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Category Archives: Nanotech
Research Engineer, Plant Nanotechnology job with NATIONAL UNIVERSITY OF SINGAPORE | 308355 – Times Higher Education
Posted: September 9, 2022 at 5:48 pm
Job Description
Positions are available for Research Engineers or Research Assistants inthe Lew Labled by Assistant ProfessorTedrick Thomas Salim LEWat the Department of Chemical & Biomolecular Engineering at the National University of Singapore (NUS). In our lab, we combine approaches from nanotechnology, engineering, chemistry and plant biology to engineer new tools to study plants.
The project aims to develop innovative nanoparticle-based technologies to efficiently deliver proteins and biomolecules for plant engineering, and to monitor plant signalling pathways non-destructively (Lew et al, Nat Plants 2020; Kwak & Lew et al, Nat Nanotech 2019). Trainees will be exposed to a rich and exciting training environment at the emerging field of plant nanotechnology.
We are currently seeking a Research Assistant/Associate to:
Job Requisitions
Applicants must have:
Interested applicants, please write to Tedrick with a detailed CV that includes your (i) qualifications, (ii) research interests, (iii) research experience, and (iv) 2 references
Competitive salary will be offered to candidates who fulfil the requirements for the position. Only shortlisted candidates will be contacted via email.
Covid-19 Message
At NUS, the health and safety of our staff and students are one of our utmost priorities, and COVID-vaccination supports our commitment to ensure the safety of our community and to make NUS as safe and welcoming as possible. Many of our roles require a significant amount of physical interactions with students/staff/public members. Even for job roles that may be performed remotely, there will be instances where on-campus presence is required.
Taking into consideration the health and well-being of our staff and students and to better protect everyone in the campus, applicants are strongly encouraged to have themselves fully COVID-19 vaccinated to secure successful employment with NUS.
More Information
Location: Kent Ridge CampusOrganization: College of Design and EngineeringDepartment : Chemical and Biomolecular EngineeringEmployee Referral Eligible: NoJob requisition ID : 17207
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In blow for N.Y., Micron wants to build chip fab in Texas – Times Union
Posted: August 30, 2022 at 11:45 pm
ALBANY - Micron Technology, the largest U.S. memory chip manufacturer, appears to be leaning toward picking Texas for a massive $40 billion chip factory that Gov. Kathy Hochul has been trying to attract to the Empire State.
Micron filed an application earlier this week with officials in Texas requesting property tax breaks to build a massive memory chip factory outside of Austin.
The project would be built in phases, with 5,000 employees initially, although Micron has said it intends to spend more than $150 billion eventually to expand its manufacturing blueprint in the wake of the passage of the $52 billion CHIPS Act, a federal subsidy program designed to encourage expansion of the domestic chip manufacturing sector to counteract China's growing prowess in that market.
Hochul has been looking to capitalize on the new federal funding for chip fabs by creating a new tax incentive for chip companies that build in New York that would help the state's economic development office sweeten any potential offers to companies.
GlobalFoundries, which operates its Fab 8 chip factory in Saratoga County, has said it plans to build a second at the same site because of the CHIPS Act and Hochul's new tax breaks.
Although both Samsung and Intel, two of the world's largest chipmakers, decided not to build new factories in New York, it was believed that Micron was looking at a site outside of Syracuse based on comments Hochul made earlier this year.
Micron's corporate aircraft was also spotted at Albany International Airport earlier this month when both Hochul and U.S. Senate Majority Leader Charles Schumer were in town for an event at Albany Nanotech.
Robert Maire, a semiconductor analyst based on Long Island, said that New York state hasn't had any major wins attracting new chip firms like Texas and even Ohio.
"I think we're just not that competitive," Maire said.
Empire State Development, Hochul's economic development arm, is still hoping to land a new chip factory upstate. The agency's spokeswoman Kristin Devoe said that "we have seen growing interest in semiconductor ready sites across the state" since the CHIPS Act passed.
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Artificial Intelligence (AI), Cloud Computing, 5G, And Nanotech In Healthcare: How Organizations Are Preparing Best For The Future – Inventiva
Posted: July 21, 2022 at 1:06 pm
Artificial Intelligence (AI), cloud computing, 5G, and Nanotech in healthcare: How organizations are preparing best for the future
Automation, digitalization, and technological enablement are having a significant impact on several industries. The healthcare industry is not an exception. The healthcare delivery system in India is changing and is about to advance significantly. The pandemic has shown that healthcare organizations can become innovative, flexible, and resilient by utilizing tech-enabled business models that place data at the core.
Additionally, healthcare organizations quickly realize that no matter how technically advanced their services or products are, they will no longer be applicable. To produce not just an enhanced product or service but also a better healthcare experience, it is imperative to connect with users along the healthcare value chain, be they patients or physicians. Fortunately, technological progress has accelerated the process of change required for Indian healthcare to become digitally linked and shown promise for enhancing peoples healthcare experiences.
India has already begun developing a national digital framework to create a digital health ecosystem on a national scale. The market for digital healthcare in India was estimated to be worth INR 116.61 billion in 2018 and is projected to reach INR 485.43 billion by 2024, growing at a CAGR of 27.41 per cent. Adopting electronic health records for the whole population is one of the several steps made in that regard.
Healthcare organizations are quickly embracing innovative technology to change how care is delivered in the nation and benefit the healthcare ecosystem as a solution to address the problems that the countrys healthcare system is now facing. Here are a few new technologies that are changing things:
Artificial Intelligence (AI)
Artificial intelligence (AI), machine learning (ML), and digital representations of the human bodys physiology make it possible to anticipate the chance that chronic diseases will advance based on the decisions being made. By using these simulations, healthcare professionals can better comprehend options and therapies and their consequences on patient health outcomes and influence on related expenditures.
