Microbial Factories To Produce Environmentally Friendly Products
Production of environment-friendly ammonia, gasoline, biodegradable plastics, and biodiesel fuels is no more a far-fetched idea. Utilizing light-powered, carbon dioxide consuming nano bio-hybrid organisms can make this a reality soon.
Scientists of the University of Colorado Boulder created a living microbial factory, which can eat and change carbon dioxide into functional products such as biodegradable plastics and gasoline. The technology makes use of light-activated quantum dots, which are capable of firing certain enzymes inside the microbial cells.
Assistant professor at the University of Colorado Boulder and lead author of the study, Prashant Nagpal, said that this innovation bore testimony to the power that can be wielded by the biochemical processes. The researchers were looking for a procedure that would better the capture of carbon dioxide, and help them fight against climate change. In addition to that, the researchers hoped that someday such a technique could potentially make a replacement of carbon-intensive manufacturing process for fuels and plastics.
The program was incepted a long time ago, in 2013 when the scientists were looking for various applications of nanoscopic quantum dots. During the research, the scientists explored ways to determine if quantum dots are able to trigger certain enzymes inside microbial cells. They also explored if such triggering could change airborne nitrogen and carbon dioxide into some useful products or not.
Six Pack Abs Can Turn the Tables on Cancer
Here is a new reason to break some sweat in the gym – Pumping iron can protect you from cancer. Yes, you heard that right. Researchers believe that muscle buildup could be the key to fighting cancer cells effectively. A study published in Scientific Reports claims that sarcopenia, a disease which causes skeletal muscle loss results in a poor response to cancer treatments.
During the study, 38.1% non-sarcopenia patients remained free from treatment one year after therapy. On the other hand, only 10.1% patients did not develop tumor any further.
These researchers from Japan tested their theory on patients with non-small cell lung cancer (NSCLC). They used treatment known as PD-1 or programmed death inhibitors, which work with the immune system to attack cancer cells. Currently, only a small portion of patients show promising recovery in these treatments. This is the concern that drove the researchers to conduct further study.
The global market for mobile wallet has been expanding at a starry rate in next upcoming years
The global market for mobile wallet has been expanding at a starry rate over the past decade, and a number of changes in the global setup can be reasoned as the drivers of this growth. Mobile wallet refers to transference of the credentials of a debit or credit card to a digital format such as smart phone, laptop, smart watch, or tablet.
The availability of mobile wallet can free the users of the hassle of carrying credit or debit cards for making purchases. With digitization of most industries, the need to make swift and easy monetary transactions has escalated, which has in turn given a boost to the demand within the global market for mobile wallet.
Furthermore, several stakeholders across a wide range of industries have begun using mobile wallets as an easy mode of making company-related transactions and payments. It is anticipated that the demand for mobile wallet would further elevate as a number of smart phone apps glut the market. Furthermore, the propensity of the people to go for safe, secure, and easy payment options is also expected to push the demand within the global mobile wallet market.