Posted by AGORACOM
at 5:33 PM on Friday, March 13th, 2020
VANCOUVER, BC / March 13, 2020 / Mota Ventures Corp. (CSE:MOTA)(FSE:1WZ1)(OTC:PEMTF) (the “Company“)
is excited to announce that for the month of February 2020, its First
Class CBD brand achieved sales of Cdn$2,981,000, with related expenses
for the same time period totaling Cdn$2,814,000. Due to accelerated
marketing efforts in late January 2020, the brand was able to improve
gross margins by 4.9% from January 2020 to February 2020. The Company
anticipates these efforts will yield a further positive impact on
revenue and margin in subsequent months. Sales for February 2019 were
Cdn$320,000; therefore, February 2020 represents an increase of 832%
over the same period last year.
First Class offers a CBD hemp-oil formulation intended to provide
users with the therapeutic benefits that hemp may offer. The hemp oil
used in the products is derived from hemp grown and cultivated in the
United States. The extraction process is designed to maintain all the
beneficial qualities that hemp may offer. First Class offers a range of
products, which include CBD oil drops, CBD gummies, CBD pain relief
cream, CBD skin serum and CBD coffee. The Company plans to continue
growth of First Class in the United States over the balance of 2020, as
well as an expansion into the European market.
“I am extremely pleased with the performance of the First Class brand
through the beginning months of 2020. The continued growth we are
experiencing is evidence of the strong consumer demand in the CBD
market. While eCommerce demand is generally weakest in January and
February, we continue to demonstrate our leadership through achieving
approximately Cdn$5,874,000 in revenue through the first two months of
the year,” stated Ryan Hoggan, CEO of the Company.
The Company cautions that figures for revenue, expenses and margin
generated from the sale of First Class CBD products have not been
audited, and are based on calculations prepared by management. Actual
results may differ from those reported in this release once these
figures have been audited. These figures were translated from US dollar
into Canadian dollar using the Bank of Canada monthly average exchange
rates of 1.3301 for January 2019, 1.3206 for February 2019, 1.3087 for
January 2020 and 1.3286 for February 2020.
About Mota Ventures Corp.
Mota Ventures is seeking to become a vertically integrated global CBD
brand. Its plan is to cultivate and extract CBD into high-quality value
added products from its Latin American operations and distribute it
both domestically and internationally. Mota has established distribution
networks through the acquisition of First Class CBD in the United
States and Sativida in Europe. Mota Ventures is also seeking to acquire
revenue producing CBD brands and operations in both Europe and North
America, with the goal of establishing an international distribution
network for CBD products. Low cost production, coupled with
international, direct to customer, sales channels will provide the
foundation for the success of Mota Ventures.
ON BEHALF OF THE BOARD OF DIRECTORS
MOTA VENTURES CORP.
Ryan Hoggan Chief Executive Officer
For further information, readers are encouraged to contact Joel Shacker, President at +604.423.4733 or by email at [email protected] or www.motaventuresco.com
Posted by AGORACOM
at 3:00 PM on Thursday, March 12th, 2020
SPONSOR: Mota is seeking to become a vertically integrated global CBD brand. Mota is looking to establish sales channels and a distribution network internationally through the acquisition of the Sativida and First Class CBD brands. Low cost production, coupled with international, direct to customer sales channels will provide the foundation for the success of Mota. Combined total sales of almost $29,000,000 with a EBITDA of approximately 12.5% (2019) . Click Here for More Info
These countries are expected to account for virtually all of the legal marijuana sold globally in five years
Marijuana is one of the fastest growing industries on the planet.
Legal weed sales have more than tripled between 2014 and 2018, and
they’re on track to roughly quadruple between the $10.9 billion
generated in licensed cannabis stores 2018 and the projected $40.6 billion in worldwide licensed store sales
by 2024. That’s according to the 2019 “State of the Legal Cannabis
Markets†report released earlier this year by Arcview Market Research
and BDS Analytics.
