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China makes world's 1st 3D blood vessel bio-printer
English.news.cn 2015-10-25 22:26:12

CHENGDU, Oct. 25 (Xinhua) -- A Chinese biotechnological company announced on Sunday it has developed the world's first 3D blood vessel bio-printer, which makes it possible to produce personalized functional organs.

Sichuan Revotek Co., Ltd. based in Chengdu, capital of southwest China's Sichuan Province, said the significant breakthrough has been achieved through its self-developed stem cell bio-ink technology, 3D bio-printer and cloud computing platform.

"The creative breakthrough in the 3D blood vessel bio-printing means we have mastered the stem cell-based 3D bio-printing technology," said Yang Keng, chairman of Sichuan Languang Development Co., Ltd. Revotek is a subsidiary of Sichuan Languang.

Blood vessels that transport nutrients to organs are indispensable elements when creating any organs, according to James Kang, an expert who led the program.

Kang's team has created a novel type of bio-ink - "Biosynsphere", whose primary goal is the personalized stem cell bio-printing to pave the way for organ regeneration.

"We have successfully realized the blood vessel regeneration by relying on the 3D bio-printer, the biosynsphere technology and the data model based on cloud computing," he said.

The company said it is willing to absorb more talent and seek international cooperation for the application of the achievements.

China makes world's 1st 3D blood vessel bio-printer
- Xinhua | English.news.cn
 
China spends big on nuclear fusion as French plan falls behind


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China’s will be bigger and better (Image: David Parker/SPL)

The world’s largest nuclear fusion machine, currently being built in France, is unlikely to produce more energy than it consumes until the early 2030s, warned the UK’s head of fusion research this week. That is five years later than planned – by which time China could be ahead of everyone.

Nuclear fusion involves heating a plasma of hydrogen isotopes so that they fuse into helium, releasing a large amount of energy in the process. Many physicists see it as the holy grail for producing cheap zero-carbon energy. But initiating the fusion reactions requires temperatures 10 times as hot as the core of the sun. And decades of experiments have yet to produce self-sustaining fusion reactions – known as “burning plasma” – that generate the energy required to produce such temperatures.

The International Thermonuclear Experimental Reactor (ITER), a $20 billion machine being built in Cadarache, France, should get there. “We are confident that it will,” Steven Cowley, director of the Culham Centre for Fusion Energy in Oxfordshire, told the science and technology committee of the UK’s House of Lords on Tuesday. But it is taking time and money.

Burning plasma
Constructing ITER has already cost three times as much as budgeted, and completion has slipped from 2016 to 2019, with the first plasma experiments the following year. Cowley told the committee: “ITER says 2020, but I believe the first plasma will be [generated] in 2025.” Burning plasma is unlikely before “the early 2030s”, he said. He likened the moment when burning plasma is achieved to the moment in the early 1940s when the first “critical” nuclear fission reactions were produced.

Only then will the international researchers, many of whom have been working together for decades, move on to building a new plant that could generate continuous power – the forerunner for what they hope will be commercial nuclear fusion by late in the century. “But the biggest investment now is in China,” says Cowley. China is a collaborator on ITER, along with the European Union, the US and others. But it is investing heavily in building its own reactor, the China Fusion Engineering Test Reactor, which will be bigger than ITER and may be finished by 2030, he said.

Cowley disclosed that some partners had discussed whether to continue collaboration with China or shut them out. “We decided to continue to collaborate.” Shutting China out “would only slow them down by a few months”, he told the Lords, who are investigating whether the UK government is getting value for money in its fusion investments. Fusion currently accounts for 14 per cent of UK government spending on energy research, Sharon Ellis of the Department for Business, Innovation and Skills told the committee.

@Martian2
 
China makes world's 1st 3D blood vessel bio-printer
October 26, 2015

A Chinese biotechnological company announced on Sunday it has developed the world's first 3D blood vessel bio-printer, which makes it possible to produce personalized functional organs.

Sichuan Revotek Co., Ltd. based in Chengdu, capital of southwest China's Sichuan Province, said the significant breakthrough has been achieved through its self-developed stem cell bio-ink technology, 3D bio-printer and cloud computing platform.

"The creative breakthrough in the 3D blood vessel bio-printing means we have mastered the stem cell-based 3D bio-printing technology," said Yang Keng, chairman of Sichuan Languang Development Co., Ltd. Revotek is a subsidiary of Sichuan Languang.

Blood vessels that transport nutrients to organs are indispensable elements when creating any organs, according to James Kang, an expert who led the program.

