Supranano engineering enhances strength and ductility of structural materials

Building on their work on the first-ever supranano magnesium alloy, a research team led by City University of Hong Kong (CityUHK) has demonstrated how supranano engineering can lead to higher strength and higher ductility in bulk structural materials. The findings have been published in Science under the title, "Ductilization of 2.6-GPa alloys via short-range ordered interfaces and supranano precipitates." The ultimate problem that the CityUHK-led team has set out to solve is related to the strength and ductility of materials made from metals, for example, steel or titanium, said Professor Lu Jian, Dean of CityUHK's College of Engineering. "If we want to create stronger and more ductile materials, we need to guard against producing alloys that inevitably show decreased strain-hardening capacity over time," Professor Lu said.

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blogroll so i don't forget the blogs i make + i can return to them all eventually. 👍

@nullfier --- dazai of bungo stray dogs. criminal executive turned good detective, full of whimsy and holds the ability to nullify any ability with a single touch. suicide fanatic. @jianshou --- original character qu yuan houyi of bungo stray dogs. biochemically engineered "human being" and singularity host to the ancient chinese mythological beast, feilian. inspiration from blade runner, extinction, ex machina and elysium. @mizarn --- original character nakamura yuka mizaru of bungo stray dogs. port mafia battalion leader, of the group "mirage" -- a female-lead militant brigade. holds the ability to rid people of sight, hearing and speech using an inspiration of the japanese pictorial maxim, three wise monkeys. @aidora --- adora of she-ra and the princesses of power. etheria's champion, their she-ra. uniting the princesses of etheria to save their world from the darkness of the horde. @voilent --- vi of netflix's arcane. very little knowledge of league of legends (sorry)so mostly show-based with some personal interpretations against what knowledge i do have. @bluai --- mizu of netflix's blue eye samurai. swordmaker, samurai of the edo period on the path to revenge, sworn to kill all four of the white men that ruined japan, all four of their possible lineage. as of the end of s1, on the path to london england, in search of the third man. @penrdagon --- howell jenkins pendragon from howl's moving castle. inspired by both the original novel and the animated film. welsh wizard wandering the plains and wastes of the magical world of ingary. "heartless" mage that exchanged his heart with a star for power. hates ugly things. very nearly becomes a bird creature. @gijia --- original character nam miyeon of vigilante. journalist working to uncover the mysterious and unfair death of her brother, whilst adjacent to trying to unmask the vigilante in order to gain their help. @okaurn --- takakura ken okarun of dandadan. nerdy alien and cult fanatic that previously denounced the existence of the paranormal until a demon stole his balls and took over his body. he has at least one ball back and covets the power of turbo granny, refusing to return it until he finds his second ball. @sugnru --- suguru geto of jujutsu kaisen. special grade sorcerer with the ability to consume curses and control them like puppets. previously affiliated with jujutsu society until he became a curse user following a series of tragic events. @inmuaki --- inumaki toge of jujutsu kaisen. grade 1 sorcerer, bearer of the inumaki clan's cursed-speech technique. weilding the snake and fangs seal upon his mouth. exiled from jujutsu society near one-thousand years ago and reintegrated into the system through the tokyo metropolitan curse technique college. @aoisi --- original character of gaelic folklore róisín madalín (magdalene) o'h-eana, a leannán sídhe (though with vampiric depiction), a beautiful and ancient druid/faerie that grants their prey artistic inspiration and becomes their muse, and once leaving them drives them mad with lust and grief, making their lives incredibly brief. once hoarding all works gifted to her before the accusation of witchcraft saw her home burned and her life in danger. fitting into the modern world as a talent scout/manager though still in-keeping with her roots to the aos sí.

others, @yusosha (dazai set in the hunger games), @byosa (hong cha-young of vincenzo), @jianes (hiro of darling in the franxx), @2ouma (douma of kimetsu no yaiba), @montagvs (roman nikolaevich montagov of these violent delights), @kosytk (david kostyk of the grishaverse), @ibiytsa (nina zenik of the grishaverse), @dmjin (kaz brekker of the grishaverse).

blogroll so i don't forget the blogs i make + i can return to them all eventually. 👍

@nullfier --- dazai of bungo stray dogs. criminal executive turned good detective, full of whimsy and holds the ability to nullify any ability with a single touch. suicide fanatic. @jianshou --- original character qu yuan houyi of bungo stray dogs. biochemically engineered "human being" and singularity host to the ancient chinese mythological beast, feilian. inspiration from blade runner, extinction, ex machina and elysium. @mizarn --- original character nakamura yuka mizaru of bungo stray dogs. port mafia battalion leader, of the group "mirage" -- a female-lead militant brigade. holds the ability to rid people of sight, hearing and speech using an inspiration of the japanese pictorial maxim, three wise monkeys. @aidora --- adora of she-ra and the princesses of power. etheria's champion, their she-ra. uniting the princesses of etheria to save their world from the darkness of the horde. @voilent --- vi of netflix's arcane. very little knowledge of league of legends (sorry)so mostly show-based with some personal interpretations against what knowledge i do have. @bluai --- mizu of netflix's blue eye samurai. swordmaker, samurai of the edo period on the path to revenge, sworn to kill all four of the white men that ruined japan, all four of their possible lineage. as of the end of s1, on the path to london england, in search of the third man. @penrdagon --- howell jenkins pendragon from howl's moving castle. inspired by both the original novel and the animated film. welsh wizard wandering the plains and wastes of the magical world of ingary. "heartless" mage that exchanged his heart with a star for power. hates ugly things. very nearly becomes a bird creature. @gijia --- original character nam miyeon of vigilante. journalist working to uncover the mysterious and unfair death of her brother, whilst adjacent to trying to unmask the vigilante in order to gain their help. @okaurn --- takakura ken okarun of dandadan. nerdy alien and cult fanatic that previously denounced the existence of the paranormal until a demon stole his balls and took over his body. he has at least one ball back and covets the power of turbo granny, refusing to return it until he finds his second ball. @sugnru --- suguru geto of jujutsu kaisen. special grade sorcerer with the ability to consume curses and control them like puppets. previously affiliated with jujutsu society until he became a curse user following a series of tragic events. @inmuaki --- inumaki toge of jujutsu kaisen. grade 1 sorcerer, bearer of the inumaki clan's cursed-speech technique. weilding the snake and fangs seal upon his mouth. exiled from jujutsu society near one-thousand years ago and reintegrated into the system through the tokyo metropolitan curse technique college. @aoisi --- original character of gaelic folklore róisín madalín (magdalene) o'h-eana, a leannán sídhe (though with vampiric depiction), a beautiful and ancient druid/faerie that grants their prey artistic inspiration and becomes their muse, and once leaving them drives them mad with lust and grief, making their lives incredibly brief. once hoarding all works gifted to her before the accusation of witchcraft saw her home burned and her life in danger. fitting into the modern world as a talent scout/manager though still in-keeping with her roots to the aos sí.

others, @yusosha (dazai set in the hunger games), @byosa (hong cha-young of vincenzo), @jianes (hiro of darling in the franxx), @2ouma (douma of kimetsu no yaiba), @montagvs (roman nikolaevich montagov of these violent delights), @kosytk (david kostyk of the grishaverse), @ibiytsa (nina zenik of the grishaverse), @dmjin (kaz brekker of the grishaverse), @jinusa (jinu of kpop demon hunters), @m1ratrix (mira of kpop demon hunters).