Yet, what you might find intriguing about this rapid growth is that
it’ll wind up being attributed to just a select few countries. Even
though more than three dozen countries around the world have legalized
medical marijuana, five countries are forecast by Arcview and BDS to
account for $38.2 billion of this aforementioned $40.6 billion in
licensed-store sales by 2024. Note, licensed-store sales doesn’t include
general retailers selling cannabidiol (CBD) products, or
cannabinoid-based drug developers selling pot-derived pharmaceuticals.
1. United States: $30.1 billion in cannabis spending by 2024
As should be no surprise, the U.S. projects as the leading marijuana
market in the world by sales in 2024. In fact, the $30.1 billion in
licensed-store revenue should comprise almost three-quarters of global
licensed sales. According to Arcview and BDS, $9 billion of these sales
are expected to come from the medical side of the equation, up from $4
billion in 2018, with the remaining $21.1 billion derived from
recreational marijuana, up from $5.9 billion last year.
The thing about the U.S. is that cannabis stocks can still thrive even if the federal government doesn’t change its classification of marijuana
from Schedule I. As long as Congress and the president continue to
respect the right of states to make their own choices on cannabis, the
industry could have plenty of runway.
One of the fastest early stage growers looks to be multistate dispensary operator Cresco Labs (OTC:CRLBF).
Cresco, which holds the licenses to more than four dozen retail
locations in 11 states, made a bold move in April when it announced an
all-stock deal to acquire Origin House (OTC:ORHOF).
Origin House is one of only a few companies to hold a cannabis
distribution license in California, the state responsible for a quarter
of all U.S. marijuana spending by 2024. Thus, Cresco Labs’ purchase of
Origin House will give it access to more than 500 Californian
dispensaries, and over 700 nationwide. Cresco and its vertically
integrated peers appear well-positioned to take advantage of this huge
growth opportunity.
2. Canada: $5.18 billion by 2024
Despite being the first industrialized country in the world
to legalize recreational weed, Canada looks to take a distant second to
the United States by 2024 in terms of sales. Arcview and BDS are
projecting that $4.8 billion in sales will come from the recreational
market by then, with the remainder made up of medical cannabis sales.
It’s not uncommon for the medical industry to get cannibalized when
adult-use marijuana is legalized, because it means patients no longer
have to wait for a doctor’s approval and prescription to buy weed.
There’s a lot of competition in Canada right now, so it’s still unclear which company will be Canada’s kingpin. However, Aurora Cannabis (NYSE:ACB) is a relatively good bet to be near the top of the pack solely based on its production potential.
Aurora is already leaps and bounds ahead of its next-closest
competitors with an annual run-rate output of 150,000 kilos as of the
end of March, and plans to be producing at least 625,000 kilos on a
run-rate basis by the end of June 2020. With most of this production
located in Canada, and the company sporting a number of large-scale grow
farms, Aurora Cannabis should be able to take advantage of economies of
scale to drive down its growing costs per gram.
Of course, the real near-term excitement revolves around the upcoming launch of derivative products
(e.g,, edibles, vapes, topicals, concentrates, and infused beverages)
by mid-December. Derivatives have much better margins and pricing power
than dried cannabis flower, which is why Aurora Cannabis and its peers
have been busy beefing up their product offerings over the past year in
preparation for this upcoming launch date.
3. Germany: $1.35 billion by 2024
Even though Arcview and BDS are not expecting Germany to legalize
recreational cannabis, the company’s highly permissive stance toward
medical marijuana, and the fact that health insurers cover medical weed
in the country, should allow sales to soar from $79 million in 2018 to
$1.35 billion by 2024.
Interestingly enough, Canadian cannabis stocks were actually big-time
winners of the German cultivation licensing process. Both Aurora
Cannabis and Aphria (NYSE:APHA) were awarded licenses to grow cannabis in Germany.
For its part, Aphria plans to have an 8,000-square-meter facility in
Germany that’ll begin supplying the country with medical marijuana in
the early part of 2020. In addition to growing cannabis, Aphria
introduced CannRelief in Germany, which is a CBD-based nutraceutical and
cosmetics product line.
