Mandatory Credit: Photo by L.Chee Hiong/Systems-on-Silicon / Rex Features (1810295b)
'Naughty Beach Fun' Wins Electron Microscope Competition
Naked bodies appear to frolic on a beach, a frog happily perches on a hill and a kangaroo bounds across the landscape.
These are some of the familiar - and bizarre - sights scientists have seen under the microscope.
These images were entries in the recent International Symposium on the Physical and Failure Analysis of Integrated Circuits in Singapore.
The annual photography competition sees eggheads showing off the fun side of their research in microelectronics technology.
The analysts work on 'failure analysis', the process of investigating why a particular electronic component fails to work.
The winning image, entitled People on the Beach by Lim Saw Sing at Infineon Technologies, depicts a polyimide surface after exposure to reactive ion etching and sputter coating. In reality, it looks uncannily like a saucy beach scene with dozens of cavorting couples.
Second prize was Wings by Foo Fang Jie at Advanced Micro Devices which sees fracture analysis of a silicon sample resembling a pair of wings. Third prize The Hope Terrace by Tan Lee Koon at Systems-on-Silicon Manufacturing Co. is a picture of wafer-edge chipping giving the effect of step-like spectacular landforms.
Other highlights included a 'Royal Elephant' on a silicon sample, a particle embedded in a metal layer resembling a tortoise in water and a 'Fist of Victory' highlighted by an image showing the nano fabrication capability of a FIB (Focused Ion Beam).
For more information visit http://www.rexfeatures.com/stacklink/IAHGIEGYE (FOTO:DUKAS/REX)
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ARCHITECTURAL STOCK Private House
Mandatory Credit: Photo by Raf Makda / View Pictures / Rex Features ( 1251796a )
M3 Architects. The Limes Nugents Park Pinner London BRITAIN. extension & house remodelling. The Limes Nugents Park London HA5 4RA United Kingdom. Completed: 2007. Architect: M3 Architects PROPERTY RELEASED
ARCHITECTURAL STOCK Private House
(FOTO:DUKAS/REX)
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Google Headquarters in Silicon Valley, California, America - 13 Jan 2010
Mandatory Credit: Photo by Anders Granberg / Rex Features ( 1090638d )
Google Headquarters in Mountain View, Silicon Valley
Google Headquarters in Silicon Valley, California, America - 13 Jan 2010
(FOTO:DUKAS/REX)
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Google Headquarters in Silicon Valley, California, America - 13 Jan 2010
Mandatory Credit: Photo by Anders Granberg / Rex Features ( 1090638c )
Google Headquarters in Mountain View, Silicon Valley
Google Headquarters in Silicon Valley, California, America - 13 Jan 2010
(FOTO:DUKAS/REX)
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Google Headquarters in Silicon Valley, California, America - 13 Jan 2010
Mandatory Credit: Photo by Anders Granberg / Rex Features ( 1090638b )
Google Headquarters in Mountain View, Silicon Valley
Google Headquarters in Silicon Valley, California, America - 13 Jan 2010
(FOTO:DUKAS/REX)
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Google Headquarters in Silicon Valley, California, America - 13 Jan 2010
Mandatory Credit: Photo by Anders Granberg / Rex Features ( 1090638a )
Google Headquarters in Mountain View, Silicon Valley
Google Headquarters in Silicon Valley, California, America - 13 Jan 2010
(FOTO:DUKAS/REX)
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USA Life and Work at Google
A Google employee rides on his electric scooter inside the campus in Mountain View on Tuesday, July 3, 2007. Google Inc., founded in 1998 by Stanford Ph.D. students Larry Page and Sergey Brin, is a leading company specializing in Internet search and online advertising. It has over 13,000 full-time employees and is well-known for treating them very well with high salaries, stock options and free amenities such as gourmet meals, laundry facilities and massages. (FOTO: DUKAS/WORLDPICTURENEWS)
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USA Life and Work at Google
Google employees ride on their electric scooters inside the campus in Mountain View on Tuesday, July 3, 2007. Google Inc., founded in 1998 by Stanford Ph.D. students Larry Page and Sergey Brin, is a leading company specializing in Internet search and online advertising. It has over 13,000 full-time employees and is well-known for treating them very well with high salaries, stock options and free amenities such as gourmet meals, laundry facilities and massages. (FOTO: DUKAS/WORLDPICTURENEWS)
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USA Life and Work at Google
Google employees walk inside the campus in Mountain View, California on Tuesday, July 3, 2007. Google Inc., founded in 1998 by Stanford Ph.D. students Larry Page and Sergey Brin, is a leading company specializing in Internet search and online advertising. It has over 13,000 full-time employees and is well-known for treating them very well with high salaries, stock options and free amenities such as gourmet meals, laundry facilities and massages. (FOTO: DUKAS/WORLDPICTURENEWS)
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USA Life and Work at Google
Google employees sit outside on the campus in Mountain View, California on Tuesday, July 3, 2007. Google Inc., founded in 1998 by Stanford Ph.D. students Larry Page and Sergey Brin, is a leading company specializing in Internet search and online advertising. It has over 13,000 full-time employees and is well-known for treating them very well with high salaries, stock options and free amenities such as gourmet meals, laundry facilities and massages. (FOTO: DUKAS/WORLDPICTURENEWS)
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USA Life and Work at Google
Google employees work outdoors inside the campus in Mountain View, California on Tuesday, July 3, 2007. Google Inc., founded in 1998 by Stanford Ph.D. students Larry Page and Sergey Brin, is a leading company specializing in Internet search and online advertising. It has over 13,000 full-time employees and is well-known for treating them very well with high salaries, stock options and free amenities such as gourmet meals, laundry facilities and massages. (FOTO: DUKAS/WORLDPICTURENEWS)
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USA Life and Work at Google
Employees pass through the lobby of a building at Google in Mountain View, California on Tuesday, July 3, 2007. Google Inc., founded in 1998 by Stanford Ph.D. students Larry Page and Sergey Brin, is a leading company specializing in Internet search and online advertising. It has over 13,000 full-time employees and is well-known for treating them very well with high salaries, stock options and free amenities such as gourmet meals, laundry facilities and massages. (FOTO: DUKAS/WORLDPICTURENEWS)
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USA Life and Work at Google
An employee stands in the Tech Stop at Google in Mountain View, California on Monday, July 9, 2007, where employees can get help with their equipment such as laptops. Google Inc., founded in 1998 by Stanford Ph.D. students Larry Page and Sergey Brin, is a leading company specializing in Internet search and online advertising. It has over 13,000 full-time employees and is well-known for treating them very well with high salaries, stock options and free amenities such as gourmet meals, laundry facilities and massages. (FOTO: DUKAS/WORLDPICTURENEWS)
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USA Life and Work at Google
Google employees use their laptops in one of the multiples lounges on the campus in Mountain View, California on Tuesday, July 3, 2007. Google Inc., founded in 1998 by Stanford Ph.D. students Larry Page and Sergey Brin, is a leading company specializing in Internet search and online advertising. It has over 13,000 full-time employees and is well-known for treating them very well with high salaries, stock options and free amenities such as gourmet meals, laundry facilities and massages. (FOTO: DUKAS/WORLDPICTURENEWS)
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