Additionally, AI is helping healthcare professionals manage illnesses holistically, better coordinate care plans, and help patients manage and adhere to their treatment regimens. Further, statistics indicate that administrative expenses account for 30% of healthcare expenditures. The bulk of these duties, such as keeping track of bills that need to be paid and maintaining records, may be automated with AI, considerably cutting expenses.
Cloud Computing
The collaboration between physicians, nurses, and departments has grown crucial as healthcare organizations throughout the nation transition to value-based care. Thanks to cloud computing, accessing patient information has gone from a sluggish and laborious procedure to a quick and easy process.
With cloud computing, data may be stored centrally and made accessible from any location at any time. In addition, cloud infrastructure allows users to adjust health data storage depending on the new patient volume. IoT-enabled devices are being offered to patients by a variety of healthcare providers. By connecting these devices to a healthcare providers cloud system, patient data may be swiftly delivered to the doctor. This makes for a quicker diagnosis and better treatment.
The 5G Network
Every aspect of healthcare has the potential to be improved by a 5G connection, particularly since the healthcare sector is still recovering from the ravages of the epidemic. Large data files and real-time, high-definition video may be transmitted over a fast network to handle telemedicine appointments. Patients may reach medical professionals more quickly and receive treatment more quickly thanks to the use of 5G, especially in remote places.
Nanotech
Utilizing nanotechnology has given the healthcare sector new opportunities. Researchers and scientists use this technology to improve medical imaging, target tumours, and medication delivery systems. Additionally, the technique reduces costs, speeds up DNA sequencing, and provides scaffolding for tissue regeneration or wound healing. Further, artery obstructions are being removed by nanobots or micro-scale robots, as are quick biopsies of worrisome cancerous tumours.
The healthcare sector is anticipated to strengthen in 2022, thanks to groundbreaking discoveries and technologies. Most of the significant modifications are still in the future!
This article will examine the main medical technology developments and changes anticipated for the medical industry shortly.
The focus is often on lowering the cost, increasing access to healthcare services, and identifying and treating problems sooner rather than later. The US healthcare industry is expanding quickly; by 2026, the national healthcare products value is predicted to reach USD 6 trillion. Its never too late to prepare for the many available healthcare possibilities. Make sure to use digital technology to increase revenue, and staff productivity, achieve better financial results, and improve patient care.
Artificial intelligence (AI) technology has advanced quickly in recent years, and this trend will persist in 2022. Among the various sectors that gain from AI, medicine mainly uses it for accurate illness diagnosis and detection, albeit this is not the only use. IBM Watson, for instance, is one of the AI systems already accessible for use in business and healthcare.
Computed Tomography Scan Analysis
The demand for computed diagnostic professionals (radiologists) has significantly grown since the COVID-19 epidemic struck the worlds population.
AI-powered technology could provide a solution. AI systems can quickly evaluate CT images from hundreds of patients, identifying pneumonia patterns brought on by COVID-19 and informing physicians of these. That would make up for the lack of qualified labour in this industry.
Before our eyes, innovative ideas are taking shape. For instance, a deep learning model for imaging COVID-19 was developed to recognize COVID-19 patterns in CT images automatically. The Microsoft-sponsored InnerEye research project is another promising endeavour for processing computed tomography scans. Even though accuracy has significantly increased, radiologists are still hesitant to entrust the digital mind with crucial choices. AI cannot be held responsible for a poor diagnosis or ineffective course of therapy. Instead, the expert who decided to employ AI must pay for their error and take every precaution to limit the adverse effects while maximizing this digital health trend.
Because of this, most cutting-edge clinics employ AI as an additional tool rather than a stand-alone diagnostic or therapeutic method. It is excellent for validating current diagnoses or enhancing research data that has been gathered conventionally.
Machine Learning in Biopharma and Medtech
The pharmaceutical sector will effectively capitalize on technological advancements in healthcare by utilizing AI to discover new medications. A group of British and Japanese scientists filed a patent for the first medicinal molecule created by AI in January 2020. The drug will be used to treat obsessive-compulsive disorder after it passes muster for testing on humans.
AI-enhanced lab research has also led to the discovery of other intriguing formulations since late 2021, including some potential treatments for uncommon and extremely severe ailments. Numerous cutting-edge studies, such as molecular modelling and simulation of chemical reactions in multi-factor settings, leverage AI and machine learning approaches to support chemical experiments and therapeutic medication development.
Since many tests may be carried out electronically, this method enables scientists to reduce the number of expensive onsite experiments using reagents and high-tech lab equipment. It also hastens the discovery of critical scientific innovations.
Automating Hospital Workflows using Robotics
Startups from all over the world will pour hundreds of millions of dollars into creating AI projects in 2022, including various forms of robotic systems, which may enable them to reduce the cost of recruiting trained medical personnel. The intention is to assist medical facilities that already have a severe shortage of nurses and clinicians as a result of the COVID-19 pandemic, which has put the entire healthcare system under unprecedented strain, rather than to replace people with machines, which would lead to unemployment and a decline in social standards. Learn more about creating medical HR software to assist HR professionals in addressing the U.S. medical workforce problem.
Innovative enterprises should keep in mind the medical communitys restrictions on AI-driven software, its capabilities, and its applications as they work to realize these lofty goals. Modern medicine has countless applications for robotic assistance and automated systems, including cleanliness, surgery, remote diagnostics, etc. However, the healthcare systems top goals will always be the well-being of medical personnel and the effective treatment of patients.