As for Aurora Cannabis, its approval to construct a growing facility
will allow the company to supply the German market with 4,000 kilos of
marijuana over four years, with shipments expected to commence October
2020. Of course, this production capacity is liable to be bumped up if
patient demand merits it.
4. Mexico: $1.02 billion by 2024
Arguably one of the oddest “legality†situations concerning marijuana
right now is with Mexico. The nation’s Supreme Court has ruled five
times since 2015 that imposing a ban on recreational cannabis is
unconstitutional. That’s important, because when Mexico’s Supreme Court
reaches five similar decisions on an issue, it becomes the standard throughout the country.
Or, in layman’s terms, the Supreme Court has essentially affirmed the
legality of recreational marijuana and is simply waiting for lawmakers
in the country to hash out the details.
According to Arcview and BDS, Mexico will have legalized adult-use
cannabis by 2024, although the ramp-up of legal sales could be slow. By
2024, recreational weed sales are only expected total $582 million, with
an additional $441 million in medical spending, for a combined $1.02
billion. Mexico’s considerably larger population than Canada makes for
an attractive market opportunity, but it’s unclear how well legal
industries will fare with the noted presence of illicit producers.
One company that hasn’t been shy about its push into Mexico is Medical Marijuana, Inc. (OTC:MJNA), the very first publicly listed pot stock. Southern California-based Medical Marijuana was the first company to import CBD-rich oils
into Mexico in 2016, giving it a head start on building important
relationships with the country’s medical community. You’ll note that
even with recreational legalization likely on the horizon, medical
spending should continue to grow in Mexico. That gives Medical Marijuana
and its RSHO-X hemp oil a real shot to continue penetrating the
Mexico’s medical cannabis market.
5. United Kingdom: $546.9 million by 2024
Although it may not be on track to tip the scales at $1 billion in
sales by 2024, the U.K. is poised to be one of the fastest growing
countries in the world based on cannabis spending. After only $9.9
million in medical spending last year, Britain is forecast for almost
$547 million in medical marijuana revenue by 2024, representing a
compound annual growth rate of 95.2%.
This sudden push to legalize and normalize medical pot use in the U.K. can be partially attributed to the success of GW Pharmaceuticals (NASDAQ:GWPH), the cannabinoid-based drug developer that had the U.S. Food and Drug Administration approve the very first cannabis-derived drug last year.
GW Pharmaceuticals’ CBD-based oral solution known as Epidiolex dazzled
in late-stage studies and wound up reducing seizure frequency for
patients with two rare forms of childhood-onset epilepsy by 30% to 40%.
Additionally, GW Pharmaceuticals’ Sativex, an oromucosal spray
containing both CBD and tetrahydrocannabinol (THC), is approved in more
than a dozen markets in Europe (but not the U.S.).
Britain’s citizens and its government have seen what the U.K.-based
GW Pharmaceuticals can do with cannabinoids, and its government has been
open to the possibility of expanding access to marijuana-based products
for medical patients.
Sean Williams has no position in any of the stocks mentioned. The Motley Fool recommends Origin House. The Motley Fool has a disclosure policy.
Posted by AGORACOM
at 11:07 AM on Thursday, March 12th, 2020
SPONSOR: ZEN Graphene Solutions: An emerging advanced materials and graphene development company with a focus on new solutions using pure graphene and other two-dimensional materials. Our competitive advantage relies on the unique qualities of our multi-decade supply of precursor materials in the Albany Graphite Deposit. Independent labs in Japan, UK, Israel, USA and Canada confirm this. Click here for more information
The first demonstration of graphene double quantum dots in which it
is possible to control the number of electrons down to zero has been
reported in Nano Letters. Far from an abstract academic stunt,
the results could prove key to future implementations of quantum
computing based on graphene. “Having exact information and control over
the number of electrons in the dots is essential for spin based quantum
information technology,” says Luca Banszerus, a researcher at RWTH
Aachen University in Germany and the first author of the paper reporting
these results.