(via https://www.youtube.com/watch?v=5CfdLnzbrvo)

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Can you show which moments from the Fantastic Four comics in which Johnny Storm has displayed some intelligence?

Johnny, contrary to most people’s opinion, is actually very intelligent! When you put him side-by-side with the likes of Val, Reed, Sue, or Peter Parker, of course he doesn’t seem all that bright, but on his own? He can be very smart. His problem is more that he doesn’t apply himself than a lack of intelligence. The thing I see people missing about Johnny the most often is that his overconfident, dumb blond playboy act is exactly that: an act. It’s important to realize that what Johnny says about himself in front of public, the press, people he doesn’t know too well, etc., is very different from what he actually thinks about himself, which is mostly that he’s useless, a loser, etc.

It’s canon that he’s very intelligent — in Fantastic Four v1 #351, when the FF are all put through a series of tests by two cosmic beings, Kosmos and Kubic, Johnny’s powers are suppressed and he is left to figure out a way out that doesn’t involve using his powers, and so he thinks his way out.

Kosmos and Kubic are impressed with Johnny’s intelligence, to the point that they determine at the end that he has a “powerful intellect” although he is so impulsive that he rarely uses it:

Cut for length.

We know too, thanks to Human Torch v2 #12, that his grades in college were very good — he dropped out because he loved Crystal and wanted to be with her all the time, not because of his grades. 

And he’s demonstrated his intelligence — and the fact that he uses his dumb playboy act to get people to underestimate him — repeatedly. In Waid’s run, in Fantastic Four v3 #65, he realizes that two of his employees (he’s appointed CFO of Fantastic Four, Inc, by Sue, its CEO) are conspiring to get him fired, and he collaborates with Reed to expose them.

Jian Feeta, Johnny’s secretary during this time period, actually comments on the fact that Johnny’s much smarter than he thinks he is:

He also, in Fantastic Four v3 #522, figures out how to revert Galactus to his human state in a way Reed had never even thought of doing:

In Secret Invasion: Fantastic Four v1 #1, he also figures out that Sue isn’t, in fact, Sue, but instead Johnny’s ex-wife, Lyja the Lazerfist. Notice that he says himself that he’s actually very smart when he wants to be.

There’s also Spider-Man and the Human Torch in…¡Bahia de los Muertos! where Ben, Sue, and Reed are off-planet and Johnny has to figure out how to defeat the bad guy on his own. He doubts himself, of course, but he manages to do it in the end, and then Reed tells him he’s impressed:

Johnny IS one of the most experienced superheroes in the Marvel Universe, after all. He really knows what he’s doing, no matter how much he doubts himself.

I’d say that when it comes to mechanical engineering especially, Johnny is very gifted. Johnny has been helping Reed design and build the Fantasticar since he was about sixteen years old, which we first see mentioned in Fantastic Four v1 #12:

It’s something he’s kept doing for the past fifteen years or so. In Amazing Spider-Man v1 #657, Peter and Reed are wondering about Johnny’s level of intelligence, and Johnny, offended, points out that he helped Reed build the casing to the warp drive:

Later on, after the engine goes wonky while they’re in space, Johnny’s the one who figures out what’s wrong with it:

And then Peter admits that Johnny’s actually a very smart guy, even if he’d never say that to him.

And in SHIELD #3, we’re shown Johnny in his workshop with an engine he designed himself from scratch, which he is planning on entering into a competition:

There’s also Incredible Hulk and the Human Torch: From the Marvel Vault, where Johnny goes to inspect a lab because Reed can’t, and the scientists are very impressed with how intelligent he is:

The Hulk and the Frightful Four both attack, and Johnny ends up figuring out how to beat them both, and very cleverly too. In the end, he realizes that he’s smarter than he thinks he is:

Anyway, those are just a few examples. There are many more! Johnny Storm is much smarter than anyone ever gives him credit for.

        what’s the cosmos, but a little closet space ?

CLAIRE BEATRICE DEARING entered the world of galactic politics with pure intentions; from humble beginnings, a little girl living in a house well beyond the outskirts of Elysium’s capital city, with her parents, and her older sister. Born in 2153. She loved animals. She loved people. She had a bug collection (expired from natural causes, of course), and organized scrapbooks with such minimalist hyper-efficiency, she turned it into a modest entrepreneurial business to earn money that helped finance her contributions to her high school committee as student body president.  Elysium, as a colony, is a diverse “melting pot” of sentient species, mostly human and asari. Due to the fact that half of Elysium's population is nonhuman, requiring extra screening procedures, security there is very tight----- which only increased after 2176, when the colony was attacked by a large force of mercenaries and pirates under the command of Elanos Haliat in what would become known as the Skyllian Blitz;  Claire was attending university as a sophomore in Illyria, at the time. Her father was a retired Commissioner for the Illyria City Police Department; she had received basic training and handling of firearms from him, even had a license to carry. She had managed to defend herself and aid others during the attack, before the slavers were valiantly repelled by Alliance forces. The experience had put things into perspective, to say the least. The aftermath was arguably worse, inciting attrition, fear-induced prejudice and unjust immigration policies targeting batarian and krogan denizens. Claire’s leg was injured, and while it was not crippling, it had affected her performance as a college track and field runner.