Kang's team has created a novel type of bio-ink - "Biosynsphere", whose primary goal is the personalized stem cell bio-printing to pave the way for organ regeneration.

"We have successfully realized the blood vessel regeneration by relying on the 3D bio-printer, the biosynsphere technology and the data model based on cloud computing," he said.

The company said it is willing to absorb more talent and seek international cooperation for the application of the achievements.

@Martian2 , @AndrewJin , @cirr
 
Tiny genetically modified 'micropigs' from China could be boon for science and pet sellers

October 19, 2015

Julie Makinen

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A BGI technician with a micro pig. BGI is a Chinese biotech firm. Photo: BGI

Have you been pining for a "teacup" pig but worried that the supposedly petite porcine pet might grow as big as your bathtub?

A Chinese biotech firm says it now has the answer: a genetically modified swine that tops out around 15 kilograms.

BGI, a company based in the southern city of Shenzhen that is known for its work sequencing human, plant and animal DNA, recently announced that it intends to start selling $US1600 ($2203) miniature pigs that it initially created as laboratory models for studying human ailments.:enjoy:

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A BGI micro pig at a summit in Shenzhen, China. Photo: BIG

The pigs created a splash late last month when BGI showed them at the Shenzhen International Biotech Leaders Summit. The pint-size porkers were created through a process known as gene editing. Rather than introduce another organism's DNA into the pigs, scientists "edit" the swine's own genetic material, disabling a copy of the growth hormone receptor gene so that cells don't get a signal to grow.

Swine-loving celebrities will have to wait for further innovation for truly purse-portable pigs (Miley Cyrus' Bubba Sue and Paris Hilton's Princess Piglette are more than a handful, while George Clooney's 18-year companion, Max, grew to 113 kilograms before he died in 2006).

But animal breeders and advocates say the prospect of even a 30-kologram pig could reduce the problem of people abandoning pet swine that pack on the kilograms beyond their owners' expectations. Curt Mills, a board member of the Southern California Association for Miniature Pot-Bellied Pigs, says four regional shelters for the animals are all at capacity, with about 150 oinkers looking for homes.

"Pigs are good pets, but a lot of issue is the size," said Patty Morrisroe, a pig breeder in Dallas, Oregon, who says she has spent 30 years selectively breeding swine to produce pigs she calls "Royal Dandies" and "Dandie Extremes" that can be around 17 kilograms full grown. But with just four breeding sows, her litters are limited - about 20 piglets per year - and she charges $US2500 ($3443) to $US5500 ($7574) per animal.

"If you could immediately make a small pig, it would be very cool, but there are still a lot of questions," she said.

Kenneth Bondioli, a professor of animal sciences at Louisiana State University, said BGI's gene-edited micro pigs would need to be evaluated to see if they develop healthily and to determine whether they could harm the environment or other livestock if they were released or escaped. It is unclear whether BGI intends to offer its pigs for sale outside China, but if Australians wanted them, regulators would have to determine whether they could be imported.

"If these and other questions are addressed, the fact that they are gene-edited is irrelevant," Bondioli said.

Researchers say the creation of micro pigs could be a boon for scientists, cutting down on the cost of raising them as laboratory animals and making their care more manageable. "Their utility for research will depend on whether they are otherwise normal like a regular pig and unaffected by the edited gene other than their diminutive size," said Willard Eyestone, an associate professor of biotechnology at Virginia Tech.

These micro pigs could be useful "especially for long-term studies, during which even currently available 'mini pigs' grow to substantial size."

But Alison Van Eenennaam, a biotechnology specialist at the University of California, Davis who visited BGI about three months ago and saw their micro pigs, said the fact that the company has resorted to marketing them as pets reflects the "global regulatory gridlock" around gene-edited animals for food production and other more serious purposes.

"Genome editing is a powerful technology that can be used for many beneficial applications ... such as producing disease-resistant animals and other things that would have real benefits for the sustainability of food production," she said. But worldwide, she said, no genetically engineered animal for food production has been able to be brought to market, and only a few genetically engineered animal therapeutic products have been approved for humans. That, she believes, is making companies hesitant to invest in the technology.

Bioengineered pets, though, have found easier acceptance. A transgenic florescent fish, marketed under the brand GloFish, has been popular for a number of years in the United States. The fish were created by Singaporean researchers who inserted jellyfish and sea anemone genes into zebrafish eggs.

"People are happy to have them in their aquarium, but it's when it's on their dinner plate that they have a different attitude," said Van Eenennaam.