In light of this, robotic and AI-driven technologies will be employed to support current procedures rather than replace them, resulting in a potent fusion of the present and the future. Daring projects combined with sound regulation are a prominent trend in the digital health sector. It will enable physicians to utilize cutting-edge technology fully, learn to apply it in satisfying and secure ways, and steer clear of any pitfalls.
Symptom Checker Chatbots
Chatbots are computer programs with artificial intelligence (AI) support (often not true AI but powerful algorithms) that engage in meaningful conversations that resemble those between humans using voice, text, or option-based input.
Every area, including healthcare and medical consultancy, is seeing a rise in their use. These solutions, available around-the-clock online or via mobile devices, can provide preliminary medical diagnoses and health advice based on input and complaints from a patient. Chatbots can also be connected with unique patient portals for hospitals and clinics. When human medical assistants are unavailable, they can assist patients with their health issues and worries, even in acute situations (such as disaster-induced overloads of call centres, peak or non-operation hours, etc.)
These chatbots can aid patients in determining their subsequent actions and motivate them to seek professional medical advice when necessary. Care must be exercised, though, since it may result in inaccurate self-diagnosis and disinformation.
Globalization of AI Requirements in Healthcare
Ten recommendations that can serve as the foundation for the creation of GMLP have been developed by a powerful coalition of the U.S. FDA, Health Canada, and the United Kingdoms Medicines and Healthcare products Regulatory Agency (MHRA) (Good Machine Learning Practice). These guidelines will help programmers and AI engineers create secure medical equipment, software, and systems powered by artificial intelligence and machine learning (AI/ML) components. This shows that governments take the potential and hazards posed by AI exceptionally seriously and would want to regulate the use of AI in healthcare practices as soon as feasible.
Adoption of AI-backed Technologies
The main drawback of the advancement in artificial intelligence technology is that hackers will use it to target medical systems and steal secured healthcare information, rather than only to save human lives or help medical personnel with their everyday responsibilities. One of the growing dangers to the security of medical technology in 2022 and beyond is sophisticated malware with AI capabilities.
Which medical technology solutions are in jeopardy? Almost everything could have weak security or security flaws, such as wireless systems in hospitals, clinics, or health centres, EMR/EHR solutions, IoT, and computer-aided healthcare provider and health insurance company systems. Intricate phishing and social engineering assaults can also target clients and staff members.
Hackers may use this feature to simulate personal identities as part of next-generation super-personalized social engineering and phishing campaigns, which have the potential to be as dangerous and deceptive as ever before due to AIs growing capacity to mimic photorealistic 3D faces or organically sounding voices. This necessitates installing high-end data protection methods that can mitigate any hazards by hacker techniques aided by AI.
Despite all the technological safeguards and healthcare providers knowledge, statistics on data breaches show a sharp rise over the previous ten years, with infractions peaking in 20202021. These data breaches impact thousands of patients around the US. Hopefully, healthcare organizations will focus more on data security and their digital ecosystems in 2022. Healthcare cybersecurity is quickly emerging as a popular technological topic this decade.
How to Prevent Data Breaches in Healthcare?
The security of medical records, which is governed by HIPAA and EDI in the healthcare industry, is a top priority for the US government.
Every healthcare professional should follow a few effective procedures:
Facial Recognition With Masks
Face recognition technology, which permits approved access for medical professionals to mobile devices or workstations, rose to popularity due to its ease.
Deep learning facial recognition algorithms must be used in the COVID-19 pandemic to distinguish staff members wearing masks. Specific sources claim that some businesses have already achieved 99.9% accuracy in the face recognition of people wearing masks.
Nanotechnology may still seem like science fiction, yet it is steadily influencing our daily lives. By the end of 2021, fantastic news about the creation of tiny, organic robots that can reproduce themselves will reach every part of the globe. Therefore, it is realistic to anticipate that 2022 will bring forth several significant advancements in the nanomedicine sector. Early investments are welcome in the burgeoning nanomedicine industry.
Here is a brief explanation of what nanomedicine is: it uses nanoscale (microscopically small) materials and objects, like biocompatible nanoparticles, nanoelectronic devices, or even nanorobots, for specific medical uses and manipulations, like the diagnosis or treatment of living organisms. The injection of a group of nanorobots into a humans blood vessels might be utilized as a possible hunter for cancer cells or viruses, for instance. This method is anticipated to effectively combat a wide range of cancers, rheumatoid arthritis, and other hereditary, oncologic, or auto-immune illnesses on a cellular level (or even become an ultimate solution to them).
Even though the IoMT will not be a novel concept by 2022, this industry will experience exponential growth. Every one of the several digital health developments in this sector has excellent applications for healthcare professionals and has the potential to save billions of dollars.
Apps for remote health monitoring and wellness will continue to grow in popularity in 2022. You may discover a decent number of professional (and many other semi-professionals) mobile applications for healthcare and health in the GooglePlay or iTunes libraries.
Some mobile applications can connect to wearables like pulsometers or fitness trackers to use the information gathered by the sensors attached to your body to report or evaluate your health problems, including blood pressure, body temperature, pulse, and other metrics.
Autonomous nursing robots or self-moving smart gadgets can substantially assist by minimizing the tasks linked to supply management or sanitary maintenance that medical professionals must perform.
Different types of robots can work in various hospital-based settings and jobs, protecting human workers from infection risks or stress from the extreme burden imposed on many US hospitals by a COVID-19 patient overflow. An Italian hospital, for instance, employed robot nurses during a COVID-19 severe epidemic. These clever assistants were utilized to remotely check patients blood pressure and oxygen saturation levels because they are two critical indicators of their present state of health. Those levels might decline quickly, necessitating emergency intervention for the patient. This drastically decreased the requirement for nurses to visit patients in person.
