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Showing posts with label Batteries. Show all posts
Showing posts with label Batteries. Show all posts

Friday, February 15, 2019

Battery Tests: Hemp vs Lithium

It's no surprise to MOhemp Energy-  Hemp Battery performed better than Litium (31 to 4) in this battery test by Robert Murray-Smith.

Original Article: Cannabis Tech

hemp cell 31 vs lithium cell 4
An experiment was conducted to perform a comparison check on the performance of hemp batteries and lithium batteries. The hemp battery and the lithium battery was connected in the circuit at separate times and three curves were monitored – one the Amps curve, the second being the Volts curve and the third one being the Volts by Amps curve with the sampling record set to be once every second for a total of ½ hour. The test was conducted by stressing both – the hemp as well as the lithium cells in the same equipment to the same degrees.
Hemp Battery out produces Lithium Battery
The Observation
When the Volts by Amps curve was observed for both the cells it was found that the power underneath the hemp cell was a value of 31 while that of the lithium cell had a value of just 4.
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FYI the MOhemp Hemp Farming Inventions Scott's Contracting is working on and seeking Partners, Investors, and Farmers interested in exploring the benefits lignin will have feel free to email or contact Scotty. 
The Hemp Farming Invention Removes the Valuable Lignin from the stalk of the Hemp Plant.



Friday, January 29, 2016

Hemp Lignin and Future Energy Storage Devices that Self Heal

Abstract: Superior self-healability and stretchability

 are critical elements for the practical wide-scale adoption of personalized electronics such as portable and wearable energy storage devices. However, the low healing efficiency of self-healable supercapacitors and the small strain of stretchable supercapacitors are fundamentally limited by conventional polyvinyl alcohol-based acidic electrolytes, which are intrinsically neither self-healable nor highly stretchable.

Self-healing performance of the supercapacitor comprising the VSNPs-PAA polyelectrolyte.
Self-healing performance of the supercapacitor comprising the VSNPs-PAA polyelectrolyte.

Here we report

 an electrolyte comprising polyacrylic acid dual crosslinked by hydrogen bonding and vinyl hybrid silica nanoparticles, which displays all superior functions and provides a solution to the intrinsic self-healability and high stretchability problems of a supercapacitor. 
Supercapacitors with this electrolyte are non-autonomic self-healable, retaining the capacitance completely even after 20 cycles of breaking/healing. 
These supercapacitors are stretched up to 600% strain with enhanced performance using a designed facile electrode fabrication procedure.






Tuesday, September 8, 2015

Interconnected Carbon Nanosheets Derived from Hemp for Ultrafast Supercapacitors with High Energy



This is where I'm headed with the MOhemp Energy inventions: Hemp Batteries, Supercapacitors, Hemp Lignin, Energy Storage, etc

Abstract copied from: http://pubs.acs.org/doi/ipdf/10.1021/nn400731g

Abstract Image
We created unique interconnected partially graphitic carbon nanosheets (10–30 nm in thickness) with high specific surface area (up to 2287 m2 g–1), significant volume fraction of mesoporosity (up to 58%), and good electrical conductivity (211–226 S m–1) from hemp bast fiber. The nanosheets are ideally suited for low (down to 0 °C) through high (100 °C) temperature ionic-liquid-based supercapacitor applications: At 0 °C and a current density of 10 A g–1, the electrode maintains a remarkable capacitance of 106 F g–1. At 20, 60, and 100 °C and an extreme current density of 100 A g–1, there is excellent capacitance retention (72–92%) with the specific capacitances being 113, 144, and 142 F g–1, respectively. These characteristics favorably place the materials on a Ragone chart providing among the best power–energy characteristics (on an active mass normalized basis) ever reported for an electrochemical capacitor: At a very high power density of 20 kW kg–1 and 20, 60, and 100 °C, the energy densities are 19, 34, and 40 Wh kg–1, respectively. Moreover the assembled supercapacitor device yields a maximum energy density of 12 Wh kg–1, which is higher than that of commercially available supercapacitors. By taking advantage of the complex multilayered structure of a hemp bast fiber precursor, such exquisite carbons were able to be achieved by simple hydrothermal carbonization combined with activation. This novel precursor-synthesis route presents a great potential for facile large-scale production of high-performance carbons for a variety of diverse applications including energy storage.



Huanlei WangZhanwei XuAlireza KohandehghanZhi Li*Kai Cui,Xuehai TanTyler James StephensonCecil K. King’onduChris M. B. HoltBrian C. OlsenJin Kwon Tak§Don Harfield§Anthony O. Anyia§, andDavid Mitlin*

 Chemical and Materials Engineering, University of Alberta, Edmonton, Alberta T6G 2 V4, Canada
 National Institute for Nanotechnology (NINT), National Research Council of Canada, Edmonton, Alberta T6G 2M9, Canada
§ Bioresource Technologies, Alberta Innovates-Technology Futures, Vegreville, Alberta, T9C 1T4, Canada
ACS Nano20137 (6), pp 5131–5141
DOI: 10.1021/nn400731g
Publication Date (Web): May 7, 2013
Copyright © 2013 American Chemical Society
*Address correspondence to lizhicn@gmail.comdmitlin@ualberta.ca.

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