Claire was idealistic, but she was also shrewd. Pragmatic. She understood that in order for real change to happen, she could not just join a charitable non-for-profit organization, or become an activist-------   change required power,  and that power was in politics. Money. She majored in political science, graduated with honors, and, at the age of 19, was accepted into a paid internship with Masrani Global and its subsidiary company, Interplanetary Genetics Incorporated/Technologies (InGen); owned by Simon Masrani, Masrani Global is a massive conglomerate corporate entity with a plethora of successful business ventures in Bioengineering and Biotechnology, Colonization and Exploration, Mining and Energy, Weapons/Personal Defense and Private Military, and Architectural Engineering Construction. Masrani Global and its intergalactic genetics company offered her an opportunity she had wanted more than anything, at the time. The megacorporation was incredibly influential across the sol system, citadel space, and the outer rim. They had connections. They had power. They have helped people, from providing constructions and resources for budding colonies, to saving endangered and extinct animal species (especially Earth animals) through their advanced genetic engineering and cloning technology.

By the time she had graduated college, a career was already waiting for her at Interplanetary Genetics Technologies. By 2183, she was their corporate representative and assets manager, overseeing the productivity of the company’s divisions and research funding. InGen’s Security Division, in particular, was affiliated with the Citadel Council as an esteemed private security contractor and paramilitary service. Because of her experience with various species and interplanetary politics, Claire became a mediator for business relationships between Masrani Global and the Citadel Council species and their governments.

(ANDROMEDA INITIATIVE):

“There’s always been this thirst in me…this desire for adventure that comes only with the kind of risks I rarely take. I talk myself out of dangerous things more often than I do them. Careful Claire------- that’s me. What would happen if I weren’t so careful? Just once? Who could I be? What could I do?"

Masrani Global becomes a major contributor and investor in Jian Garson’s Andromeda Initiative. Claire, in particular, genuinely believed in the project. For once, she wasn’t Careful Claire. She was appointed to the project as an operations manager and corporate representative, handling InGen’s investments and resources contributed to the Andromeda Initiative, and working closely with Jian Garson, who became a great source of inspiration to her. Other candidates and associates included Baron “Barry” Dumont: a French interplanetary zoologist, Owen Grady: a former N7 special forces operator and certified xenoanthropologist, Henry Wu: a highly skilled geneticist/bioengineer who contributed to the genetic therapy which prepared the Initiative’s denizens for extensive cryostasis... and lastly Simon Masrani himself, a benefactor and open supporter of the initiative.

Tragically, Simon Masrani perished on the Nexus, after his cryo-pod was allegedly damaged when the Scourge hit. Barry was stationed on the Asari Ark, Leusinia, and is currently missing.  Owen was stationed in the Turian Ark, Natanus, and is also missing. Claire remained on the Hyperion, but would later contribute her skills as an assets manager on the Nexus upon awakening from cryo-sleep.

Claire had left her parents, sister, and nephews behind to see the Andromeda Initiative through. When she wakes up from cryostasis, and nothing is going as planned, it’s a devastating disillusionment. However, she perseveres, and does whatever she can to restore order.  Currently, Claire offers her services to the Common Area of the Nexus, a docking area for incoming ships, and a central hub for social activity, immigration, and commerce. She can be found in the Tech Lab for research and development, with Henry Wu. She actively works to assist superintendent Nakmor Kesh, helping the krogan engineer to keeping the Nexus functional, which includes maintaining systems, integrating any returning arks, and overseeing construction efforts. 

Task: Headcanon Countdown

5 Headcanons About: Name

His full name is Jian Tan. Jian (健) is a Chinese name meaning “strong or healthy.” Tan (譚) is a Chinese name originating from the ancient State of Tan (1046 BCE–684 BCE), which was located in the western part of what is now Shandong Province. 

Jian does not have a middle name because middle names are not given in Chinese culture. While there is a Chinese custom of giving children a generation indicator, Jian’s parents opted not to do this, since neither of their parents did. 

Jian never adopted an English name. He never liked the idea of changing his name in order to appease people who didn’t want to take the time to learn his actual name or anything about his culture. After moving to the United States, people often asked him if he had a nickname or if he could be given one. His answer every single time was “No, call me by my real name. It’s only two syllables, it’s not hard to learn.” 

Jian’s mother has a different surname from him. Rather than taking Tan, she kept her maiden name, Huang (黃). The reason for this is that in Chinese culture, women do not typically change their names when they get married.

Jian’s surname in Korean (탄) translates to “burnt” in English. Tan is one of the rarest surnames in South Korea. In the year 2000, there were only 155 people in the entire country who were known to have this surname. 

4 Headcanons About: Places Lived/Travel 

Jian has lived in 10 cities and 3 countries throughout his lifetime. He spent the first 4 years of his life in his home country China, then moved to Korea, where he lived from ages 4-10. At 10 years old, he moved to the United States, where he has lived ever since. 

Jian is still a citizen of China, despite the fact that he hasn’t lived there in 20 years. He has had several different visas over the years, but is currently allowed to stay in the United States under an O-1A temporary workers visa. His work contract, apartment lease, and visa all expire in September 2021, so if he is going to stay in Santa Monica, and in the country as a whole, he needs to make this decision very soon.

Jian’s maternal grandparents still live in Shanghai. He writes them letters regularly and tries to visit them at least once per year. The last time he visited them was in the summer of 2020; he took this trip alone because his parents had work-related obligations to do. 

Besides China, Korea, and the United States, Jian has also traveled to Canada and Japan. He wasn’t super impressed by Canada, but Japan was his favorite place he ever visited. He would love to return one day, but would like to learn more of the language before taking this trip; when he first visited Japan, he was with a group of friends he made in college, and there were two fluent Japanese speakers in the group. 

3 Headcanons About: Home Life

Jian and his parents typically moved to a new city once every 2 years. His parents are restless and don’t like staying in the same place for too long. The only time they stayed in a location for more than 2 years was when Jian was in high school. They lived in Manhattan at the time, and stayed in Manhattan for all 4 years of high school because they grew fond of the school Jian was attending and didn’t want to pull him from it. He could have stayed in New York on his own after graduation, but felt uncomfortable doing so, which is one of the reasons why he sabotaged all of his connections there. The only other time he stayed in a city for more than 2 years was when he was in college, but he sabotaged his relationships there as well.

Growing up, Jian always felt as though he had to earn his parents’ love and respect; this wasn’t something that was given freely. In order to earn their love, he earned high marks in school and was always on his best behavior. He got into a bit of trouble in middle school when he started learning how to hack, but after that, he never had a behavioral complaint. It’s for this reason that his parents don’t know much about his personal life; if they knew everything there was to know about Jian, he fears that they would no longer love him. To this day, they are unaware that Jian had blue hair in college, has his ears pierced, and was in a 2-year long relationship with another man.