Although this level of control has been demonstrated in single quantum dots, this is the first demonstration in graphene double quantum dots,
which are particularly useful as spin qubits. “Using a double dot
heavily facilitates the readout of the electron’s spin state and the
implementation of quantum gates,” Banszerus adds.
Less edgy quantum dots
The idea of using graphene in quantum dots dates back almost as far
as the first reports of the material’s isolation in 2004. Graphene has
almost no spin-orbit interaction and very little hyperfine coupling,
which would suggest that spin lifetimes can be extremely high.
Unfortunately, quantum dots physically etched from larger graphene
flakes run into problems due to the disorder at the dot’s edges
disrupting the material’s behavior. As a result, the transport behavior
of these quantum dots is dominated by localized states at the edges.
“This leads to an unknown effective quantum dot size and an occupation
of typically many electrons,” says Banszerus.
Instead, Banszerus and colleagues at RWTH Aachen and the National Institute of Materials Science in Japan work with bilayer graphene,
which can be tuned to be a semiconductor. A voltage applied to specific
regions of a bilayer graphene flake can switch those regions to behave
as insulators, electrostatically defining a quantum dot that has no edge
states nearby.
The Aachen researchers strip single flakes of bilayer graphene from
graphite (mechanical exfoliation) and handle it using a dry pick-up
technique that hinges on van der Waals interactions. They encapsulate
the bilayer graphene in hexagonal boron nitride (hBN) crystal. They then
place the structure on a graphite flake, which acts as the bottom
electrode, and add chromium and gold split gates and finger gates
separated from the split gates by a 30-nm-thick layer of atomic layer
deposited Al2O3.
They were able to control the number of electrons on the quantum dots
by applying a voltage, which also affected the tunneling coupling
between the dots. As a result, once the total occupation of the two
quantum dots exceeds eight electrons, they begin to behave as one single
quantum dot, rather than a double quantum dot. Transport measurements
also revealed that the number of electrons loaded on the quantum dot
could be controlled down to zero electrons.
The idea of defining quantum dots in bilayer graphene
electrostatically in this way is not new. However, although different
groups have attempted this approach since 2010, the process required
recently discovered tricks of the trade, such as better encapsulation in
hBN and the use of graphite flakes as gates to get a clean band gap.
Banszerus says these developments came as quite a surprise and revived
interest in graphene quantum dots in 2018. He hopes the capabilities
they have now demonstrated will further spark activity in this field.
Coupling control
“Even though being able to control the number of charges in a
graphene double dot is a huge step forward, there are still many
problems to be solved on the road toward spin-based quantum information technology in graphene,” says Banszerus. Next, he hopes to tackle the problem of controlling the coupling between the quantum dots and the reservoir, which he hopes to achieve by adding an additional layer of interdigitated finger gates on top.
Posted by AGORACOM
at 12:08 PM on Tuesday, March 10th, 2020
SPONSOR: Mota is seeking to become a vertically integrated global CBD brand. Mota is looking to establish sales channels and a distribution network internationally through the acquisition of the Sativida and First Class CBD brands. Low cost production, coupled with international, direct to customer sales channels will provide the foundation for the success of Mota. Combined total sales of almost $29,000,000 with a EBITDA of approximately 12.5% (2019) . Click Here for More Info
Over
the next five years, the global CBD market is expected to accelerate to
$23.6bn, according to Grand View Research and Europe’s CBD market is
set to grow by 400%.
The growth of the CBD market in Europe is thanks to the growing adoption of CBD infused products in industries such as pharmaceuticals, personal care, cosmetics, nutraceuticals, along with medical applications.
CBD is seeing monumental demand in Europe. In Europe alone, the
market is on course to grow 400% over the next four years, according to
the Brightfield Group.
The legal cannabis industry continues to expand around the world with
major contribution to the market coming from continuous legislative
victories in North America and Europe. In particular, legalisation of
medical cannabis, and decriminalisation in some countries, has led to a
significant decrease in black-market activity, as people are shifting to
legally purchasing cannabis for medical as well as recreational use.