A company called AquaBounty has been seeking for more than 20 years to win US Food and Drug Administration approval to bring a genetically modified fast-growing salmon to supermarkets. While the AquAdvantage salmon and the GloFish have been engineered to incorporate genes from other fish, the technique used by BGI to create its micro pigs is different and presents a new question for regulatory agencies like the FDA if they were to be imported to the United States.

Pigs are technically food animals, said Max Rothschild, an agriculture professor at Iowa State University, and the FDA reserves the right to regulate any genetic modification introduced into such organisms. But in sharp contrast to genetically modified organisms with DNA added into their genomes, he said, the micro pig was made by removing just a few, highly targeted letters of DNA from its own genome.

"The FDA should be grappling with this major difference right now as to how it will affect regulatory policy," he said, "and whether gene-edited organisms should be regulated in the same way as more traditional GMOs."

It's not just pigs that have been gene-edited. The technique has been demonstrated in cattle as a way to add muscle, and to ensure dairy cows don't grow horns (Holsteins often have their horns mechanically chopped). But those applications have not yet been developed to commercial scale, said Van Eenennaam.

What rules should apply to gene editing is an increasingly pressing question for not just agencies like the FDA but scientists themselves and medical ethicists as the technique moves from the animal world to the human realm. Although the gene editing holds the promise of significant medical breakthroughs, it also could open a Pandora's box of eugenic-like applications.

For several years, scientists have been using editing to modify genes in adult human cells, by, for example, changing bone marrow cells to make people resistant to HIV. But this year, a team of Chinese researchers caused an international stir when they announced that they had used gene editing to alter DNA in human embryos in an attempt to repair a defect that causes a potentially fatal blood disorder.

While Chinese researchers' application of gene-editing techniques - for pigs or people - may give some people pause, Chinese scientists are mindful that the global regulatory environment, particularly in the US, has consequences for their efforts.

"When I was in China the researchers there ... were asking why isn't the FDA approving the genetically engineered fish because it's making the global regulatory agencies hesitant to do anything," said Van Eenennaam, who believes data show the AquAdvantage is safe and that gene-editing animals like pigs and cattle is not materially different from traditional selective breeding.

"It's impeding this technology from being utilised - if you go to all the effort of making an animal and it's unclear whether you're going to be able to market it."

BGI agrees there is a need to regulate gene editing both for creating pets as well as for medical research, which is central to the company's micro pig business. Yong Li, the technical director of BGI's animal-science platform, told the journal Nature that any profits from BGI's pet micro pigs would be ploughed into medical research. BGI believes it can use gene-editing not just to control size but also to give consumers a choice of colours.

"We plan to take orders from customers now," he told the journal, "and see what the scale of the demand is."

Los Angeles Times

Tiny genetically modified 'micropigs' from China could be boon for science and pet sellers

China is indeed making some strides in bio-engineering. Still lots of fronts to be discovered!
 
"A Chinese biotechnological company announced on Sunday it has developed the world's first 3D blood vessel bio-printer, which makes it possible to produce personalized functional organs."

So starting from the success of "printing" the vessels, any other organs can be developed from the patients' own stem cells through this marvellous invention!!

People who are waiting for organ donors can find the replacement organs in themselves.

It is an invenion worthy of a Nobel Prize!
Congratulations!

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About us | Royole Corporation

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Another Chinese company also has claimed the same some months ago

Home | Technology News >> Mobile >> In New Vision is ready to prototype very flexible AMOLED panel thickness of only 0.01 mm

In New Vision is ready to prototype very flexible AMOLED panel thickness of only 0.01 mm
Your News Ticker | June 12, 2015

The Chinese company, New Vision, a year ago, which demonstrated a five-inch flexible AMOLED display on a plastic base , boasted another achievement in this area. She showed a prototype panel with a thickness of 0.01 mm.

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The prototype is very flexible – minimum radius of curvature of only 4.5 mm. The prototype uses a polyimide substrate, control circuitry and thin film transistors oxide radiating elements to direct radiation from the primary colors (RGB). Features flexible panel is well shown in the video released by the manufacturer.

The New Vision expect a quick commercialization
 
Story and video from Dec 2014.
Royole shows a 0.01 mm thick flexible AMOLED prototype | OLED-Info

Dec 17, 2014
Royole, a startup established in the US in 2012, unveils their first prototype, a 0.01 mm thick (thin?) flexible AMOLED prototype (which they say is the thinnest ever). Here's a video showing the display in action:


The display is bendable, and has a bending radius of 1 mm. Samsung's recent flexible AMOLED prototypes has a radius of 5 mm - but these prototypes are closer to production units (the flexible OLED in the Galaxy Note Edge has a radius of 7 mm). Samsung's aim is to achieve a radius of 1 mm in production within two years.