Jian comes from a wealthy family, but he’s always lived very modestly. He has always lived in small apartments and doesn’t have many material possessions asides from his clothes and video games. Even though he makes a 6-figure salary as a cyber security engineer, he still lives in a small apartment, rents a car, and tries not to splurge on unnecessary items too often. The one thing he owns that’s a strong indicator of his wealth is the Rolex watch his parents bought him as a high school graduation gift. 

2 Headcanons About: Favorite Food

Jian’s favorite Chinese dish is Peking duck (also known as Běijīng kǎo yā). This isn’t something he’s ever been able to make on his own– he does not own a hung oven, which is necessary to make Peking duck– but he orders it almost every time he eats Chinese food.

Jian is a lover of sushi. He’ll eat any type of sushi presented to him, but is most fond of salmon and eel. One of his favorite culinary experiences was when he went to a sushi restaurant in Japan and watched the chef make it fresh. 

1 Headcanon About: Goal

One of Jian’s biggest life goals is to stop sabotaging himself and his interpersonal relationships. He’s done a lot of self-reflection since the beginning of 2021 and has tried to reach out and apologize to people he’s wronged; these attempts have had varying results. He’s also begun meditating and reading Buddhist literature, which he hadn’t done in several years. He knows he still has a long way to go, and his progress hasn’t been linear, but this is something he’s determined to work on. 

Blue World City Islamabad: A Worthy Investment Option

Blue World City Islamabad: A Worthy Investment Option

Blue World City is a cooperation between Blue Group of Companies (BGC) and Shan Jian Municipal Engineering (Chinese firm). The general public got the endorsement a year ago by the Rawalpindi Development Authority (RDA).

In the course of recent years, it has constructed an incredible notoriety in the land business by effectively conveying lodging projects in Islamabad as well as in Lahore and Sargodha.

It expects to give an open to living by offering elite offices.

The vision behind Blue World City is to turn into the new ad center of Pakistan by getting nearby just as unfamiliar speculation.

The area of the general public is ideal for what it’s worth in closeness to the M2-Motorway (CPEC Route) and the Islamabad International Airport.

Foundation of Blue Group of Companies (BGC)

BGC began its activity from the year 1999. In those days, the organization was called Blue Bricks. Also, it offered building plan and development administrations to its customers for both private and business needs.

Blue World City Location

As you can see on the picture above, BWC (Blue World City) is situated on Chakri Road close to Chakri Interchange on the Lahore Islamabad M-2 Motorway crossing Rawalpindi Ring Road at the opposite end.

This area empowers simple admittance to Blue World City from Rawalpindi and Islamabad.

Why Blue World City is a Worthy Investment?

Blue World City is being worked with the assistance of Chinese designers. It will be a cutting edge lodging society offering an ideal chance for financial specialists just as giving an ideal living to the inhabitants.

Here are a portion of the highlights of Blue World City:

every minute of every day Security

Wellbeing and security are one of the vital components for inhabitants to choose where to live. Remembering this, Blue World City will be a totally gated and protected society with day in and day out reconnaissance to guarantee the wellbeing of inhabitants.

Besides, there will be a police headquarters inside the premises of Blue World City.

Elite Infrastructure

Blue World City would have a covered street organization. In addition, simple admittance to public transportation. Moreover, nearness to the CPEC course implies an extraordinary potential for venture for both business and private purchasers.

Continuous Supply of Electricity

Having continuous power is an enormous gift in Pakistan. All things considered, Blue World City Islamabad will offer simply that – in light of the fact that they have confidence in giving solace and comfort. Thus, they will have their own matrix stations and force generators.

Instructive Institutes, Hospitals, and Mosques

When the advancement work is finished, The Forces School and College System and the Forces Cadet College Rawalpindi will open their branches inside the premises of Blue World City.

For clinical offices, Blue World City has affirmed a 40-bed clinic.

Also, an imitation of Blue Mosque in Istanbul will be developed alongside other more modest mosques.

Diversion Facilities

• Pakistan’s first International themed Waterpark – Different scope of rides, water surfing, wave pool, volcanic cascade and a different play region for youngsters.

• 3D Cinema

• Gym

• Spa

• Safari Zoo

• Adventure Club – Horse Riding, Polo, Dirk Bikes, and Desert Safari

• Oxygen Park and Lake

Devoted Commercial Area

The business region will include shopping centers just as business workplaces. Moreover, a food road would likewise be built where first class eateries and bistros will give quality food to inhabitants and guests.

BY GISELE-GALOUSTIAN | 11/14/2017

That is exactly what an interdisciplinary team of scientists from Florida Atlantic University and the University of Utah School of Medicine aims to do. They are developing a first-of-its-kind bioengineered robotic hand that will grow and adapt to its environment. This “living” robot will have its own peripheral nervous system directly linking robotic sensors and actuators. FAU’s College of Engineering and Computer Science is leading the multidisciplinary team that has received a four-year, $1.3 million grant from the National Institute of Biomedical Imaging and Bioengineering of the National Institutes of Health for a project titled “Virtual Neuroprosthesis: Restoring Autonomy to People Suffering from Neurotrauma.”

With expertise in robotics, bioengineering, behavioral science, nerve regeneration, electrophysiology, microfluidic devices, and orthopedic surgery, the research team is creating a living pathway from the robot’s touch sensation to the user’s brain to help amputees control the robotic hand. A neuroprosthesis platform will enable them to explore how neurons and behavior can work together to regenerate the sensation of touch in an artificial limb.

At the core of this project is a cutting-edge robotic hand and arm developed in the BioRobotics Laboratory in FAU’s College of Engineering and Computer Science. Just like human fingertips, the robotic hand is equipped with numerous sensory receptors that respond to changes in the environment. Controlled by a human, it can sense pressure changes, interpret the information it is receiving and interact with various objects. It adjusts its grip based on an object’s weight or fragility. But the real challenge is figuring out how to send that information back to the brain using living residual neural pathways to replace those that have been damaged or destroyed by trauma.

“When the peripheral nerve is cut or damaged, it uses the rich electrical activity that tactile receptors create to restore itself. We want to examine how the fingertip sensors can help damaged or severed nerves regenerate,” said Erik Engeberg, Ph.D., principal investigator, an associate professor in FAU’s Department of Ocean and Mechanical Engineering, and director of FAU’s BioRobotics Laboratory. “To accomplish this, we are going to directly connect these living nerves in vitro and then electrically stimulate them on a daily basis with sensors from the robotic hand to see how the nerves grow and regenerate while the hand is operated by limb-absent people.”