In the meantime, local governments reap the benefits through
taxation. For instance, the state of California had collected a total of
$345.2m in tax revenue from legal cannabis during the first year of
regulated sales in 2018. Revenue generated from these taxes encouraged
the local governments to fund several development programmes for
education and infrastructure.
Medical cannabis
Overall, data by Grand View Research
indicates that the medical segment held the dominant revenue share of
the cannabis market, accounting for 71.0% in 2019. Medical use of
cannabis is strictly categorised as a medicine prescribed by a physician
and the distribution of these medicines is regulated by the government.
However, by 2027, adult-use is expected to become the fastest-growing
segment with adult-use products ranging from a highly potent concentrate
to a simple food ingredient.
In recent years, CBD products have swiftly emerged and the growth of
the CBD market is largely attributed to various medical applications
that are associated with the products. For example, full-spectrum CBD
oil is considered to be a great source of Omega 3 and Omega 6; Omega 3
plays a vital role in creating hormones that regulate inflammation as
well as contractions and relaxation of arteries.
Posted by AGORACOM
at 3:47 PM on Thursday, March 5th, 2020
SPONSOR: Mota is seeking to become a vertically integrated global CBD brand. Mota is looking to establish sales channels and a distribution network internationally through the acquisition of the Sativida and First Class CBD brands. Low cost production, coupled with international, direct to customer sales channels will provide the foundation for the success of Mota. Click Here for More Info
New Frontier Data’s second consumer report in its EU CBD series
provides a comprehensive overview of the European CBD consumer
experience
New Frontier Data,
the global authority in data, analytics and business intelligence on
the cannabis industry, publishes the second volume of its EU CBD Consumer Report Series: Segmentation & Archetypes, in partnership with Deep Nature Project and Mile High Labs.
Drawing from the groundbreaking surveying of over 3,000 European CBD
consumers across 17 European nations, this study results in the most
comprehensive consumer archetype report for European CBD consumers to
date.
“Europe’s booming consumer interest in CBD and CBD-infused products
across the Food & Beverage and Health & Beauty sectors continues
to create material B2B and B2C market opportunities. Data-driven
insights of both EU and North American CBD consumerism, drawing from not
only comparative analysis but also known geo-centric market dynamics
and drivers, helps us educate and guide brands on how to address CBD
consumer priorities while managing known or expected challenges in this
new CBD space,†said New Frontier Data Founder & CEO Giadha Aguirre
de Carcer. “This report fills a major gap in business intelligence in
the CBD industry not only in Europe, but worldwide, providing new and
existing cannabis or hemp industry stakeholders with a uniquely valuable
and timely resource.â€
Key findings from the report include:
4 of the 5 consumer archetypes have purchased CBD; the Ambivalent & Experimental Consumers instead source CBD from family and friends
The largest consumer archetype, the Integrative & Consistent Consumers, are frequent users and staunch believers in CBD’s medical efficacy
26% of Europeans aged 18-34 have tried CBD, compared to 16% of the general population
73% of self-reported consumers claimed CBD has positively affected their quality of life
A third (34%) of non-consumers are somewhat or very curious about trying CBD
49% of CBD purchasers who did not themselves consume indicated buying it for a family member
Male consumers report spending more on CBD products than female
consumers, with more than a third of men (35%) reporting spending €100
or more per month
72% of consumers and 17% of non-consumers considered themselves likely to purchase CBD in the next 6 months
Consumers who use CBD primarily for medical reasons were the most
frequent CBD consumers, with nearly half (45%) consuming it at least
daily
New Frontier Data is an independent, technology-driven analytics
company specializing in the global cannabis industry. It offers vetted
data, actionable business intelligence and risk management solutions for
investors, operators, researchers and policy makers. New Frontier
Data’s reports and data have been cited in over 80 countries around the
world to inform industry leaders. Founded in 2014, New Frontier Data is
headquartered in Washington, D.C., with additional offices in Denver, CO
and London, UK.
