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Archive for the ‘sustainability’ category: Page 419

Sep 23, 2020

Tesla’s Elon Musk said a $25,000 electric car with next-gen battery in the works

Posted by in categories: Elon Musk, sustainability, transportation

This could make electric cars as affordable as combustion engine vehicles.


Tesla says it can dramatically reduce the price for electric cars. Tesla CEO Elon Musk made the announcement during the company’s “Battery Day” for investors.

Continue reading “Tesla’s Elon Musk said a $25,000 electric car with next-gen battery in the works” »

Sep 22, 2020

BYD Enters The Finnish EV Bus Market Starting With Over 100 Buses

Posted by in categories: sustainability, transportation

BYD has announced a huge success in Finland, where it won the country’s largest order for electric buses, a total of 106 vehicles.

The order was placed by BYD’s recurring Scandinavian customer — Nobina — which purchased:

Sep 22, 2020

Elon Musk Updates Tesla Giga Texas Plan: “Internal Semi Truck Roads Inside A Giant Monolithic Building”

Posted by in categories: Elon Musk, sustainability, transportation

Featured image: @Carroll__Burns/Twitter

At the Q2 2020 Earnings Call, Tesla CEO Elon Musk announced the location of the new factory. The Gigafactory for the production of the Semi, Cybertruck, Model Y, and Model 3 will be built in Austin, Texas and will be Tesla’s largest factory yet.

Continue reading “Elon Musk Updates Tesla Giga Texas Plan: ‘Internal Semi Truck Roads Inside A Giant Monolithic Building’” »

Sep 21, 2020

Carbon nanotubes developed for super efficient desalination

Posted by in categories: nanotechnology, sustainability

Membrane separations have become critical to human existence, with no better example than water purification. As water scarcity becomes more common and communities start running out of cheap available water, they need to supplement their supplies with desalinated water from seawater and brackish water sources.

Lawrence Livermore National Laboratory (LLNL) researchers have created (CNT) pores that are so efficient at removing salt from water that they are comparable to commercial desalination membranes. These tiny pores are just 0.8 nanometers (nm) in diameter. In comparison, a human hair is 60,000 nm across. The research appears on the cover of the Sept. 18 issue of the journal Science Advances.

The dominant technology for removing salt from water, , uses thin-film composite (TFC) membranes to separate water from the ions present in saline feed streams. However, some fundamental performance issues remain. For example, TFC membranes are constrained by the permeability-selectivity trade-offs and often have insufficient rejection of some ions and trace micropollutants, requiring additional purification stages that increase the energy and cost.

Sep 21, 2020

Water purifier sucks salt out of water like a mangrove tree

Posted by in category: sustainability

A new device that takes salt out of water gets its inspiration from the subtropical mangrove tree.


The device up close. (Credit: Yale)

In addition to offering a better understanding of plants’ plumbing systems, it could lead to new desalination technologies, the researchers say.

Sep 21, 2020

New graphene battery can be charged in just 15 seconds!

Posted by in categories: sustainability, transportation

A new type of battery has been developed that could revolutionise electric vehicle use with a recharge time of just 15 seconds.

Sep 21, 2020

If you like electric cars, or motorcycles (or both!), stop what you’re doing and watch Long Way Up

Posted by in categories: sustainability, transportation

Just in case you haven’t heard, Long Way Up is the third installment in Ewan McGregor’s and Charlie Boorman’s trilogy of long-distance motorcycle adventure rides.

What makes this one so special, though, is that the duo set out on a pair of Harley-Davidson LiveWire electric motorcycles, attempting to cover 15,000 miles (25,000 km) of incredibly remote terrain from the southern tip of Argentina all the way to Los Angeles.

[Author’s Note: There are no major spoilers here; you’re safe to keep reading.].

Sep 19, 2020

The End of Hunger Part 1: Vertical Farming

Posted by in categories: business, food, sustainability

World hunger is a persistent problem despite all of humanity’s progress in recent years. However, I believe that we have a real shot at defeating world hunger with one of humanity’s newer innovations: vertical farms.

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Sep 18, 2020

Scientists Advance on One of Technology’s Holy Grails

Posted by in categories: biotech/medical, chemistry, nanotechnology, sustainability

CIEQSFTTLFACQTAAEIWRAFGYTVKIMVDNGNCRLHVC: these forty letters are a set of instructions for building a sophisticated medical device designed to recognize the flu virus in your body. The device latches onto the virus and deactivates the part of it that breaks into your cells. It is impossibly tiny—smaller than the virus on which it operates—and it can be manufactured, in tremendous quantities, by your own cells. It’s a protein.

Proteins—molecular machines capable of building, transforming, and interacting with other molecules—do most of the work of life. Antibodies, which defend our cells against invaders, are proteins. So are hormones, which deliver messages within us; enzymes, which carry out the chemical reactions we need to generate energy; and the myosin in our muscles, which contract when we move. A protein is a large molecule built from smaller molecules called amino acids. Our bodies use twenty amino acids to create proteins; our cells chain them together, following instructions in our DNA. (Each letter in a protein’s formula represents an amino acid: the first two in the flu-targeting protein above are cysteine and isoleucine.) After they’re assembled, these long chains crumple up into what often look like random globs. But the seeming chaos in their collapse is actually highly choreographed. Identical strings of amino acids almost always “fold” into identical three-dimensional shapes. This reliability allows each cell to create, on demand, its own suite of purpose-built biological tools. “Proteins are the most sophisticated molecules in the known universe,” Neil King, a biochemist at the University of Washington’s Institute for Protein Design (I.P.D.), told me. In their efficiency, refinement, and subtlety, they surpass pretty much anything that human beings can build.

Today, biochemists engineer proteins to fight infections, produce biofuels, and improve food stability. Usually, they tweak formulas that nature has already discovered, often by evolving new versions of naturally occurring proteins in their labs. But “de novo” protein design—design from scratch—has been “the holy grail of protein science for many decades,” Sarel Fleishman, a biochemist at the Weizmann Institute of Science, in Israel, told me. Designer proteins could help us cure diseases; build new kinds of materials and electronics; clean up the environment; create and transform life itself. In 2018, Frances Arnold, a chemical engineer at the California Institute of Technology, shared the Nobel Prize in Chemistry for her work on protein design. In April, when the coronavirus pandemic was peaking on the coasts, we spoke over video chat. Arnold, framed by palm trees, sat outside her home, in sunny Southern California. I asked how she thought about the potential of protein design. “Well, I think you just have to look at the world behind me, right?” she said. “Nature, for billions of years, has figured out how to extract resources from the environment—sunlight, carbon dioxide—and convert those into remarkable, living, functioning machines. That’s what we want to do—and do it sustainably, right? Do it in a way that life can go on.”

Sep 18, 2020

Tesla battery day will be ‘potentially narrative changing,’ says Morgan Stanley

Posted by in category: sustainability

Tesla’s widely-anticipated battery day is on Tuesday.