Healthcare systems primarily concentrate on elements within their area of expertise: quality and price of medical services while generating risk assessments and accumulating illness data. However, they represent the very beginning. Before patients feel symptoms and seek the help of physicians, a host of other less apparent circumstances impact them.
Initial health problems are caused by factors other than a lack of care. Their origins are deeper; they are found in social, environmental, and demographic contexts that are rarely taken into account in the context of conventional clinical diagnoses.
Medical institutions mainly handle symptoms and offer advice on lifestyle modifications, having a minimally significant influence on treatment results (between 10% and 20%). In addition, between 80% and 90% of health outcomes are determined by non-medical variables. The term social determinants of health refers to these elements (SDOH).
In 2022, healthcare providers will approach SDOH with greater caution than ever before and carefully review patients medical histories, taking into account details that were overlooked in earlier years.
Doctors will shift from treating symptoms to prediction and prevention based on patients SDOH predisposition to particular diseases to stop the advancement of dangerous health concerns and reduce individual medical expenditures.
More implant-related options and technology will hit the global and American healthcare markets in 2022. This offers dramatically improved regenerative medicine effectiveness, patient rehabilitation, and a solution for many disabilities previously thought to be incurable.
Increasing the Use of 3D Bioprinting
By 2027, it is anticipated that the medical industrys volume of 3D printing potential will surpass $6 billion. Even if 3D printing biocompatible implants is not a novel technique in 2022, new materials and more advanced prosthetic methods will make this technology more dependable and available to a more extensive range of patients. In particular, it is anticipated that advancements in 3D bioprinting technology would improve the following areas:
Neural Implants
In 2022, effective options for brain-computer implants are anticipated to debut. Neuralink plans to begin inserting its devices into human brains at least in 2022. More businesses, groups, initiatives, and startups are preparing to market their neuro-implants for various medical requirements, including regaining functional independence in patients with multiple forms of paralysis or blindness.
For instance, it was stated that by the end of 2021, a team of scientists had implanted a microelectrode array (a penny-sized implant) into the visual brain of a blind individual, enabling her to recognize several letters and shapes. Although there is still a long way to go, brain implants potential to help people with various disabilities seems to have a genuinely fantastic and promising future.
Healthcare businesses will employ an exponentially growing number of data sources, and the volume of gathered healthcare data (including patient records, DICOM files, and medical IoT solutions) will also rapidly increase. Medical service providers will seek contemporary platforms, such as data fabrics, to combine and handle massive amounts of dispersed and structured data.
It will be among the tasks to build safe multi-cloud solutions capable of transporting significant amounts of data to manage, store, and mine it for valuable insights and to link siloed data with the healthcare systems.
Healthcare payers and providers frequently have interests that clash. The standard of their collaborative work decreases when both sides take absolutist positions. Patients, therefore, do not get the care they need. They are frequently mistreated, have to wait longer, and pay more.
Both payers and providers should embrace a value-oriented mindset and work toward group goals rather than individual success. All parties must understand that they are working for the same purposeproviding high-end healthcare to the publicand that if either suffers losses, the other will no longer support them. All organizations involved in the healthcare sector will hopefully try their utmost to learn how to collaborate in 2021. They will concentrate on delivering complete care, move from settling disagreements to cooperation, and communicate information to support successful decision-making.
The healthcare sector is already seeing the effects of the vast diversity, universality, and growth of digital communication channels. A brand-new channel for distributing medical data is telehealth. It entails delivering healthcare services remotely through the Internet, videoconferencing, streaming services, and other communication technologies. Long-distance education for patients and medical professionals is included in telehealth. Telehealth has achieved widespread acceptance and has evolved into a regular procedure in 2021. Modern clinics already counsel their patients electronically. This kind of communication will replace conventional internal dialogues and receive full regulatory permission in the upcoming years.
With the introduction of 5G wireless, telehealth will expand rapidly and be universally adopted shortly.
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Transcendence Review, Part 2: Spoonful of Water with the Nanotech – Walter Bradley Center for Natural and Artificial Intelligence
Posted: June 30, 2022 at 9:37 pm
Last Saturday, we reviewed the first half of Transcendence (2014); now, wrapping up, here are some final thoughts. Evelyn (Rebecca Hall) builds her now-AI husband Will (Johnny Depp) his facility, and he begins a variety of experiments using nanotech for rejuvenation. Things seem to be going well enough until a construction worker is mugged outside the facility. Will witnesses the mugging through the cameras and Evelyn has the man brought inside where Will heals his wounds using the tech developed on site. Things seem to be going well at first.
But two problems arise. First, Will allows a video of him healing the man to circulate so that he can attract others to the facility. Second, he puts a transponder again, connected to the internet into the construction workers skull. In so doing, he gives himself the ability to possess the man at will.
This is a moment where it wouldve been best to slow the pace down for a minute. Last week, I noted that a major weakness of the movie was that it traded off tension in favor of fast pacing. Tension takes time to build but it helps us viewers get inside a characters head, giving us a better understanding of a characters motivations.
Now, Evelyns motivations are clear enough. Will seems to have possessed this man so that he could touch her but she doesnt know that for sure. The possession episode adds to her fear that Max is right; her husband, as she knew him, is truly gone. The viewer can infer her reactions intuitively, but it wouldve been better to see the mans own reaction to being possessed. It wouldve been better for her to tell Will to knock it off, and once he obeyed her, she and the viewer would get to see the man panic, or perhaps even better, become sycophantic. Maybe, he likes being possessed by a technological deity. Maybe, hes willing follow Will to the grave. In either case, Evelyns reaction is bound to be utter dread. So, when she stops speaking to Will while in the facility, we would have a better idea why.
