Green Nanotechnology Innovations to Realize UN Sustainable Development Goals 2030
Do you know that nanotechnology are the new „Green“ solution and the holy Grail for future economics?
It looks perhaps more like an atomic-radiation-green, but nevertheless it is green. So if the UN and the new kind of science say it’s green than you can be reassured and trust the authority’s.
There was this beautiful world and within a lot of humans and animals, plants and colours. Actually a very peaceful place, unless those who own everything and thinking only godless from them self. They are full of greed, money and mad ideas so they have the ability to safe and shape the world in the right direction in wise of the future have thought of an agenda and install a new economic system with a new currency.
Before we start, please listen to the audio from 2008-09-26 and the Nanotechnology, Ethics, and Environmental Health Symposium (Part 6)
Purpose:Adoption of suitable technology and managing it strategically to solve social problems of the world is the need of the hour. United nations being a multi-country membership organization, has announced 17 Sustainable Development Goals (SDG) in the year 2015 with a slogan of action to end poverty, to protect the planet, and to ensure peace and prosperity by the year 2030.
These 13 SDGs include: Reduce Poverty, Reduce Hunger, Health & Well-Being, Clean Water & Sanitation, Affordable renewable energy, Sustainable Industrialization, Ensure Sustainable Production & Consumption, Combat on Climate Change, Conserve Ocean & Marine Resources, and Protect life on Land.
Methodology: These study uses explorative research methodology based on developing postulates. The data and information are collected from various related scholarly publications searched through suitable keywords in Google scholar.
Keywords:SDG, Nanotechnology (NT), Green nanotechnology (GNT), Strategic management, Green nanomaterials, Green synthesis, Eco-friendly production, Technification
Findings: Nanotechnology anticipated as a universal technology has capabilities to solve problems of society at the basic level, comfortable level, and dreamy desirable levels. Nanotechnology, if not managed strategically and carefully has dangers to human health due to its potential risks of predicted nanotoxicity.
This paper analyses these potentials challenges of nanotechnology, its strategic management, and developed a model of how green and eco-friendly nanotechnology can be used in many industries to realize these thirteen sustainable development goals and eliminates the threat of the technification of development processes.
I can’t imagine and don’t accept this model of eco unfriendly stuff because I know that the materials are highly toxic and can entering all cells of living beings and altering your genome. What currently looks more like ending in a disaster instead of being a solution.
Or is this the plan – destroying all livelihood and being and then you are the only one with indoor plants and bugs the hero of the Mountain of death and destroyed life?
Sustainable Development Goals are identified by United Nations Member States in the year 2015 with an objective to end poverty, to protect the planet, and to ensurepeace and prosperity throughout the world by the year 2030.
And in the meantime they spraying toxic chemicals in the air and manipulating the weather, burning down forest and city’s, humans and natural beings and waging war until 2030 so that we can build back better the totally destroyed landscape and economy in the declared „green sense“…?
The SD goals and suitable 21st technologies to realize them to balance social, economic, and environmental sustainability are listed in table 2. To realize each SD goal based on the objective of an issue as maximum or minimum, suitable technologies are selected and proposed. It is argued that nanotechnology and ICCT, individually or combinedly are capable to achieve global sustainable goals to a larger extent within the given target of 15 years [35]. It is argued based on postulates of green nanotechnology, 13 out of 17 SDGs can be realized by promoting green nanotechnology solutions by 2030.
[35] Nilsson, M., Griggs, D., & Visbeck, M (2016). Policy: map the interactions between Sustainable Development Goals. Nature, 534(7607), 320-322.
7. OPPORTUNITIES TO REALIZE UN SDG USING GREEN NANOTECHNOLOGY
Nanotechnology (NT) along with Information Communication and Computation technologies (ICCT) can be used as potential technologies to realize the Sustainable Development Goals.
If United Nations promotes nanotechnology research by creating awareness among youths and funding the research in the areas related to SDG adequately, the objectives of the goals can be achieved within the timeframe of 2030.