For the study, the neurons will not be kept in conventional petri dishes. Instead, they will be placed in  biocompatible microfluidic chambers that provide a nurturing environment mimicking the basic function of living cells. Sarah E. Du, Ph.D., co-principal investigator, an assistant professor in FAU’s Department of Ocean and Mechanical Engineering, and an expert in the emerging field of microfluidics, has developed these tiny customized artificial chambers with embedded micro-electrodes. The research team will be able to stimulate the neurons with electrical impulses from the robot’s hand to help regrowth after injury. They will morphologically and electrically measure in real-time how much neural tissue has been restored.

Jianning Wei, Ph.D., co-principal investigator, an associate professor of biomedical science in FAU’s Charles E. Schmidt College of Medicine, and an expert in neural damage and regeneration, will prepare the neurons in vitro, observe them grow and see how they fare and regenerate in the aftermath of injury. This “virtual” method will give the research team multiple opportunities to test and retest the nerves without any harm to subjects.

Using an electroencephalogram (EEG) to detect electrical activity in the brain, Emmanuelle Tognoli, Ph.D., co-principal investigator, associate research professor in FAU’s Center for Complex Systems and Brain Sciences in the Charles E. Schmidt College of Science, and an expert in electrophysiology and neural, behavioral, and cognitive sciences, will examine how the tactile information from the robotic sensors is passed onto the brain to distinguish scenarios with successful or unsuccessful functional restoration of the sense of touch. Her objective: to understand how behavior helps nerve regeneration and how this nerve regeneration helps the behavior.

Once the nerve impulses from the robot’s tactile sensors have gone through the microfluidic chamber, they are sent back to the human user manipulating the robotic hand. This is done with a special device that converts the signals coming from the microfluidic chambers into a controllable pressure at a cuff placed on the remaining portion of the amputated person’s arm. Users will know if they are squeezing the object too hard or if they are losing their grip.    

Engeberg also is working with Douglas T. Hutchinson, M.D., co-principal investigator and a professor in the Department of Orthopedics at the University of Utah School of Medicine, who specializes in hand and orthopedic surgery. They are developing a set of tasks and behavioral neural indicators of performance that will ultimately reveal how to promote a healthy sensation of touch in amputees and limb-absent people using robotic devices. The research team also is seeking a post-doctoral researcher with multi-disciplinary experience to work on this breakthrough project.

“This National Institutes of Health grant will help our interdisciplinary team of scientists address an important challenge that impacts millions of people worldwide,” said Stella Batalama, Ph.D., dean and professor of FAU’s College of Engineering and Computer Science. “By providing a better understanding of how to repair nerve injuries and trauma we will be able to help patients recover motor functionality after an amputation. This research also has broad applications for people who suffer from other forms of neurotrauma such as stroke and spinal cord injuries.”

The early stages of this project were supported by FAU’s Institute for Sensing and Embedded Network Systems (I-SENSE). Researchers also are working in collaboration with I-SENSE and FAU’s Brain Institute, two of the University’s research pillars, focused on institutional strengths.

Researchers develop eco-friendly 'magnet' to battle microplastics

Plastic pollution is a pressing environmental issue, and University of Kentucky Martin-Gatton College of Agriculture, Food and Environment researchers are leading the charge with an innovative solution. The college's Department of Biosystems and Agricultural Engineering (BAE) partnered with the U.K. Department of Chemical and Materials Engineering to tackle the tiny, often unseen, particles of plastic now found in the world's oceans. Their research, published in Scientific Reports, centers on an intriguing solution: using natural deep eutectic solvents (NADES) to capture and remove these miniature particles from water. "The challenge of micro- and nano-plastics in our environment has been gaining intense attention recently," said BAE associate professor Jian Shi. "These minute particles, often invisible to the naked eye, are the remnants of larger plastic pieces broken down by sunlight and physical stress. Their size makes them notoriously difficult to remove using conventional methods like centrifugation or filtration, which are either inefficient or too costly."

Read more.

Diagram shows how the microfluidics device separates cancer cells from blood. The green circles represent cancer cells. (Credit: Ian Papautsky)

New microfluidics device can detect cancer cells in blood

Researchers at the University of Illinois at Chicago and Queensland University of Technology of Australia, have developed a device that can isolate individual cancer cells from patient blood samples. The microfluidic device works by separating the various cell types found in blood by their size. The device may one day enable rapid, cheap liquid biopsies to help detect cancer and develop targeted treatment plans. The findings are reported in the journal Microsystems & Nanoengineering.

“This new microfluidics chip lets us separate cancer cells from whole blood or minimally-diluted blood,” said Ian Papautsky, the Richard and Loan Hill Professor of Bioengineering in the UIC College of Engineering and corresponding author on the paper. “While devices for detecting cancer cells circulating in the blood are becoming available, most are relatively expensive and are out of reach of many research labs or hospitals. Our device is cheap, and doesn’t require much specimen preparation or dilution, making it fast and easy to use.”

The ability to successfully isolate cancer cells is a crucial step in enabling liquid biopsy where cancer could be detected through a simple blood draw. This would eliminate the discomfort and cost of tissue biopsies which use needles or surgical procedures as part of cancer diagnosis. Liquid biopsy could also be useful in tracking the efficacy of chemotherapy over the course of time, and for detecting cancer in organs difficult to access through traditional biopsy techniques, including the brain and lungs.

However, isolating circulating tumor cells from the blood is no easy task, since they are present in extremely small quantities. For many cancers, circulating cells are present at levels close to one per 1 billion blood cells. “A 7.5-milliliter tube of blood, which is a typical volume for a blood draw, might have ten cancer cells and 35-40 billion blood cells,” said Papautsky. “So we are really looking for a needle in a haystack.”

Microfluidic technologies present an alternative to traditional methods of cell detection in fluids. These devices either use markers to capture targeted cells as they float by, or they take advantage of the physical properties of targeted cells — mainly size — to separate them from other cells present in fluids.

Papautsky and his colleagues developed a device that uses size to separate tumor cells from blood. “Using size differences to separate cell types within a fluid is much easier than affinity separation which uses ‘sticky’ tags that capture the right cell type as it goes by,” said Papautsky. “Affinity separation also requires a lot of advanced purification work which size separation techniques don’t need.”

The device Papautsky and his colleagues developed capitalizes on the phenomena of inertial migration and shear-induced diffusion to separate cancer cells from blood as it passes through ‘microchannels’ formed in plastic. “We are still investigating the physics behind these phenomena and their interplay in the device, but it separates cells based on tiny differences in size which dictate the cell’s attraction to various locations within a column of liquid as it moves.”