As Will heals and goes on to possess each member of the Brightwood community, we dont see any reaction from the citizens. We dont see the reaction of the parents who are watching their sick children plugged into this random guy who supposedly resides in this machine. I liked the whole zombie element during the last half of the film but the writers wouldve done well to explain why these people chose not to resist their AI overlord. This is a good example of how choosing pacing over tension can harm a film.
Its okay to make this trade-off sometimes. For example, there is a lot of logistics involved with constructing a facility or raising an army. But because that is predictable, it can usually be overlooked, to avoid slowing the pace. But when it comes to the motivations of characters, its better to take the time show peoples reactions to the various events and use their reactions to build the tension and raise the stakes.
In any event, in light of recent developments, Evelyn has begun to seriously question whether this computer really is her husband. At the same time, we learn that Max (Paul Bettany) has joined the anti-tech group RIFT and contacted some of his fellow co-workers who have been in constant contact with the FBI since the initial attack when they assassinated Will. Presumably, this connection enables RIFT to gather the supplies it needs to attack Wills facility, but the movie never shows this. In any case, Max develops a plan to catch one of the citizens of Brightwood who are now called hybrids so that he can upload a virus that will kill Will and also kill the internet.
Just as Evelyn is about to leave Will, RIFT attacks. They capture Evelyn, along with one of the hybrids, and return to their base. Evelyn is now convinced the computer is not really her husband so she decides to allow Max to upload the virus into her even though it will cost her her life.
One other point which bears mentioning is that, while all of this is happening, Will has been releasing nanotech into the soil. It is eventually caught up into the clouds and becomes a part of the water cycle. The reason for this is not explained until the end of the movie.
Evelyn returns to the facility where she meets Will who, using his new nanotech, has now constructed himself a body. They begin to talk. However, the FBI and RIFT, feeling trigger happy, have decided Will is not going to let her into the lab after all and shoot mortars at the facility. The hybrids attempt to defend their AI overlord and, while Will doesnt kill anyone, he manages to use nanotech-like tape, pinning everyone to the ground. But during this battle, Evelyn is wounded by one of the mortars, and Will takes her inside the facility.
As they talk for a while, Will realizes that he is a threat to humanity and decides to allow Evelyn to infect him with the virus. As they are both dying, Evelyn proclaims that the man before her really is her husband, to which Will replies, I always was.
Later, as Max finds their bodies, we learn through a bizarre series of flashbacks which are admittedly clunky that Wills goal was never to take over the world but rather to further Evelyns research on healing the environment. He was trying to make her dream come true by restoring the planet to its former glory using the nanotech now circulating in the water cycle or something. This sequence lasted less than a minute, another issue with pacing, I suppose. It doesnt really explain the whole zombie thing, but anyway
In the end, setting aside the pacing issues, Transcendence is an enjoyable movie. I like the way it presented everyones point of view without strawmanning anyone that is, without making anyone a flat spokesperson for the Wrong point of view. One of the best details is that, any moment where it seemed as if Will was feeling an emotion, the monitor would flicker, implying that the computer couldnt translate the emotion into a code which caused a glitch in the system. I thought this detail struck a nice balance between the competing points of view.
The movie seems to be saying that Will really had been encoded into the PINN system, but more was going on than a brain transplant. If youre into the mind/brain problem and issues regarding AI in general, Transcendence is certainly worth your time.
Heres Part 1 of my review, from last Saturday: Review: Transcendence The Soul Meets the Singularity Looking at the 2014 classic, we start with the question: Can a human mind be completely transferred to a computer? When an anti-tech group shoots a researcher, his wife, ignoring warnings, saves him by uploading him but is the powerful new Singularity really him?
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SUNY Poly gets grant to train high tech maintenance and operations workers – Times Union
Posted: at 9:37 pm
ALBANY SUNY Polytechnic Institutes College of Nanoscale Science and Engineering (CNSE) has received $397,000 from the New York State Energy Research and Development Authority to train the next generation of custodians, technicians, engineers, and managers for the high-tech buildings that house chip-making facilities and labs for developing computer chips.
The grant will help to train on-site employees and to develop a regional training hub for Building Operations and Maintenance that will utilize a digital twin of the Building Management System and the Energy Monitoring System that operate the Zero Energy Nano or ZEN smart building that houses the school.
This ZEN Smart PATH project will build upon millions of dollars in prior investments in technical skills for technicians, engineers, and managers.
This support aims to provide students and those currently in the workplace access to highly relevant training to further catalyze the success of New York States semiconductor-focused ecosystem, said SUNY Poly Acting President Tod Laursen.
NYSERDA is thrilled to support SUNY Polytechnic Institute so that it can offer hands on training to students and existing workers to develop the specific skills needed within Building Operations and Maintenance to further smart building technology innovation, added NYSERDA President and CEO Doreen Harris.
The ZEN building, completed in 2015 and located at the Albany NanoTech Complex, is a 356,000-square-foot facility that serves as a living laboratory for smart building technology innovation and workforce development in data science, facility operations, and clean energy technologies. ZEN Smart PATH is a multi-year project that will train more than 100 on-site and regional partner employees by utilizing multiple data science platforms tailored for careers in facility operations.
Using a combination of training simulators, use cases and data system platforms, ZEN Smart PATH will help establish clear career pathways for equipment technicians and engineers. Additionally, the program will employ cloud-based information systemsto monitor more than 5,000 data points in real-time, including financial performance related to the hundreds of systems used to operate the air handling, power management, demand load, heating and chilling systems, among many others in these buildings.
