Real Water Power that could be the game changer

[mondrasek]

Found this being covered by Marketwatch here:  http://www.marketwatch.com/story/this-breakthrough-in-blue-energy-could-change-the-world-2016-08-04

M.

[lancaIV]

Beside Carbon,Graphit,Graphene,CNT :  https://en.wikipedia.org/wiki/Molybdenum_disulfide

http://inhabitat.com/mit-developing-solar-energy-funnels-that-could-harvest-more-energy-from-sunlight/

MoS2 is a natural semiconductor and it has a special characteristic called bandgap that allows it to be converted into solar cells or integrated circuits. This characteristic, along with the solar funnel, gives this material the ability to respond to different colors of light in ways that silicon simply can't. Qian says that in silicon-based organic solar cells, "it's a diffusion process and it's very inefficient." But a solar funnel on MoS2 creates a focused "collection site [at the film's center], which should be more efficient for charge collection."

[lancaIV]

                         molybdaen-membran output credibility:

Charles Brown: 100.000.000.000 diodes per sqcm x 10000 = 1 sqm
             
https://worldwide.espacenet.com/publicationDetails/description?CC=US&NR=5356484A&KC=A&FT=D&ND=3&date=19941018&DB=EPODOC&locale=en_EP

                                             1 diode output :
By way of example, an input signal of 6 microwatts with a bandwidth of 1 gigahertz is applied to diode 20 either as thermal energy or electric energy, and thermal energy is applied to diode 10. A signal-to-noise ration of 60 dB is obtained for the input signal for a temperature Tc of the cold diode 20 of 300 DEG K. For a temperature Tr of hot electrons in diode 10 of 6000 DEG K., the amplification of the input signal is 26 dB, which gives an output signal of 2.4 milliwatts. The amplified output signal also has a 60 dB signal-to-noise ratio.

               100 billions x (     10000         x     2,4 mW             ) per sqm
                       diodes      sqm in sqcm      output per diode

                         ~ 2,40 trillion W per sqm (theoretical)
                             
                             240 million W per sqcm (theoretical)
                     
                                2,4 million W per sqmm , fingertip scale (theoretical)
-----------------------------------------------------------------------------------------------------------------------------
                                        reliable,2015 lab standart :
             http://www.csmantech.org/Digests/2015/abstracts/101R-0.15um%20GaN%20MMIC%20Manufacturing%20Technology%20for%202-50%20GHz%20Power%20Applications.pdf
                                                    3-8 W  level
----------------------------------------------------------------------------------------------------------------------------
this will become concentrated power converter level -20 000 suns and more ,
probably also with Fermidiods/Diads : estimation 2035 +

transistor ,diodes,holes,gates,dots and circuit velocity
industrial density numbers evolution
https://en.wikipedia.org/wiki/Transistor_count
Cell Broadband Engine: (2006) 9 cores per chip, 234 million transistors per chip.<sup>[63]

https://www.researchgate.net/publication
/2381153_Evaluation_of_Transistor_Densities_for_Submicronic_CMOS_Technologies</sup>

Analyze the trends in terms of transistor area and transistor count for the next generation ofintegrated circuits. For example, applying twice a shrinking factor 0.7 over the 0.18 µm process results in transistors with l=0.08 µm, with 1,000,000 transistors per square millimeter. Moreover,if it is possible to have an IC with 10 cm2, we will have a circuit with 1 billion transistors!

http://www.intel.com/content/dam/www/public/us/en/documents/pdf/foundry/mark-bohr-2014-idf-presentation.pdf
                                   1,3 billion transistors on 82 sqmm

[lancaIV]

                         molybdaen-membran output credibility:

Charles Brown: 100.000.000.000 diodes per sqcm x 10000 = 1 sqm
             
https://worldwide.espacenet.com/publicationDetails/description?CC=US&NR=5356484A&KC=A&FT=D&ND=3&date=19941018&DB=EPODOC&locale=en_EP

                                             1 diode output :
By way of example, an input signal of 6 microwatts with a bandwidth of 1 gigahertz is applied to diode 20 either as thermal energy or electric energy, and thermal energy is applied to diode 10. A signal-to-noise ration of 60 dB is obtained for the input signal for a temperature Tc of the cold diode 20 of 300 DEG K. For a temperature Tr of hot electrons in diode 10 of 6000 DEG K., the amplification of the input signal is 26 dB, which gives an output signal of 2.4 milliwatts. The amplified output signal also has a 60 dB signal-to-noise ratio.