New Frontier Data does not take a position on the merits of cannabis
legalization. Rather, its mission and mandate are to inform
cannabis-related policy and business decisions through rigorous,
issue-neutral and comprehensive analysis of the legal cannabis industry
worldwide. For more information about New Frontier Data, please visit: https://www.NewFrontierData.com.
Posted by AGORACOM
at 12:09 PM on Thursday, March 5th, 2020
SPONSOR: ZEN Graphene Solutions: An emerging advanced materials and graphene development company with a focus on new solutions using pure graphene and other two-dimensional materials. Our competitive advantage relies on the unique qualities of our multi-decade supply of precursor materials in the Albany Graphite Deposit. Independent labs in Japan, UK, Israel, USA and Canada confirm this. Click here for more information
An optical image of the graphene device (shown above as a square gold pad) on a silicon dioxide/silicon chip. Shining metal wires are connected to gold electrodes for electrical measurement. The tiny graphene device has a length and width of just one-tenth of a millimeter. (Credit: Guorui Chen/Berkeley Lab)
Berkeley Lab scientists tap into graphene’s hidden talent as an electrically tunable superconductor, insulator, and magnetic device for the advancement of quantum information science
Ever since graphene’s discovery
in 2004, scientists have looked for ways to put this talented,
atomically thin 2D material to work. Thinner than a single strand of DNA
yet 200 times stronger than steel, graphene is an excellent conductor
of electricity and heat, and it can conform to any number of shapes,
from an ultrathin 2D sheet, to an electronic circuit.
Last year, a team of researchers led by Feng Wang, a faculty scientist in Berkeley Lab’s Materials Sciences Division and a professor of physics at UC Berkeley, developed a multitasking graphene device
that switches from a superconductor that efficiently conducts
electricity, to an insulator that resists the flow of electric current,
and back again to a superconductor.
Now, as reported in Nature today,
the researchers have tapped into their graphene system’s talent for
juggling not just two properties, but three: superconducting,
insulating, and a type of magnetism called ferromagnetism. The
multitasking device could make possible new physics experiments, such as
research in the pursuit of an electric circuit for faster,
next-generation electronics like quantum computing technologies.
Optical image of a trilayer graphene material sandwiched between
boron nitride layers during the nanofabrication process (left); and the
trilayer graphene/boron nitride device with gold electrodes (right).
(Credit: Guorui Chen/Berkeley Lab)
“So far, materials simultaneously showing superconducting,
insulating, and magnetic properties have been very rare. And most people
believed that it would be difficult to induce magnetism in graphene,
because it’s typically not magnetic. Our graphene system is the first to
combine all three properties in a single sample,†said Guorui Chen, a
postdoctoral researcher in Wang’s Ultrafast Nano-Optics Group at UC
Berkeley, and the study’s lead author.
Using electricity to turn on graphene’s hidden potential
Graphene has a lot of potential in the world of electronics. Its
atomically thin structure, combined with its robust electronic and
thermal conductivity, “could offer a unique advantage in the development
of next-generation electronics and memory storage devices,†said Chen,
who also worked as a postdoctoral researcher in Berkeley Lab’s Materials
Sciences Division at the time of the study.
The problem is that the magnetic materials used in electronics today
are made of ferromagnetic metals, such as iron or cobalt alloys.
Ferromagnetic materials, like the common bar magnet, have a north and a
south pole. When ferromagnetic materials are used to store data on a
computer’s hard disk, these poles point either up or down, representing
zeros and ones – called bits.
Graphene, however, is not made of a magnetic metal – it’s made of carbon.
So the scientists came up with a creative workaround.
By applying electrical voltages through the graphene device’s gates,
the force from the electricity prodded electrons in the device to circle
in the same direction, like tiny cars racing around a track. This
generated a forceful momentum that transformed the graphene device into a
ferromagnetic system.