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Apart from the video and photos, we have very little details. As far as I understand, Royole is developing flexible AMOLED backplane technologies and other OLED related technologies and materials. Hopefully we'll learn more about this interesting new company soon.
 
1st nuclear plant in W. China begins operation
By Chen Xia
China.org.cn, October 26, 2015


The first nuclear power plant in western China began operation on Oct. 25. It is expected to provide up to 15 billion kilowatt-hours (kWh) a year of cheap, safe and clean power to the Beibu Gulf Economic Zone in southwest China, China News Service reported.


The phase 1 project of the Fangchenggang nuclear power plant, first of its kind in western China, began operation on Oct. 25 in Fangchenggang City, Guangxi Zhuang Autonomous Region. [Photo/Chinanews.com]

Lying only 45 kilometers from the border with Vietnam, the plant is located in Fangchenggang City, Guangxi Zhuang Autonomous Region. The phase-1 project contains two 1,000-magawatt (MW) CPR-1000 reactors, which are domestically-developed second-generation, pressurized water reactors. Construction of the plant started on July 30, 2010.

Compared with a coal-fired power plant of the same capacity, the nuclear facility can save 4.82 million tons of standard coal every year. It can also cut down the annual emission of carbon dioxide by 11.86 million tons, and sulfur dioxide and nitrogen oxide by 190,000 tons. In environmental terms, this is equivalent to the growth of 32,500 hectares of forest a year.

According to the development plan, Hualong One, China's third-generation nuclear reactor design, will be used in the plant's Unit 3 and Unit 4. This is of international significance as the same type of reactor will be used in the Bradwell nuclear plant in Essex, southeast England.
 
Scientist collects award for work on solar storms
Xinhua, October 27, 2015

A researcher at the State Key Laboratory of Space Weather of the National Space Science Center under the Chinese Academy of Sciences has made an outstanding contribution to research on solar storms, and was recently awarded the Zhao Jiuzhang Science Prize, named after China's space science pioneer.

Delivering a report at the award presentation, scientist Liu Ying said a super solar storm could cause trillions of dollars worth of damage, from which it could take between four and 10 years to recover.

A super solar storm on September 1, 1859 first triggered research on the phenomenon.

The Carrington Event, as it was known, caused colorful auroras that could be seen even in low latitude regions like Hawaii. It also caused the failure of telegraph systems in northern America and Europe.

The most recent solar storm happened on March 15 this year. Although not a super storm, it caused the biggest geomagnetic storm on earth in a decade.

"Our research shows that the geomagnetic storm was caused by the interaction of two coronal mass ejections," Liu said.

Understanding solar storms is important to China's space development. The high-energy particle radiation of a solar storm could be carcinogenic for astronauts and damage electronic devices on a spacecraft, he said.

If the solar storm hit earth's magnetosphere, it could trigger a geomagnetic storm and damage power grids, and navigation and telecommunication systems, he said.

In 2012, Japanese, European and Chinese scientists respectively found a remarkable increase of radioactive carbon-14 in tree rings and corals, which dated back more than 1,200 years to about AD775.

Scientists believe the phenomenon was caused by a super solar storm, after finding a record of splendid auroras on the night of January 17 in historical documents from China's Tang Dynasty (618-907).

According to the documents, the auroras covered most of the sky above the northern hemisphere, and lasted for about eight hours.

Another super solar storm, on July 23, 2012, was regarded as "perfect" by scientists.

Perfect conditions

"We call it a 'perfect storm,' because all the conditions aligned to create such a big storm," Liu said.

He cooperated with scientists in the United States and Europe to observe the whole process of a super solar storm for the first time in history, and to identify the formation mechanism. Their research was published on the scientific journal, Nature Communications.

"Had the solar storm happened nine days earlier, it would have hit the earth, destroying power grids, satellites and GPS systems, causing huge losses," Liu said.

US scientists have estimated the probability of a super solar storm happening in the coming decade at about 12 percent, while Japanese scientists have put the figure at 6 percent.

"We believe the probability could be from 5 percent to 10 percent, but it's only a rough estimate," Liu said.

The formation of solar storms is attributed to the unstable process of the corona magnetic field, but as this is still difficult to observe the actual cause remains a mystery.
 
COMAC developing wide-body jetliner
China Daily, October 27, 2015

China has begun to develop its C929 wide-body jetliner as its predecessor, the C919 narrow-body airliner, is about to make its first test flight, according to aviation industry insiders.