               100 billions x (     10000         x     2,4 mW             ) per sqm
                       diodes      sqm in sqcm      output per diode

                         ~ 2,40 trillion W per sqm (theoretical)
                             
                             240 million W per sqcm (theoretical)
                     
                                2,4 million W per sqmm , fingertip scale (theoretical)
-----------------------------------------------------------------------------------------------------------------------------
                                        reliable,2015 lab standart :
             http://www.csmantech.org/Digests/2015/abstracts/101R-0.15um%20GaN%20MMIC%20Manufacturing%20Technology%20for%202-50%20GHz%20Power%20Applications.pdf
                                                    3-8 W  level
----------------------------------------------------------------------------------------------------------------------------
this will become concentrated power converter level -20 000 suns and more ,
probably also with Fermidiods/Diads : estimation 2035 +

transistor ,diodes,holes,gates,dots and circuit velocity
industrial density numbers evolution
https://en.wikipedia.org/wiki/Transistor_count
Cell Broadband Engine: (2006) 9 cores per chip, 234 million transistors per chip.<sup>[63]

https://www.researchgate.net/publication
/2381153_Evaluation_of_Transistor_Densities_for_Submicronic_CMOS_Technologies</sup>

Analyze the trends in terms of transistor area and transistor count for the next generation ofintegrated circuits. For example, applying twice a shrinking factor 0.7 over the 0.18 µm process results in transistors with l=0.08 µm, with 1,000,000 transistors per square millimeter. Moreover,if it is possible to have an IC with 10 cm2, we will have a circuit with 1 billion transistors!

http://www.intel.com/content/dam/www/public/us/en/documents/pdf/foundry/mark-bohr-2014-idf-presentation.pdf
                                   1,3 billion transistors on 82 sqmm

https://www.google.com/search?q=novasolix&rlz=1C1AVFC_enPT797PT797&oq=novasolix&aqs=chrome..69i57.5158j0j7&sourceid=chrome&ie=UTF-8




http://sustainableskies.org/sas-2019-larry-cooke-novasolix/


Because NovaSolix collectors place "roughly one million tiny radio receivers per square inch, they are able to retrieve frequencies "from low infrared through visible light and up into the ultraviolet."  Gathering the full spectrum enables conversion of weak light to small amounts of power.  A currently real 40-percent efficiency with a theoretical limit of 90 percent enables smaller, lighter panels to generate 400 Watts per square meter to 900 Watts per square meter.


The NovaSolix approach places roughly  one trillion tiny radio receivers (rectennas) per square inch.  Unlike PV cells, the NS cells are compatible with a wide range of frequencies from low infrared through visible light and up into the ultraviolet.




https://overunity.com/18471/29-april-2020-poste-criste/msg545792/#new  #26


Die Kombination aus Fritter, Klöppel, Telegrafenrelais und Morseschreiber ermöglichte in der Anfangszeit der Funktechnik, die damals sogenannten ,,drahtlosen Telegramme " automatisch aufzuzeichnen.


Let us google translate this sentence : The combination of fritter, clapper, telegraph relay and Morse recorder made it possible in the early days of radio technology to automatically record the so-called "wireless telegrams" at the time


This is the ancient "receiver" standart,macro !  " one trillion tiny radio receivers (rectennas) per square inch "


                                                             
                                                                      thousand,x 1000 =million,x 1000 = billion,x 1000 =trillion




https://patents.google.com/patent/EP2144298A2/en applyable


BTW:
https://worldwide.espacenet.com/publicationDetails/description?CC=US&NR=5356484A&KC=A&FT=D&ND=3&date=19941018&DB=EPODOC&locale=en_EP


                                                                      1 diode output by diode input

By way of example, an input signal of 6 microwatts with a bandwidth of 1 gigahertz is applied to diode 20 either as thermal energy or electric energy, and thermal energy is applied to diode 10. A signal-to-noise ration of 60 dB is obtained for the input signal for a temperature Tc of the cold diode 20 of 300 DEG K. For a temperature Tr of hot electrons in diode 10 of 6000 DEG K., the amplification of the input signal is 26 dB, which gives an output signal of 2.4 milliwatts. The amplified output signal also has a 60 dB signal-to-noise ratio.


                       2,4 milliwatts/6 mikrowatts = ?             2,4 milliwatts/0,006 milliwatts = ?           quantum mechanical heat pump C.O.P.




                                                                      1 diode = 1 nano heat pump or 1 nano receiver   also called "dots"


https://www.google.com/search?q=paintable+solar+dots&rlz=1C1AVFC_enPT797PT797&oq=paintable+solar+dots&aqs=chrome..69i57.10844j0j7&sourceid=chrome&ie=UTF-8