Postulates through Predictive Analysis:
(1) Green nanotechnology innovations support to minimize poverty by solving basic need-based problems of citizens of the countries.
(2) Green nanotechnology innovations support to minimize Hunger & thirst by improving the productivity of food grains either naturally or artificially to everyone.
(3) Green nanotechnology supports to provide quality Health & Well-Beings to everyone in the entire world by means of finding simple & effective drugs for every disease.
(4) Green nanotechnology supports to provide clean drinking water to everyone including plants for long-living through desalination of seawater using renewable energy and moving the clouds to desired locations.
(5) Green nanotechnology supports everyone by providing efficient production and storage technique’s for solar and winds energy as renewable energy.
(6) Green nanotechnology supports the countries to maximize employment by offering research and development of various new and innovative products and services in basic need, advanced wants, and dreamy desire areas thereby creating enhanced job opportunities.
(7) Green nanotechnology supports sustainable industrialization in primary, secondary, tertiary, and quaternary industry sectors in every country for sustainable economic growth.
(8) Green nanotechnology supports economic development in every country which minimizes the inequalities among the countries.
(9) Green nanotechnology supports to develop environmentally sustainable, clean, and safe cities by minimizing water, air, and other environmental pollutions.
(10) Green nanotechnology supports to ensures sustainable production by promoting the use of renewable energy and smart materials so that the durability of the products and services are the longest.
(11) Green nanotechnology supports to minimize environmental degradation and to combat on climate change of the world.
(12) Green nanotechnology supports to conserve ocean and marine resources by controlling the pollution and toxicity in the ocean through solar light and temperature-controlled reactions using suitable nanomaterials.
(13) Green nanotechnology supports to protect life on land through minimizing environmental degradation and large-scale sustainable cleaning of already degraded air, and water. It will also control green gas emission and production of toxic materials thereby protecting all life on earth.
The branches of NT (NanoTechnology) including:
Nanomaterials Design Technology,
Nanomaterial fabrication,
Nanomaterials characterization,
Nanomechanics technology,
Nanoelectronics Technology,
Nanophotonics Technology,
Nanobiotechnology,
Nanomedicine, are expected to change the rules of development games [36] in many areas including
Agriculture & food industry,
Drinking water systems [37],
Efficient Automobiles [38],
Renewable energy systems [39-41],
High speed optical computers,
Low cost durable shelters,
Embedded intelligence,
Space vehicles,
Health & Medical solutions [42-43], etc in all member countries by 2030. This will allow human beings to become ubiquitous and provides total automated products and services for individuals and hence acts as a pillar of social, technological, and economical transformation [32].
[32] Aithal, S., & Aithal, P. S. (2021). Green and Eco-friendly Nanotechnology–Concepts and Industrial Prospects. International Journal of Management, Technology, and Social Sciences (IJMTS), 6(1),1-31
[36] Aithal, P. S. (2021). Ideal Technology & Its Realization Opportunity. Ideal Systems, Ideal Technology, and their Realization Opportunities using ICCT & Nanotechnology, Srinivas Publication, India, (April 2021). ISBN: 978-81-949961-3-2, pp. 83-216. DOI: http://doi.org/10.5281/zenodo.4699122.
[37] Shubrajyotsna Aithal & Aithal, P. S. (2018). Concept of Ideal Water Purifier System to Produce Potable Water and its Realization Opportunities using Nanotechnology. International Journal of Applied Engineering and Management Letters (IJAEML), 2(2), 8-26.
[38] Aithal, P. S. & Shubrajyotsna Aithal, (2016). Nanotechnological Innovations & Business Environment for Indian Automobile Sector: A Futuristic Approach. International Journal of Scientific Research and Modern Education (IJSRME), 1(1), 296-307.