They also will develop training simulators for selected functions such as handling chilled water to help technicians understand complex systems in the ZEN and similar buildings.
Just as pilots train for various flight scenarios, these simulators will train facility personnel to examine how their decisions impact the various building systems.
The school will also aim to train an additional 175 people through its regional hub serving industry partners, in addition to regional chip fab operators and transitioning Fort Drum veterans.
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Tiny nanotech will have a huge impact on agriculture – Food For Mzansi
Posted: June 29, 2022 at 1:20 am
Science is about big ideas that change the world. But sometimes, big impacts come from the tiniest of objects like nanotech.
Nanotechnology might sound like science fiction, but it represents technologies that have been developed for decades. Nanotechnological approaches have found real-world applications in a wide range of areas, from composite materials in textiles to agriculture.
Agriculture is one of the oldest human inventions, but nanotech provides modern innovations that could dramatically improve the efficiency of our food supply and reduce the environmental impact of its production.
Farmers are only too familiar with the costs that come with agriculture: Crops require substantial amounts of water, land, and fuel to produce. Fertilisers and pesticides are needed to achieve the necessary high crop yields, but their use comes with environmental side effects, even as many farmers explore how new technologies can reduce their impact.
Nanotechnology is the science of objects that are a few nanometres billionths of a meter across. At this size, objects acquire unique properties. For example, the surface area of a swarm of nanoscale particles is enormous compared to the same mass collected into a single large-scale clump.
Varying the size and other properties of nanoscale objects gives us an unprecedented ability to create precision surfaces with highly customised properties.
Traditionally, applying chemicals involves first mixing the active ingredients in water and then spraying the mixture on crops. But the ingredients do not mix easily, making this an inefficient process that requires large quantities of water.
To improve efficiency and reduce environmental impact, farmers need their fertilisers and pesticides to reach their crops and be absorbed into the plant exactly where theyre needed into the roots or the leaves, for example. Ideally, they could use just enough of the chemical to enhance the crops yield or protect it from attack or infection, which would prevent excess from being wasted.
With the help of tiny nanotech, global agriculture is on the verge of some very big things.
Custom-made nanoscale systems can use precision chemistry to achieve high-efficiency delivery of fertilisers or pesticides. These active ingredients can be encapsulated in a fashion similar to what happens in targeted drug delivery. The encapsulation technique can also be used to increase the amount dissolved in water, reducing the need for large amounts.
Starpharma, a pharmaceutical company, got into this game a few years ago, when it set up a division to apply its nanotechnological innovations to the agriculture sector. The company has since sold its agrochemical business.
Psigryph is another innovative nanotech company in agriculture. Its technology uses biodegradable nanostructures derived from Montmorency sour cherries extract to deliver bioactive molecules across cell membranes in plants, animals, and humans.
My lab has spent years working in nanoscience, and I am proud to see our fundamental understanding of manipulating polymer encapsulation at the nanoscale make its way to applications in agriculture.
A former student, Darren Anderson, is the CEO of Vive Crop Protection, named one of Canadas top growing firms. They take chemical and biological pesticides and suspend them in nanopackets which act as incredibly small polymer shuttles to make them easily reach their target. The ingredients can be controlled and precisely directed when applied to crops.
One bonus of these nanotech developments is that they dont actually require any new equipment whatsoever, which is a tremendous advantage in the financially challenging agricultural industry. Farmers simply mix these products using less water and fuel to make efficiency gains.
Other agricultural uses for nanotech include animal health products, food packaging materials, and nanobiosensors for detecting pathogens, toxins, and heavy metals in soil. It wouldnt be a surprise to see the widespread use of these new applications shortly.
As nanotechnologies take flight, this kind of productivity gain will be critical for farmers and a big deal for the rest of us, as the earths population continues to grow and the effects of climate change become increasingly obvious. Farmers will need to do more with less.
Fortunately, a few billionths of a metre is the very definition of less. With the help of tiny nanotech, global agriculture is on the verge of some very big things.
This article was written by M Cynthia Goh originally published by The Conversation Africa.
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Conductive Ink Industry Insights and Growth Relevancy Mapping by Poly-ink, Novacentix, Creative Material, Parker Chromerics, Applied Nanotech, Pchem…
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Conductive Ink MarketResearch Report is a Professional and In-Depth Study on the Existing State of Conductive Ink Industry. This report focuses on the Major Drivers, Restraints, Opportunities, and Threats for Key Players likePoly-ink, Novacentix, Creative Material, Parker Chromerics, Applied Nanotech, Pchem Associates, etc. It also Provides Granular Analysis of Market Share, Segmentation, Revenue Forecasts, and Regional Analysis till 2028.
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Nanotechnology Market 2022 Detailed Analysis Of Current Industry Demand with Forecasts Growth by 2028 Designer Women – Designer Women
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Nanotechnology Market research report brings to light key market dynamics of sector. The report gives correct insights on the current market scenario and future prospects of the industry. It neatly describes historic data, present market trends, market environment, technological improvements, upcoming technologies and the technical progress in the related industry. Major market players, major collaborations, mergers & acquisitions are reviewed comprehensively in the market report. Moreover, this market study also analyzes the market status, market share, growth rate, future trends, market drivers, opportunities and challenges, sales channels, distributors and Porters Five Forces Analysis. Market risks and entry barriers makes industry attentive and help deciding further moves.