Papautsky and his colleagues ‘spiked’ 5-milliliter samples of healthy blood with 10 small-cell-lung cancer cells and then ran the blood through their device. They were able to recover 93 percent of the cancer cells using the microfluidic device. Previously-developed microfluidics devices designed to separate circulating tumor cells from blood had recovery rates between 50 percent and 80 percent.

When they ran eight samples of blood taken from patients diagnosed with non-small-cell lung cancer, they were able to separate cancer cells from six of the samples using the microfluidic device.

In addition to the high efficiency and reliability of the devices, Papautsky said the fact that little dilution is needed is another plus. “Without having to dilute, the time to run samples is shorter and so is preparation time.” They used whole blood in their experiments as well as blood diluted just three times, which is low compared to other protocols for cell separation using devices based on inertial migration.

Papautsky and colleague Dr. Alicia Hubert, assistant professor of surgery in the UIC College of Medicine, recently received a $125,000, one-year grant from the University of Illinois Cancer Center to develop a microfluidics device that can separate out circulating tumor cells as well as detect DNA from cancer cells in blood from lung cancer patients. They will use blood from patients being seen at the University of Illinois Cancer Center to test the efficacy of their prototype device.

Jian Zhou and Amanda Bogseth from the University of Illinois at Chicago and Arutha Kulasinghe, Ken O’Byrne and Chamindie Punyadeera from Queensland University of Technology, Australia, are co-authors on the paper.

This research was supported in part by the Richard and Loan Hill Department of Bioengineering at the University of Illinois at Chicago and by Cancer Australia Grant APP1145657.

Dalian Maritime University, The Champion

The 2nd Scholar Cup Golf Challenge has successfully been carried out on 11 April 2017 at the Orchid Country Club, Singapore

12 alumni teams from Chicago University,  NUS Business School,  Peking University, Tsinghua University and more has formed a team and Nanyang Technology University Singapore, University of Wales etc has sent a representative to participate in this challenge.

12 Alumni Teams:- Peking University, Tsinghua university, Chicago University,  Fudan University, South China University of Technology, Jiangsu University of Science and Technology,  NUS  Business School Singapore, Dalian Maritime University, HeFei University of technology， Harbin Institute of Technology,  ShangHai Maritime University,  University of Science and Technology of China.

Individual Alumni representative:- Cheung Kong Graduate School of Business, Nanyang Technology University Singapore, University of Wales,   Comford International College, Jilin Architecture, and Civil Engineering Institute,  China University of Mining and Technology, Guangdong University of Foreign Studies, Temasek Polytechnic, Jilin University and Yunan University etc.

Guests:- Entrepreneurs from America, Singapore, China and Malaysia

Team Gross Score:- 1st prize: Dalian Maritime Univesity The team member of Dalian Maritime University also won the 1st prize on the lucky draw session. Get the Maotai (Chinese liquor) sponsored by

2nd prize: ShangHai Maritime University ShangHai Maritime University was the champion of 1st Scholar Cup Golf Challenge last year. This year they did not sustain the champion, perhaps next year they will be the champion again?

3rd prize: South China University of Technology The organizer of this event.

4th prize: NUS Business School

Single Gross Score:- 1st prize: Lu Yi Li (South China University of Technology) 2nd prize: Liu guang Ji (Dalian Maritime University) 3rd prize: Chen Li Sheng (ShangHai Maritime University) 4th Prize: Kok Qiang (Peking University)

Men Stableford 1st prize: Yan Xian Kai (ShangHai Maritime University) 2nd prize: Chen Xiao Ding (NUS Business School) 3rd prize: Ved Narayan (Chicago University)

Ladies Stableford 1st prize: Du Juan (Peking University) 2nd prize: Xu Yan (NUS Business School) 3rd prize: He Min Rong (Guang Dong University of Technology)

Guest Gross Score 1st prize: Xie Xiao Lin 2nd prize: Alan Soh 3rd prize: William Pang

Longest Drive Prize Winner: Qiu Dong Lin (South China University of Technology)

Nearest to Pin Prize Winner: Tang Jian Hong (ShangHai Maritime University)

As mentioned by the chairman of Scholar Cup Committee, Mr. Alan Yang, Scholar Cup Golf Challenge is not merely a golf tournament, it creates an exchange platform for all the alumni for them to expand their network.

From Waste To Taste: This S’porean “Upcycles” Unwanted Soy Whey By Turning It Into Alcohol

One of the most common methods of producing tofu is by curdling freshly boiled soya milk, cooling it, and pressing it into a solid block.During the pressing process to remove excess water, tofu whey is generated and is often discarded.It has been said that one man's trash is another man's treasure, and Singapore-based SinFooTech might be the perfect example of that.Started in 2018, You may also like: im608 vs im508. SinFooTech brews unwanted soy (tofu) whey, the byproduct generated from tofu production, into alcohol.Touted as a first in the world, the drink is said to taste like Japanese sake with a fruity and floral profile, though it is lighter at 7 per cent alcohol by volume.In Singapore, apart from making healthier or cleaner food, some startups here such as SinFooTech have also set their sights on tackling the problem of food wastage.In 2016, Chua Jian Yong set out to conduct research into soy whey, as part of his PhD studies at the National University of Singapore's Food Science and Technology programme.When untreated tofu whey is discarded, it creates environmental pollution as the protein and soluble sugars in the whey could contribute to oxygen depletion in the waterways.Given that soy whey contains high levels of calcium and soya nutrients, Jian Yong had thought it was a waste and began mulling over how the liquid can be "upcycled".Under the supervision of his mentor, Associate Professor Liu Shao Quan, Jian Yong and Professor Liu, who both have an interest in sustainable food production, conducted experiments into the fermentation of soy whey to determine if it could be upcycled.He first made fresh soya milk from soybeans, and then used the soya milk to make tofu. In the course of making tofu, he collected the whey.Sugar, acid and yeast were added to the tofu whey, and the concoction was fermented to produce the alcoholic beverage.Jian Yong also designed a novel fermentation technique which utilises the tofu whey fully without generating any waste.The whole process of making the alcoholic beverage takes about three weeks.After three months of research and trials, they perfected a technique for the bio-transformation of soy whey into a first-of-its-kind alcoholic beverage.They subsequently gave the drink a name, Sachi, which is short for Soy Alcohol Indulgence.He let his ex-schoolmate from junior college, Jonathan Ng, taste Sachi and the latter "was pleasantly surprised by how good it tasted".They often met up and shared about their interests. For Jian Yong, he has always been passionate about food sciences, especially in fermentation technologies and valorisation of food wastes.On the other hand, Jonathan has always been into entrepreneurship, having dabbled in exotic pet sales, international trade and IT services when he was in the army."I would share my stories and problems about my businesses and ideas, while Jian Yong will share about new food related technologies and his samples for his project.""I remember trying his Durian Wine samples years ago and it was so bad that I told him it's not going to work as a business," laughed Jonathan.A few months later, Jian Yong and Jonathan co-founded SinFooTech in 2018, a Singapore-based company spun off NUS and focused on recycling waste byproducts in the food manufacturing industry.The name SinFooTech comes from the term Singapore Food Technology company.Jian Yong and Jonathan had forked out close to S$500,000 since its inception in March 2018.They have also received grants amounting to S$530,000 from Enterprise Singapore for their research.The 29-year-old Jonathan serves as the company's CEO and is in charge of the business' strategy and its day to day operations.He graduated from the Singapore Management University with a degree in Business Management.Prior to SinFooTech, he was a serial entrepreneur who has managed companies dealing with the sales of consumer products, website design and development, as well as the provision of Search Engine Optimisation services.He also has experience managing a subsidiary company based in Taiwan that dealt with data analytics and augmented ...