Commercial Aircraft Corp of China, developer of the nation's large civil aircraft, is working on key technologies that will be used on the C929, Wang Jian, chairman of AVIC Electromechanical Systems Co, a subsidiary of Aviation Industry Corp of China, said at an industry forum on civil aircraft electromechanical systems that concluded on Friday in Nanjing, Jiangsu province.

Wang did not specify what those technologies were but said the aircraft will be capable of carrying more than 300 passengers.

Earlier reports had said that the C929 will be equipped with domestically developed engines and aims to compete with the Boeing 777, the world's largest wide-body, twin-engine jetliner.

Wang's remarks were echoed by AlanJones, president and CEO of Aviage Systems, a joint venture of General Electric and Aviation Industry Corp of China that provides avionics systems for the C919 project.

"COMAC has invited my company to take part in the bidding for the C929's avionics equipment, and I believe that will be very competitive bidding. Most of the top-tier manufacturers of avionics systems will be eyeing a contract," he said.

COMAC is expected to distribute a request for proposals for the C929 project to suppliers in 2016 and then sign a letter of intent with its chosen partners in 2017, Jones said.

COMAC is currently preparing for the first test flight of the C919, set for the third quarter of next year, though it's also possible that the test will be postponed to 2017 because of technical uncertainties, Wang said.

Launched in 2008, the C919 project is China's attempt to break the Airbus-Boeing duopoly. The plane is set to compete against the Airbus A320, the Boeing 737 and Russia's Irkut MS-21. It will be able to carry up to 168 passengers and will have a maximum range of about 5,500 kilometers, according to COMAC.

The first prototype of the C919, to be used for test flights, will roll off the assembly line on Nov 2 at COMAC's Shanghai factory, Wang said. It will take months of static testing on the ground before it will be tested in flight.
 
Robots are taking over China's factory floors | CNNMoney

Quote from the CNNMoney video (at 0:21) on Chinese Robots: "China is now the biggest user of industrial robots in the world. It took that position last year from Japan."

 
Robots are taking over China's factory floors | CNNMoney

Quote from the CNNMoney video (at 0:21) on Chinese Robots: "China is now the biggest user of industrial robots in the world. It took that position last year from Japan."



Already? That's faster than forecast by IFR (International Federation of Robotics)! By end 2014 Japan still leads the world in industrial robots by far. While China Mainland was 100,000 units behind, on par with South Korea & Germany, about 4 times of Taiwan. Check data from IFR:

RTEmagicC_Table_2_Executive_Summary_01.jpg.jpg

Given the fast growth, chances are China might have matched Japan by now, anyway I am waiting for new data from IFR. However for sure in terms of density (Units per 10,000 workers) China Mainland is still way behind top leaders e.g. South Korea, Japan, Germany & Taiwan.

With initiatives like "Made in China 2025", wish China Mainland may close gap with peers in East Asia within a decade!

Statistics - IFR International Federation of Robotics
 
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Robots are taking over China's factory floors | CNNMoney

Quote from the CNNMoney video (at 0:21) on Chinese Robots: "China is now the biggest user of industrial robots in the world. It took that position last year from Japan."


All reports I have ever read use the same factories to bring forward their case regarding automation.

The factories are Rapoo factory (as used here), Irwin Precision Shenzhen (used in other reports, the ones talking about "workerless" factories) and one two more.

Showing one factory doesn't change things.

Automation is very expensive, inflexible, and limited. There are some fields where automation simply doesn't work.

Automobile is the most automation intensive field, and virtually a third of all robots sold are in the automobile sector.
 
All reports I have ever read use the same factories to bring forward their case regarding automation.

The factories are Rapoo factory (as used here), Irwin Precision Shenzhen (used in other reports, the ones talking about "workerless" factories) and one two more.

Showing one factory doesn't change things.

Automation is very expensive, inflexible, and limited. There are some fields where automation simply doesn't work.

Automobile is the most automation intensive field, and virtually a third of all robots sold are in the automobile sector.

and guess where the biggest automotive market is?

moreover, china is the biggest manufacturer in the world, it only makes sense that its becoming the biggest robot user as well. but as noted, per capita wise its still very, very low.
 
and guess where the biggest automotive market is?

moreover, china is the biggest manufacturer in the world, it only makes sense that its becoming the biggest robot user as well. but as noted, per capita wise its still very, very low.

Noted.

Also, as I say, the automobile sector will automate. But what about other sectors?

Over here, jobs will shift to SE Asia. It is already gradually happening in things like assembling, textile apparel etc.
 
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