Category Analytics

In the course of our research for clients, we come across emerging technologies, new materials, new chemistries, growing markets, changing regulatory landscapes, innovative business models, and much more. Every other Friday, we pick five articles, videos, or podcasts that we found interesting and send them your way.

SEMICONDUCTORS | QUANTUM COMPUTING

Intel Can Now Produce Full Silicon Wafers of Quantum Computing Chips

Unlike previous quantum efforts at Intel, their latest is focusing on spin qubits instead of superconducting qubits. This secondary technology is still a few years behind superconducting quantum work but could turn out to be more easily scalable: Intel now has the capability to produce up to five silicon wafers every week containing up to 26-qubit quantum chips. The current technology being used for small scale production could eventually scale to beyond 1000 qubits. [TECHSPOT]

STRATEGY | ANALYTICS | ARTIFICIAL INTELLIGENCE

Ten Red Flags Signaling Your Analytics Program Will Fail

It’s the rare CEO who doesn’t know that their business must become analytics-driven, and many have been charging ahead with bold investments in analytics resources and AI, appointing chief analytics officers, chief data officers, or hiring all sorts of data specialists. But frustrations are beginning to surface: more boards and shareholders are pressing for answers about the scant returns on many early and expensive analytics programs. This long but comprehensive McKinsey article takes apart the various mistakes being made and suggests ways around them. [THINKGROWTH.ORG]

BIOLOGY | ASTROBIOLOGY

Mars Rover Finds Organics, Changing Methane Levels

NASA’s Curiosity rover has delivered some of its most intriguing results so far, with the discovery of organic molecules in three billion-year-old rock just beneath the surface of Mars. The pattern of small molecules detected was similar to what is seen when ancient organic matter from earth, known as kerogen, is analyzed by the same technique: crushing the rock, heating to 860°C, and then using mass spectrometry. [COSMOS]

NEUROSCIENCE | BOOK REVIEW | PODCASTS

How to Change Your Mind: The New Science of Psychedelics by Michael Pollan

How to Change Your Mind is Pollan’s sweeping and often thrilling chronicle of the history of psychedelics, their brief modern ascendancy and suppression, their renaissance and possible future, all interwoven with a self-deprecating travelogue of his own cautious but ultimately transformative adventures as a middle-aged psychedelic novice. Why should you care? Because recent studies have demonstrated the antibiotic-level effectiveness of psilocybin and other psychedelics at combatting treatment-resistant depression, addiction, and depression in the terminally ill. If you want to know more, below are several links to interesting interviews with Pollan and others who are conducting clinical trials of the treatment. [THE GUARDIAN]

Depression – The Psychedelic Cure? Rob Reid talks with Katya Malievskaia and George Goldsmith whose startup, Compass Pathways, will soon launch the largest triple-blind clinical trial ever of a psychedelic drug, psilocybin. Board members of the startup include a former head of the European Medicines Agency (the EU’s FDA) and the former Chief Medical Officer of Bristol Meyers Squibb; they’ve raised $20 million to manufacture a synthetic version of the drug and conduct the trials. [AFTER ON PODCAST]

Freedom from the Known. Neuroscientist Sam Harris discusses How to Change Your Mind with Michael Pollan. Good if you want to understand the science behind the growing confidence in psychedelics as a treatment for depression. [WAKING UP PODCAST]

MATERIALS SCIENCE | 3-D PRINTING

4-D Printing Using Light-Sensitive Ink

This article is intended for students, but it reveals a potentially important advance in multi-material printing, including laying down polymers and metals in the same layer. The new technology—still in a lab at Georgia Tech—can print 4D objects that respond to their environment, transforming in response to temperature changes, pH changes, or other factors. One of the key innovations is the use of precision light curing with epoxy composites that can allow the stiffest part of a printed object to be 600 time harder than its softest part. [SCIENCE NEWS FOR STUDENTS]

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