More measurements revealed an astonishing new set of properties: The
graphene system’s interior had not only become magnetic but also
insulating; and despite the magnetism, its outer edges morphed into
channels of electronic current that move without resistance. Such
properties characterize a rare class of insulators known as Chern
insulators, the researchers said.
Even more surprising, calculations by co-author Ya-Hui Zhang of the
Massachusetts Institute of Technology revealed that the graphene device
has not just one, but two conductive edges, making it the first observed
“high-order Chern insulator,†a consequence of the strong
electron-electron interactions in the trilayer graphene.
Scientists have been in hot pursuit of Chern insulators in a field of
research known as topology, which investigates exotic states of matter.
Chern insulators offer potential new ways to manipulate information in a
quantum computer, where data is stored in quantum bits, or qubits. A
qubit can represent a one, a zero, or a state in which it is both a one
and a zero at the same time.
“Our discovery demonstrates that graphene is an ideal platform for
studying different physics, ranging from single-particle physics, to
superconductivity, and now topological physics to study quantum phases
of matter in 2D materials,†Chen said. “It’s exciting that we can now
explore new physics in a tiny device just 1 millionth of a millimeter
thick.â€
The researchers hope to conduct more experiments with their graphene
device to have a better understanding of how the Chern insulator/magnet
emerged, and the mechanics behind its unusual properties.
Researchers from Berkeley Lab; UC Berkeley; Stanford University; SLAC
National Accelerator Laboratory; Massachusetts Institute of Technology;
China’s Shanghai Jiao Tong University, Collaborative Innovation Center
of Advanced Microstructures, and Fudan University; and Japan’s National
Institute for Materials Science participated in the work.
Founded in 1931 on the belief that the biggest scientific challenges are best addressed by teams, Lawrence Berkeley National Laboratory
and its scientists have been recognized with 13 Nobel Prizes. Today,
Berkeley Lab researchers develop sustainable energy and environmental
solutions, create useful new materials, advance the frontiers of
computing, and probe the mysteries of life, matter, and the universe.
Scientists from around the world rely on the Lab’s facilities for their
own discovery science. Berkeley Lab is a multiprogram national
laboratory, managed by the University of California for the U.S.
Department of Energy’s Office of Science.
DOE’s Office of Science is the single largest supporter of basic
research in the physical sciences in the United States, and is working
to address some of the most pressing challenges of our time. For more
information, please visit energy.gov/science.
Posted by AGORACOM
at 9:53 AM on Monday, March 2nd, 2020
ZEN Graphene Solutions Ltd. (TSXV: ZEN) “ZEN” or the “Company“) is pleased to announce the launch of Albany Pure TM graphene products on their website at https://shop.zengraphene.com/.
The Company is planning to expand its product line to bring Graphene
Quantum Dots, Graphene Oxide, Reduced Graphene Oxide, and other
graphene-based products to the market.
The
Company is ramping up its new lab facility in Guelph, Ontario and is
working towards larger-scale graphene production. The graphene precursor
material is sourced from the unique, igneous-hosted Albany Graphite
Deposit in Northern Ontario. As part of the company’s business
development plan, ZEN is actively working with several industries to
functionalize and test its graphene products in their applications with
the potential for subsequent industry partnerships and agreements.
About ZEN Graphene Solutions Ltd.
ZEN
is an emerging graphene technology solutions company with a focus on
the development of graphene-based nanomaterial products and
applications. The unique Albany Graphite Project provides the company
with a potential competitive advantage in the graphene market as
independent labs in Japan, UK, Israel, USA and Canada have independently
demonstrated that ZEN’s Albany PureTM Graphite is an ideal precursor
material which easily converts (exfoliates) to graphene, using a variety
of mechanical, chemical and electrochemical methods.
Posted by AGORACOM
at 11:01 AM on Tuesday, February 25th, 2020
SPONSOR: ZEN Graphene Solutions: An emerging advanced materials and graphene development company with a focus on new solutions using pure graphene and other two-dimensional materials. Our competitive advantage relies on the unique qualities of our multi-decade supply of precursor materials in the Albany Graphite Deposit. Independent labs in Japan, UK, Israel, USA and Canada confirm this. Click here for more information
Researchers proposed a new design of the supercapacitor, which uses
films of graphene laminate with the same distance between the layers.