[39] Aithal, P. S. & Shubhrajyotsna Aithal, (2016). Nanotechnology Innovations & Business Opportunities in Renewable Energy Sector. International Journal of Engineering Research and Modern Education (IJERME), 1(1), 674- 692.
[40] Shubhrajyotsna Aithal & Aithal, P. S. (2018). The Realization Opportunity of Ideal Energy System using Nanotechnology Based Research and Innovations. International Journal of Advanced Trends in Engineering and Technology, 3(2), 1-15.
[41] Aithal, P. S. & Shubhrajyotsna Aithal (2018). The Concept & Characteristics of Ideal Energy System and its Realization Constraints. International Journal of Applied Engineering and Management Letters (IJAEML), 2(2), 127-137.
[42] Architha Aithal & Aithal, P.S. (2018). The concept of Ideal Drug & Its Realization Opportunity using present Pharmaceutical Sciences Scenario. International Journal of Health Sciences and Pharmacy (IJHSP), 2(2), 11-26.
[43] Aithal, P. S. (2021). Marching towards technological immortality. Ideal Systems, Ideal Technology, and their Realization Opportunities using ICCT & Nanotechnology, Srinivas Publication, India, (April 2021). ISBN: 978-81-949961-3-2, pp. 386-405. DOI: http://doi.org/10.5281/zenodo.4699209.
Ideal Technology Concept & its Realization Opportunity using Nanotechnology
An ideal technology system should have characteristics to fulfill its objectives to solve all problems of human beings including both basic needs and advanced gadgets to support comfort living to realize their dreams. Based on various factors which decides the ideal technology system characteristics, a model consisting of input conditions, output conditions, environmental conditions and system requirements are derived by a qualitative data collection instrument namely focus group method [6, 7].
1. Input Conditions
1. Manipulate the fundamental nature of matter to provide solutions to basic and advanced problems of mankind.
2. In-expensive & self reliable in terms of resources to make it attractive to be used by people/countries of varied economical situations.
3. Ubiquitous so that the technology provide solutions and services at anytime, anywhere, any amount of time to the users.
4. Affordable to everybody so that it uses common materials available in nature and manipulate effectively to the need of human being at affordable cost.
2. Output Conditions
1. Solve basic needs like food, drinking water, renewable energy, clothing, shelter, health and clean environment.
2. Provide comfort life to the users by providing solutions to their desires.
3. Equality ; ideal technology provide equal opportunity and similar solutions to every user irrespective of their gender, religion, background, education, economic status, and country of origin.
4. Immortality is the ultimate goal of ideal technology so that it can create an avenue for deathless situation or enhancement of human life span.
3. System Requirement
1. Automation; ideal technology automate all processes in every type of industries to avoid human interference in work/control in order to provide expected output based on programming.
2. General purpose technology to support all fields and problems of human & living beings on the earth.
3. Self-directed & self controlled & self regulated so that the technology can control itself in order to achieve its goal. 3. Easy, simple, quick & user friendly to solve all type of problems and to provide quick ideal solution.
4. Scalable so that it is used for solving small and simple problem to large and complex problems of life.
Omni-potent to identify and solve problems and provide comfortability to human being and feeling him like God. 6. Exploring new opportunities to improve and explore comfortability and further leisure in life of people.
Infinite potential for further development of life in the universe. 3.4 Environment Conditions
Maintain clean environment through its processes and avoids foot print of processes while achieving specific function.
Infinite business opportunities by creating new products / services with ideal characteristics. 3. Adaptive to any situations to achieve stated goal.
No side effects so that it should be safe for users, and environment. Any technology which has the above properties/characteristics is considered as ideal technology and the conventional technologies have serious drawbacks/limitations in terms of the above properties.
Basically, technology is used to solve problems related to the matter, energy, space or time and manipulate them as per individual and society requirements.
Technology is used to simplify, to make easy and effortless systems at comparatively less cost and time saving purpose.
Technology is dynamic and based on human requirement is changing and growing.