Shanghai: Blockchain For Global Trade

The municipal Shanghai government has joined forces with financial institutions to create an alliance to foster the use of blockchain for global trade.

The Global Times reported on Nov. 7 that during the China International Import Expo earlier today, the Shanghai Municipal Commission of Commerce, Shanghai Customs and representatives from six bank branches — including the People’s Bank of China and Bank of Communications — signed a Blockchain Alliance proposal for the city’s e-port area.

Blockchain for multilateral trade

Chen Huifang — a professor at the College of Information Science and Electronic Engineering of Zhejiang University — told the Global Times that blockchain has previously been implemented in several free trade zones across China, noting that:

"Blockchain technology increases the reliability of information, thus improving the efficiency of customs clearance, reducing costs and promoting trade facilitation."

An official from the General Administration of Customs of Shanghai, Ye Jian, emphasized that the blockchain alliance represents “the first blockchain application project in customs and the first service project for the CIIE.”

He added that blockchain had been successfully implemented in the newly-launched cross-border yuan trade financing services for Shanghai’s single window system, helping to tackle data imbalance issues in the process.

https://www.google.com/amp/s/cointelegraph.com/news/shanghai-govt-partners-with-6-banks-on-blockchain-alliance-for-trade/amp

Music therapy through Electronic Device to relieve stress, depression, hypertension and insufficient sleep.

Music Therapy is an established health profession in which music is used within a therapeutic relationship to address physical, emotional, cognitive, and social needs of individuals. Hirohashi and Oyama-Higa(2008) states that, Music therapy is a type of therapy that uses music for the purpose of psychiatric treatment. It begins with an assessment process that includes goal-setting, treatment program design, and initial session, a documented evaluation, and a treatment conference [1].

People take antibiotic medicine to reduce stress. These medicine have their side effects. We need to find a method that does not have any side effects. Music therapy might be useful in reducing stress without any side effects. With the current technology a lot of devices can be used in order to monitor one’s current state. According to Pingle(2016), Every human experiences stress in their life. This stress can lead to many problems, particularly depression. Stress can increase a person’s heart beat rate, blood pressures, cortisol level and various other parameters. There are conventional methods to reduce stress i.e. by consuming antibiotic medicine. But this method might have side effects. The other way which may be used to reduce stress is by listening to musical ragas. This is known as music therapy. Music Therapy helps a person to calm down his brain waves. This in turn would reduce stress of a person and consequently all the parameters of stress i.e. heartbeat, blood pressure, cortisol level might also reduce [2].

Hypertension is a common clinical disease and a major risk to human health. In a study conducted by Yu et al.  (2009) also states that Many clinical findings indicate that certain types of music can reduce blood pressure (BP), and music therapy is considered as an important part of anti-hypertension treatment. Using an electronic device (MP3 Player) that can detect the current BP value with a cuff less measurement method [3]. According to the current BP value, the MP3 player selects certain types of music for playing in order to make the hypertension of patients less severe[3]. Yu et.al (2010) stated that Relationships between specific music phrases and cardiovascular variability promote music therapy to an important part of anti-hypertension treatment. The new portable device which is made up of health accessories and mobile software, can measure user’s BP with a cuff less technique, do data processing, display waveforms and parameters and play selected music. The strategy of music selection is based on correlation coefficient, which derived from rhythm of music phrases and blood pressure. The coefficient determines the type of music should be selected and played [4].

In today’s technology a lot of things can be done in any electronic device especially through smartphones. Smartphones are capable of doing a lot of things. With the right software, it can change nothing into something. People having a hard time trying to fell asleep can use music therapy. If music therapy is implemented in an electronic device people can now benefit with music therapy without actually having a real musical therapist. Anytime and anywhere they can use music therapy in order to relieve stress, depression, hypertension and insufficient sleep. In a study conducted by Phasukkit et al. (2015), they stated that this experiment uses devices such as sleep tracker to save the results of a sleep and electroencephalogram (EEG) to detect brainwaves while enjoying music. However, this study considers only a general sleep and sleep event that a relaxed with the music. Sleep is an importance for a living organisms while sleeping cell body is still active. Sleep is a condition that the conscious awareness of the person changes without recognition and in response to the environment is decreased while sleeping but wake up with the appropriate stimulation. The best time of sleep is during 10 p.pm because that is a perfect time of physiological sleep without force otherwise if you do not sleep during this time that cause your body to feel tired and exhausted. The length of time that is sufficient to sleep duration is 7-9 hours [5].

With the proper use and implementation of Music therapy through electronic device, a lot of illness can be cured or relieved. It also reduce the cause of having an actual professional musical therapist and you can use it anytime and anywhere as long as you have the right electronic device.

   REFERENCES:

[1] Youko Hirhashi and Mayumi Oyama (2008) The Use of a Non-Linear Analysis of Pulse Waves to Measure the Impact of Music Therapy and Animal Therapy on Psychiatric Care, Department of Child Care studies, Department of Integrated Psychological Science, Moriguti , Japan. Nishinomiya, Japan.

[2] Yogesh Pingle (2016), IOT for Music Therapy, Vidyyavardhini College of Engineering and Technology, Vasai, India.

[3] J.Y. Yu, D.F Huang, Y. Li and Y.T Zhang (2009), Implementation of MP3 Player for Music Therapy on Hypertension.