Energy density increases drastically — about 10 times compared to conventional supercapacitors.
Scientists from University College London and the Chinese Academy of Sciences have proposed a graphene-based design for supercapacitors, which reportedly increased their density by 10 times.
Supercapacitors charge quickly but also discharge at a high speed.
Existing supercapacitors tend to have a low energy density – about 1/20
of the battery capacity. Batteries
combined with supercapacitors are already in limited use – for example,
in Chinese public transport. But the bus in which such a battery is
installed is forced to charge at almost every stop.
In this work, the researchers proposed a new design of the
supercapacitor, which uses films of graphene laminate with the same
distance between the layers.
The work showed that when the pores in the membranes exactly
correspond to the size of the electrolyte ions, the energy density
increases drastically — about 10 times compared to conventional
supercapacitors.
In addition, the scientists note, the new material has a long service
life, retaining 97.8% of its energy intensity after 5000 cycles of
charging and discharging. The new supercapacitors are also very flexible
– they can be bent up to 180 degrees.
Posted by AGORACOM
at 11:37 AM on Thursday, February 20th, 2020
SPONSOR: ZEN Graphene Solutions: An emerging advanced materials and graphene development company with a focus on new solutions using pure graphene and other two-dimensional materials. Our competitive advantage relies on the unique qualities of our multi-decade supply of precursor materials in the Albany Graphite Deposit. Independent labs in Japan, UK, Israel, USA and Canada confirm this. Click here for more information
Scientists at Rice University have made laser-induced graphene using a low-power laser mounted in a scanning electron microscope.
The team at Rice University,
in conjunction with Philip Rack, a Tennessee/ORNL materials scientist,
have pioneered a process to create laser-induced graphene (LIG). LIG has
features that are 60% smaller than the macro version of the material
and almost 10 times smaller than what can be typically achieved using an
infrared laser.
The LIG Process
LIG is a multifunctional graphene foam that is direct-written with an
infrared laser into a carbon-based precursor material. In the Rice
team’s research, this was achieved using a visible 405 nm laser that
directly converts polyimide into LIG, enabling the formation of LIG with
a spatial resolution of 12 µm and a thickness of < 5 µm. This
spatial resolution, enabled by the smaller-focused spot size of the 405
nm laser, represents a 60% reduction in previously reported LIG feature
sizes.
These smaller 405 nm lasers use light in the blue-violet part of the
spectrum. They are much less powerful than the industrial lasers that
are currently being used to burn graphene into materials.
“A key for electronics applications is to make smaller structures
so that one could have a higher density, or more devices per unit
area,†James Tour of Rice University said in a statement. “This method allows us to make structures that are 10 times denser than we formerly made.â€
A scanning electron microscope shows two tracers of LIG on a polyimide film. Image used courtesy of James Tour of Rice University
A New Path Toward Writing Electronic Circuits
To prove the viability of their concept, the researchers made tiny
flexible humidity sensors directly fabricated on polyimide. These
devices were then able to sense human breath in 250 milliseconds.
“This is much faster than the sampling rate for most commercial
humidity sensors and enables the monitoring of rapid local humidity
changes that can be caused by breathing,†said Rice postdoctoral researcher Michael Stanford, lead author of the research team’s paper.
The 405 nm laser is mounted on a scanning electron microscope (SEM)
and burns the top five microns of the polymer. This writes graphene
features as small as 12 microns.
The Rice team believes that this new LIG process could offer a new
path toward writing electronic circuits into flexible materials such as
clothing.
“The LIG process will allow graphene to be directly synthesized for precise electronics applications on surfaces,†added Stanford. With growing interest in the LIG process for use in flexible electronics and sensors, further refinement of this process will expand its utility and potentially see it being used in a range of flexible electronics across all industries.
