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"The World in 2030" by Dr. Michio Kaku" This site is useful because it is direct opinions from Michio Kaku about the future. This site is reliable because it is a direct speech from Dr. Kaku.

It's a little out there but hey..

I Wikipedia page for Technological Singularity

This site provides a huge depth of information on what robots and AI will do to jobs and the economy in the future.

The person who wrote this page is also the head writer of the website and recently wrote a book about technology in the future.

Ekenstam's robotic hand

"A nanoparticle (or nanopowder or nanocluster or nanocrystal) is a microscopic particle with at least one dimension less than 100 nm. Nanoparticle research is currently an area of intense scientific research, due to a wide variety of potential applications in biomedical, optical, and electronic fields. Nanoparticles are of great scientific interest as they are effectively a bridge between bulk materials and atomic or molecular structures. A bulk material should have constant physical properties"

"Engineers at the University of Florida (USA) have created a housing that incorporates a tiny microchip and antenna and, after administration, warns that a patient has taken his medicine. According to Rizwan Bashirullah, creator of the invention, the smart pill could be very useful in patients who forget if you have taken medication, or just clueless and do not take it daily. The pill consists of a capsule containing a microchip and an antenna that is printed on its surface using non-toxic ink of silver nanoparticles . The antenna is biocompatible and dissolves almost 100%. When the pill is swallowed, the microchip is communicated to a small external electronic device (which could be incorporated into future mobile phone), which in turn sends a message to a phone or a computer, informing both the patient and the doctors and family members if necessary. According to the American Heart Association, the main problem in treating illness today is that no medical requirements are met . Recent studies show that chronically ill patients only take half of the pills prescribed . And that 10% of hospital admissions due to this lack of consistency. Even 218,000 deaths annually are attributed to this problem. "Using technology to remedy may be a good idea," says Bashirullah."

"In the field of medical device development there are a number of factors generally recognised as being important for success. Among these are the biocompatibility, sterility, reliability and adaptability of materials to their surroundings. Without a suitable approach to these issues, the majority of medical devices will not be as successful as they could be. Biocompatibility of materials, in particular, is a critical factor in the development and application of permanent and temporary implants and other devices such as catheters and tubes that are to be used in and around the body. Coating technology is the obvious and ideal solution for separating the bulk properties of a material or device from direct interaction with its surroundings. The independent modification of surface and bulk properties widens the range of features that can be incorporated into products. Bulk properties are responsible for characteristics such as mechanical strength. A suitable coating will enhance the interaction of the device with its surroundings. For example, it will provide drug-elusion (stents), anti-fouling and antibacterial properties, and a hydrophobic self-cleaning surface, referred to as lotus coating.1 The lotus effect in material science is the observed self-cleaning property found with lotus plants. A coating with this effect will make surfaces self-cleaning and will decrease the need for active cleaning of the subsequent surface; it may even enhance the sterility of surfaces. Recently there have been some interesting developments in materials and coatings based on organic and inorganic components, which are responsible for current state-of-the-art devices. Examples include coatings for stents that provide multiple therapeutic effects in thinner layers and coatings with better adhesion to device surfaces. The future holds the promise of even greater functionality for medical coatings."

"In recent years the mushrooming power, functionality and ubiquity of computers and the Internet have outstripped early forecasts about technology's rate of advancement and usefulness in everyday life. Alert pundits now foresee a world saturated with powerful computer chips, which will increasingly insinuate themselves into our gadgets, dwellings, apparel and even our bodies."

Rise of robots

"The term "nanotechnology" has evolved over the years via terminology drift to mean "anything smaller than microtechnology," such as nano powders, and other things that are nanoscale in size, but not referring to mechanisms that have been purposefully built from nanoscale components. See our "Current Uses" page for examples. This evolved version of the term is more properly labeled "nanoscale bulk technology," while the original meaning is now more properly labeled "molecular nanotechnology" (MNT), or "nanoscale engineering," or "molecular mechanics," or "molecular machine systems," or "molecular manufacturing." Recently, the Foresight Institute has suggested an alternate term to represent the original meaning of nanotechnology"

passage about robot merging