The saga of growth of technology provided many gifts to the society in terms of providing the comfortable lifestyle to the human beings in the society.
The developmental stages like industrial age, information age, e-business age, and present artificial intelligence age.
Description
The chapter is a comprehensive summary of the work on ideal systems, ideal technology, and Nanotechnology based innovations for human life comfortability are discussed with a question to analyse :
Are we marching toward technological immortality ?
Future research advances innanomedicine are expected to support life extension through the possible repair of many processes in the human body thought to be responsible for aging of the human being. One of the founders of nanotechnology, K. Eric Drexler [12], proposed cell repair machines in his book ‘Engines of Creation’ 1986, by using hypothetical molecular computers called nanobots, which are used to operate within the body cells. Raymond Kurzweil, a futurist and transhumanist writer, proposed in his book on ‘The Singularity Is Near’ that nanorobots can completely provide a remedy for the process of aging by 2030 [13]. A well-known and highly respected innovator and visionary Peter Diamandis M.D., MIT graduate and Founder/Chairman of XPrize and Singularity University, addressed the future of nanomedicine saying “We’re going to look at your genome and all of your body’s systems and identify what’s likely to kill you and find it before it does. So, stopping you from dying is the first bit.”
Nanobot as a killer of cancerous cells
Nanobots are robots that are microscopic in nature, measured largely on the scale of nanometers. They are currently in the research and development phase, but on realization, they are expected to do specific tasks at the atomic, molecular and cellular level and help in bringing about many breakthroughs, especially in medical science. Nanobots are also known as nanomachines, nanorobots, nanomites, nanites or nanoids. The circulatory system of living beings is a natural highway for nanobots which will cruise through the bloodstream to the area of distress. They may be used to attach themselves to specific cells, such as cancer cells, and report the position and structure of these tissues. Nanobots can be considered to be a machine version of a bacteria or virus. They can be biological or synthetic but are adapted to perform preprogrammed tasks at the atomic level. They are expected to be autonomous in nature and powered by a small cell or battery, or even solar cells. The whole idea behind nanobots is in having a device which can interact at the nanoscale and help in understanding or manipulating structures at the nanoscale level. In the development of nanobots, nanoassembly and nanomanipulation have important roles.
Nanotechnology and Respiratory Research
Though the amount of funding is limited form Govt. and industrial sources for research in nanomedicine, researchers are addressing the problems of lower respiratory Infections. They found that nanoparticle encapsulation of antimicrobial chemo drugs decreases the toxicity to patients, increases antibiotic resistance activity of drug resistant bacteria. TB is the second deadly disease due to infection worldwide mainly due to limitations in drug delivery, patient compliance, and multiple drug resistant strains. Medicines using nanoparticles will support the delivery of drugs intracellularly by focussing on infected macrophage parts and stimulate them simultaneously to cure TB. It is also shown that nanomedicine has the ability to overcome antibiotic resistance. Nanomedicine used for treating azithromycin microspheres also shown improvements in curing macrolide-resistant streptococcus pneumonia strains in many patients. Thus, nanomedicine research for curing respiratory diseases have shown tremendous opportunities in future days
CONCLUSION
Nanotechnology being general-purpose universal technology has the potential ability to use as a tool to solve all problems and challenges of different levels in society. But it is feared that nanotechnology, if not handled properly with precautions may have potential disadvantages in terms of risks to the health of living beings, environment, social life, and economy of the countries. Green nanotechnology is a concept and practice where all possible environmental threats are taken care of.
I don’t think so! Or why we have no open discussion and secrecy and lies no matter where we look. Corona is the best example for the failure And inability to learn from the mistakes. In the current non-existent debate of the WHO, on the contrary, no doubt of one’s own actions is allowed and every real study is covered with smear or hidden with censorship.
If this is to be the future that we should all work towards so diligently, I can only say „I’m out because your future suck’s!“
This is by far the worst of all worlds that people could ever has made!
This is a religion and not a science!