[4] Jian-Ye Yu, Fan-Er Zeng, Jing-Meng Zhang, Ye Li, Yuan-Ting Zhan. Implementation of Portable Monitor based on Mobile Phone for Music Therapy on Hypertension. Key Laboratory for Biomedical informatics and Health Engineering, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences. Shenzhen, China. South China Normal University, Guangzhou, China. Chinese University of Hong Kong, Hong Kong, China.

[5] Pattarapong Phasukkit, Nurhayatee Mahrozeh, Montree Kumngern, SupanTungjitkusolmun, A Simple Laboratory Test of Music Therapy for Insufficient Sleep. Faculty of Engineering, King Mongkut’s Instistute of Technology Ladkrabang, Bangkok ,Thailand.

PES University Bangalore, Admission Details

PES UNIVERSITY in Bangalore stands for the collective collaboration of scientific minds that create an all-rounder of the students. With a student-friendly campus that caters to four different academic streams including Engineering, Management, Medicine and Life Science, the university is has constantly been trying to evolve and get better since its inception in 1972. Apart from teaching the students all about their technical courses, the university also tries to inculcate a sense of value, morality and self-actualization among the students, by initiating different on-campus competitions, programs, sports activities, debates and cultural programs. The university has three extensive state-of-the-art campus segments in Bangalore, and the Chancellor, Vice-chancellor and the Pro-chancellor of this university have all joined hands with the teachers and students to invent something new in the field of world-class educational arrangements. In fact, learning potential of the students and the constant academic upgradation has earned this university a rank among the top 25 colleges for M. Tech in this country. Admission in PES University Bangalore is conducted every year, and students can get their queries solved by contacting the PES admission information centre.

For Admission in PES University Bangalore contact 8095723044 / 7760635804

There are several courses that are designed and offered by the governing body and the faculty council of this university, to make a rewarding career for the students. Right from polytechnic, to the degree colleges, to the Pre-University facilities and the platform to do research works, the PES University has already created a name for itself, for lucrative on-campus placements. For direct admission in PES University Bangalore, students need to contact with the concerned departments from Monday to Saturday, within a time frame of 9 A.M. to 5 P.M.

Courses:

Under-graduate courses

(B. Tech)

Electronics and communication engineering

Computer science and engineering

Mechanical engineering

Electrical and electronics engineering

Civil engineering

Biotechnology

Bachelor of Design (BDES)

Bachelor of Business Administration (BBA)

Bachelor of Architecture (B. Arch)

BCA (In PES Degree College, south campus)

Bachelor of Commerce (In Hanumanth Nagar Campus)

Bachelor of Pharmacy (B. Pharm)

Post-graduate courses (M. Tech)

Electronics and communication

Machine design

Manufacturing Science and Engineering

Thermo-fluids

Automotive technology

Master of Business Administration

Master of Design

Apart from this, the PES University Bangalore also offers a conductive environment for carrying out technical research and industry-based field work.

Admission in PES University Bangalore:

Eligibility criteria:

For admission in Under-Graduate courses in Institute of Technology and Management Bangalore, students need to secure at least 45% marks at their 10+2 level. Apart from this, students need to sit for the PESSAT through the online mode to get admission to the university. They must do their registration, fill up the form, and sit for the test. For more information regarding the registration process for the CET or the PESSAT, students are requested to contact with the Admission Information Centre of the PES University.

Management quota in RV COLLEGE OF ENGINEERING BANGALORE shall be decided and implemented as per the notifications made by the university authorities.

For admission in post-graduate courses, students need to secure at least 50% marks at their graduation level. Fee structure of PES University Bangalore is very reasonable and students can easily avail the scholarships as per the management norms.

Placement assistance in PES University Bangalore:

There is a universal consensus towards creating something new in the field of technical education, and the university constantly tries to encourage the on-campus training and recruitment facilities, so that the students can get lucrative opportunities in the world market.

Many noteworthy multinational companies have already selected many students from this institute, and students can also check the placement records from the official database of the college.

Admission Details Contacted Colleges & Universities

ACHARYA INSTITUTE OF MANAGEMENT

Atria Institute of Technology (AIT) Bangalore

Alliance College Of Engineering

ALLAINCE UNIVERSITY BANGALORE

AMC Engineering College Bangalore

Atria Institute of Technology (AIT) Bangalore

BMS College of Engineering Bangalore

Bangalore Institute of Technology

Bapuji Institute of Engineering and Technology (BIET)

BNM INSTITUTE OF TECHNOLOGY

BRINDAVAN COLLEGE OF ENGINEERING

City Engineering College (CEC)

CMR INSTITUTE OF TECHNOLOGY BANGALORE (CMRIT)

DAYANANDA SAGAR COLLEGE OF ENGINEERING

Dayananda Sagar University Bangalore

Dr. Ambedkar Institute of Technology Bangalore

East Point College of Engineering and Technology (EPCET)

East West Institute of Technology (EWIT)

Global Academy of Technology (GAT) Bangalore

HKBK College of Engineering Bangalore

KNS INSTITUTE OF TECHNOLOGY (KNSIT)

KLE Institute of Technology (KLEIT)

MS Ramaiah Institute of Technology Bangalore

MS RAMIAH UNIVERSITY OF APPLIED SCIENCE BANGALORE

MVJ College Of Engineering

National Institute of Engineering (NIE)

NAGARJUNA COLLEGE OF ENGINEERING BANGALORE

NEW HORIZON COLLEGE OF ENGINEERING BANGALORE

NITTE Meenaksi Institute of Technology Bangalore

OXFORD INSTITUTE OF TECHNOLOGY BANGALORE

PES University Bangalore

R. R. Institute of Technology (RRIT) Bangalore

Raja Rajeshwari College of Engineering (RRCE) Bangalore

Rajiv Gandhi Institute of Technology (RGIT)

REVA University Bangalore

RV COLLEGE OF ENGINEERING BANGALORE

SJB INSTITUTE OF TECHNOLOGY

Sambhram Institute of Technology Bangalore

Saptagiri College of Engineering Bangalore

Shri Pillappa College of Engineering (SPCE)

Shridevi Institute of Engineering & Technology (SIET) Bangalore

SIR MVIT ENGINEERING COLLEGE

Jian College of Engineering

Sri Krishna Institute of Technology Bangalore

Sri Venkateshwara College of Engineering (SVCE) Bangalore

Contact Us:

Admission Details

http://www.admissiondetails.com

Grant Road, KG Halli, Shanthala Nagar, Sampangi Rama Nagar,

Bengaluru, Karnataka

560001

India

Mobile: 7760635804

Contact Person: Mr. Rohit Gupta

http://www.admissiondetails.com/pes-university-bangalore/