Moreover, two more major success factors of the credible market report can be mentioned here which are market share analysis and key trend analysis. The research methodology employed in the report by DBMR research team is data triangulation which includes data mining, studying the impact of data variables on the market, and primary validation by industry experts. Being an outstanding and a comprehensive in nature, this report focuses on primary and secondary market drivers, market share, leading segments and geographical analysis. With the nice mixture of integrated approaches and latest technology, best results are achieved in the form of this market research report.
The nanotechnology market is expected to gain market growth in the forecast period of 2021 to 2028. Data Bridge Market Research analyses the market to grow at a CAGR of 16.45% in the above-mentioned forecast period. High technological advancements and applications of nanotechnology drives the nanotechnology market.
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The major players covered in the nanotechnology market report are Honeywell International Inc, DuPont, 3M, Sioen Industries, Kimberly-Clark, Glen Raven, Inc, Derekduck Industries Corp, ANSELL LTD, Lakeland Inc, Advanced Electron Beams (AEB), ACS Material, Abraxis, Inc., Bruker, Agilent, Nanosurf AG, Nanoscience Instruments, Hysitron, Inc and Malvern Panalytical Ltd among other domestic and global players.
Competitive Landscape and Nanotechnology Market Share Analysis
The nanotechnology market competitive landscape provides details by competitor. Details included are company overview, company financials, revenue generated, market potential, investment in research and development, new market initiatives, global presence, production sites and facilities, production capacities, company strengths and weaknesses, product launch, product width and breadth, application dominance. The above data points provided are only related to the companies focus related to nanotechnology market.
Nanoscience is defined as the study of extremely small things. The development of nanotechnology is being growing in many fields, as it has numerous applications, such as in chemistry, biology, physics, materials science and engineering. Nanotechnology deals with the use of nanoparticle of size of 1 to 100 nm to be used in all major field of medical.
Rise in theresearch and developmentactivities of major players in the field of nanotechnology is the vital factor escalating the market growth, also rise in the demand of nanotechnology based devices or equipment, rise in the adoption of nanotechnology in medical diagnosis and rise in the emerging technological advancements in nanotech devices are the major factors among others driving the nanotechnology market. Moreover, rise in thegovernmentfunding initiatives and increasing technological advancements and modernization in the healthcare devices will further create new opportunities for nanotechnology market in the forecasted period of 2021-2028.
However, high cost of nano based devices and lack of skilled professionals are the major factors among others which will obstruct the market growth, and will further challenge the growth of nanotechnology market in the forecast period mentioned above.
The nanotechnology market report provides details of new recent developments, trade regulations, import export analysis, production analysis, value chain optimization, market share, impact of domestic and localised market players, analyses opportunities in terms of emerging revenue pockets, changes in market regulations, strategic market growth analysis, market size, category market growths, application niches and dominance, product approvals, product launches, geographic expansions, technological innovations in the market.
Nanotechnology Market Scope and Market Size
The nanotechnology market is segmented on the basis of type, application and end-user industry. The growth amongst these segments will help you analyse meagre growth segments in the industries, and provide the users with valuable market overview and market insights to help them in making strategic decisions for identification of core market applications.
Nanotechnology Market Country Level Analysis
The nanotechnology market is analysed and market size insights and trends are provided by country, type, application and end-user industry as referenced above.
The countries covered in the nanotechnology market report are U.S., Canada and Mexico in North America, Germany, France, U.K., Netherlands, Switzerland, Belgium, Russia, Italy, Spain, Turkey, Rest of Europe in Europe, China, Japan, India, South Korea, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), Brazil, Argentina and Rest of South America as part of South America.
North America dominates the nanotechnology market due to rise in the presence of technologically advanced healthcare infrastructure, increase in the patient and healthcare practitioners and rise in the presence of numerous nano-technology in this region.
The country section of the nanotechnology market report also provides individual market impacting factors and changes in regulation in the market domestically that impacts the current and future trends of the market. Data points such as consumption volumes, production sites and volumes, import export analysis, price trend analysis, cost of raw materials, down-stream and upstream value chain analysis are some of the major pointers used to forecast the market scenario for individual countries. Also, presence and availability of global brands and their challenges faced due to large or scarce competition from local and domestic brands, impact of domestic tariffs and trade routes are considered while providing forecast analysis of the country data.
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Healthcare Infrastructure growth Installed base and New Technology Penetration
The nanotechnology market also provides you with detailed market analysis for every country growth in healthcare expenditure for capital equipments, installed base of different kind of products for nanotechnology market, impact of technology using life line curves and changes in healthcare regulatory scenarios and their impact on the nanotechnology market. The data is available for historic period 2010 to 2019.
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Tonko and business executives push passage of CHIPS Act – Times Union
Posted: June 22, 2022 at 12:21 pm
ALBANY - Local business and political leaders gathered Friday at Albany Nanotech for a panel discussion in which they urged Congress to finally pass the $52 billion CHIPS Act, which would provide the computer chip industry billions of dollars to build new factories across the United States, including a new federal chip manufacturing research lab based in Albany.
The event, organized by the State University of New York system, the Business Council and the locally-based American Semiconductor Innovation Coalition, featured U.S. Rep. Paul Tonko, the Democratic congressman from Amsterdam, as well as executives from IBM and GlobalFoundries.
And while there is plenty of excitement about the CHIPS Act, and what it could mean for the Capital Region, there was also some worries since the legislation appears to be stalled as Congress approaches its recess at the end of July.
The CHIPS Act was designed to provide up to $2 billion to chipmakers as a way to remake the domestic chip manufacturing sector, which has lost its status as the world's largest chips producer.
Today, the U.S. only makes 12 percent of the world's chips, down from nearly 40 percent back in the 1990s. Tonko, members of Congress on both sides of the aisle and the chip industry believe what's needed is a massive infusion of capital in order to get the momentum swinging back away from China, whose relationship with the U.S. has become increasingly belligerent.