Connecting Brains to Cloud & Internet
While forecasting futuristic technology, it is predicted that a time will come for connecting our brains to computers in the cloud through the internet. Computers and mobile phones are already billions of times the speed and powerful than their predecessors and now one can connect them to the internet where millions of computers living in the cloud. According to Ray Kurzweil, director of engineering at Google [34], humans will have hybrid brains able to connect to the cloud, just as with computers. The brains and computers will all be connected using DNA strands called Nanobots or nanorobots and synthetic neocortex. In this cloud, thousands of computers can be connected to update human intelligence. The larger the cloud, the thinking becomes more complicated due to the combination of biological and non- biological thinking processes. Ray Kurzweil also foresee that by the end of 2030, human thinking should be almost entirely non-biological and able to work like an external hard drive with the ability to backup information using technology. This also will increase the ability of the human mind. Continuation to this concept, we predict that such networks further leads to connecting many brains and computers together and if happens a Universal Super Intelligence (USI) System may evolve. Such USI System is expected to connect many brains and computers in the universe to automatically store and exchange information and intelligence anywhere in the network ubiquitously. The technology of USI system will give rise to access to a wider field of consciousness by connecting and using the aggregate thinking powers of millions of humans at a time which increases the thinking power exponentially and supports the new world of innovation, design, and an abundance of wealth. This concept of Universal Super Intelligence (USI) the evolution of Super Human Beings (SHB) as shown in the diagrammatic idea (fig 9.4).
Nanocarbon Materials got Active Electronics and Bio-Nanotechnology
Similarly, a responsible and precise risk assessment of agrochemicals needs to be established not only at the organism or population level or in terms of dose-response effects, but also by studying toxicological issues at a cellular and intracellular level on organelles, biomolecules, and macromolecules. Furthermore, the integration of life cycle assessment (LCA) to risk assessment methodologies instead of simply combine their results could provide an estimation of ENMs human health impact within LCA and not as a separate tool for LCA, enabling the ruling out of other non-specific impacts [166]
Finally, full accessibility to scientific data and statistics will play a pivotal role in supporting stakeholders and policymakers in developing proper governance in every country.
WHY MOST OF THESE LINKS DONT WORK?
THEY KNEW THERE ARE RISKS, BUT THEY JUST WENT AHEAD AND THEY DO IT AS THERE OWN NATURAL SELECTION FOR FUTURE
THEY’RE HIDING IT FROM THE PUBLIC, JUST LIKE THEY’RE HIDING THE CONTENT OF THESE INJECTIONS AND OTHER „COUNTERMEASURES“!
The impact of rapid technological change on sustainable development Report of the Secretary-General4. This report does not expressly define “rapid technological change.” However, for the purposes of this report, the technologies associated with “rapid technological change” include (but are not limited to): big data; the Internet of things; machine learning; artificial intelligence; robotics; blockchain; three-dimensional printing; biotechnology; nanotechnology; virtual and augmented reality; renewable energy technologies; and satellite and drone technologies.50. Information and communications technology is now considered to be part of a country’s critical physical infrastructure, which, as an enabling technology, creates synergies with other key technologies such as biotechnology, nanotechnology and advanced manufacturing. Taking advantage of this potential requires investment in basic information and communications technology infrastructure, a reliable energy supply and telecommunication infrastructure, and regulation that ensures a competitive marketplace providing quality, affordability and accessibility.53 For example, in 2016, Chile launched a large-scale project that will spread fibre optic Internet across Chile.54 Peru is planning to develop a national fibre optic network more than 13,000 km long, connecting Lima with 22 regional capitals and 180 provincial capitals.55
First of all, I have a question: Can you remember having ever heard of one of the measures mentioned, which should already be implemented by 2030 under the guidelines for the sustainable development goals and authorization by unelected officials by the UN and WHO?
Secondly, how we are get here after the Nuremberg Code?
JULIMINATION 
Hinterlasse einen Kommentar