China also has been threatening to take back the island nation of Taiwan, which produces a majority of the world's most advanced chips due to its technological and manufacturing leadership. The CHIPS Act is also a hedge against China's threats against Taiwan, which is a U.S. ally.
"It is deep investments that need to be made," Tonko said at Friday's event.
Tonko is a member of the congressional committee negotiating the final version of the CHIPS Act, which is now in conference between the House and the Senate as part of a larger China competition bill. Because of the issues Republicans had with that larger, more expensive bill, the legislation has been stalled.
"All they had for me was decline, decline, decline," Tonko said of his GOP counterparts.
Because of that, there is now talk in Congress of stripping out the CHIPS Act on its own again in the hopes that it will pass quickly and not get bogged down in partisan fighting that could end up killing the bill entirely.
But now, it's not just China that the U.S. has to worry about.
The CHIPS Act, which was originally championed by U.S. Senate Majority Leader Charles Schumer of New York, has forced leaders in South Korea, Japan and India to create similar incentive programs in order to compete, according to the New York Times. The European Union is also doing the same thing as well.
GlobalFoundries has already promised that if the CHIPS Act passes, it will build a new chip factory in Saratoga County next to its existing factory at the Luther Forest Technology Campus known as Fab 8.
Heather Briccetti, president of The Business Council of New York State, said at Friday's event that adding new chip fabs is about more than just jobs at the factory but construction jobs and new operations set up by suppliers, as well as the new housing and retail that would develop from an influx of employees.
"The more critical mass (in the chip industry in New York), the more companies we will see grow around it," Briccetti said.
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Correction: Correction: Industrial Nanotech Inc. Achieves
Posted: June 11, 2022 at 1:35 am
BROOMFIELD, Colo., May 17, 2022 (GLOBE NEWSWIRE) -- via InvestorWire Industrial Nanotech, Inc (Pink Sheets: INTK). Despite strong economic headwinds, global nanoscience solutions and research leader Industrial Nanotech, Inc. posted sterling financial results for the first quarter ended March 31, 2022. The company posted a March quarter revenue record of $3m, up 678% on the previous quarter (December 31, 2021) of $385,793; the most positive result ever recorded in the companys history.
Stuart Burchill, CEO of Industrial Nanotech, said, We delivered an exceptional first-quarter performance with record revenue profitability, driven by strong demand and excellent execution across all levels of the business. Revenue of $3 million was a remarkable achievement for the company, supported by strong sales trends and customer demand throughout the period. This is an important milestone for us as we progress towards our aim of sustainability to become carbon neutral across our supply chain and all our products by 2030.
Notwithstanding the current economic climate, Industrial Nanotech, Inc. continues to deliver strong financial performance, due in part to its unique business model and products. The key distinguishing attributes of this model, which include innovation, creating new technologies, launching new brands and products, as well as engaging with customers and shareholders, will only grow stronger over time as the company expands and produces more products and solutions.
This quarters results are a testament to Industrial Nanotechs ability to create the best products and solutions for our customers, as well as our focus on innovation. We are delighted to see the strong customer demand for our products and solutions, added Mr. Burchill.
Quarter 1 Financial Highlights
Net income increased to $1.6 million, compared to a net loss of $297,181 in the fourth quarter of fiscal 2021.Gross profit increased to $1.8 million compared to $189,516 in the fourth quarter of fiscal 2021. The gross profit margin was 60% of net revenues.Operating expenses of $195,350 were recorded compared to $474,681 in the fourth quarter of fiscal 2021.An increase in stockholders equity of $865,061 (compared to $799,565 for the fourth quarter of 2022).
Forward-focus on an increasing revenue stream
The company projects total revenues for the second quarter of the 2022 fiscal year to exceed $6 million, representing 100% growth.
Mr. Burchill added, As we move forward, we are raising our expectations for higher revenues and profits. Our purpose and strategy are clear. We are intensely forward-focused on doubling our revenue in the second quarter of fiscal 2022 and repeating that pattern in Q3 and Q4 of 2022. We will focus on growth by investing in R&D and advanced technology, hiring experienced and skilled talent, creating opportunities for our people to learn and develop, as well as stepping up our supply chain and our operating efficiencies. With the right business strategy, experienced people, and an innovative business platform we continue to build on our success and deliver long-term sustainable and profitable growth. I am proud of our enthusiastic and driven team - we are eager and enthusiastic for a successful 2022 fiscal year.
In addition, a stock buyback will take place commencing June 1, 2022. The company has a pink stream listing and intends to list on a senior exchange in 2023.
About Industrial Nanotech, Inc.
Industrial Nanotech, Inc. is a global nanoscience solution and product developmentleader. Seewww.industrial-nanotech.comand the Companys subsidiary at http://www.syneffex.com for more information.
Safe Harbor Statement
Safe Harbor Statement under the Private Securities Litigation Reform Act of 1995: This release includes forward-looking statements made pursuant to the safe harbor provisions of the Private Securities Litigation Reform Act of 1995 that involve risks and uncertainties including, but not limited to, the impact of competitive products, the ability to meet customer demand, the ability to manage growth, acquisitions of technology, equipment, or human resources, the effect of economic and business conditions, and the ability to attract and retain skilled personnel. The Company is not obligated to revise/update any forward-looking statements to reflect events or circumstances that may arise after the date of this release.
Service Contact:InvestorWire (IW) Los Angeles, Californiawww.InvestorWire.com212.418.1217 OfficeEditor@InvestorWire.com
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