EMD Perfomance Group supplies the materials that are in tech items and other everyday products.
Once again this year, I was given the opportunity to visit the team from EMD Performance Materials Group at the 2020 Consumer Electronics Show in Las Vegas January 7-10. (Full disclosure, the trip and this post were sponsored by EMD Performance Materials Corp., a business of Merck KGaA, Darmstadt, Germany). I visited them last year as well, and I wrote about that HERE.
EMD Performance Materials Group are responsible for supplying specialty chemicals and high-tech business materials, so many of the tech items one can find at CES 2020 most likely contains some of their products.
The EMD Performance Group’s booth featured a barista so anyone could stop by for a variety of coffees. Photo by JM
This year, their booth was bigger and better and was housed in the Smart Cities portion of CES 2020. They had a barista and were providing free coffee and lattes (with an optional bit of ephemeral 3D printed foam with the team’s logo) for anyone who stopped by, chairs and tables for conversations and interviews, and a stage to hold four informative panels during the convention. All panels were moderated by Ashley Hamer and Cody Gough from the Curiosity Podcast.
Each of the four panels had representatives from various divisions of Merck KGaA, Darmstadt, Germany and special guests from other companies who are known experts in their fields and quite adept at explaining the respective technologies.
What follows is a brief preview of the panels. All panels were recorded, those recordings can be accessed HERE.
Panel 1
Advanced Digital Living—From Smart Cities to the Most Remote Places on Earth
#CES2020 EMD Performance Group Panel on Smart Cities. Photo by JM
#CES2020 EMD Performance Group panel on Smart Cities featured, from l to r:
Kai Beckmann, Member of the Executive Board & CEO Performance Materials, Merck KGaA, Darmstadt, Germany;
Gottfried Wastlbauer, Head of Global Marketing Display Solutions, Merck KGaA, Darmstadt, Germany and
Rory Moore, CEO & Co-Founder, EvoNexus
These experts defined what a future smart city would look like. A smart city is not just about energy efficient and smart buildings, but also includes intelligent traffic systems and methods for reducing CO2 emissions during transportation. A smart city is involved with the health of its inhabitants and smoothly monitoring and executing the automated systems that control the environment. All of this requires data and computing which requires semiconductors, and that’s where EMD Performance Materials and affiliates come in, providing the materials to make the concepts move forward.
Superconducting Quantum Computing, From Chips to Full Systems
#CES2020 EMD Performance Materials Group panel on Superconducting Quantum Computers
The #CES2020 EMD Performance Group panel on the future of Superconducting Quantum computing featured, from 1 to r:
Daniel Franke, Associate Performance Materials Fund, M Ventures;
John Levy, Founder & CEO, SeeCQ
John Langan, CTO Performance Materials, Merck KGaA, Darmstadt, Germany
EMD Performance Materials is partnering with SeeQC to develop the first superconductive digital quantum computing platform that is designed to be commercially scalable and power problem-specific quantum computing applications.
Quantum computing is a complex topic so I’d like to share a video recently produced to help everyone understand what it is, exactly, at a level everyone can understand.
Panel 3
The Future of Displays: Brighter, Sharper, More Flexible
#CES2020 EMD Performance Group panel on the Future of Displays
#CES2020 EMD Performance Group panel on the Future of Displays featuring from l to r:
Gottfried Wastlbauer, Head of Global Marketing Display Solutions, Merck KGaA, Darmstadt, Germany;
Seamus Blackley, Founder & CEO, Pacific Light & Hologram (Yes, the “Father of the X-box“)
Bob O’Brien, Co-Founder & President, DSCC (Display Supply Chain Consultations)
This was an interesting and lively panel about what technology can provide and also what consumers want in the future of displays. Much of the panel agreed that the limitations of holograms and more realistic displays are limited by video and film producers who may not see the investment in the further technology on their end to be worth it.
I found this interesting primer on displays from Tech Insider on LEDs, OLEDs and flexible screens, if you want to know more.
Panel 4
Opportunities for Neuromorphic Computing
To no one’s surprise, engineers are often looking to biology to create the most intuitive and interesting advances. The human brain is a marvel at problem solving and identifying patterns. Neuromorphic computing uses the brain as a model to create a 100-fold to 10,000-fold improvement in efficiency of computing, opening opportunities for more advanced AI.
#CES2020 EMD Performance Group panel on Neuromorphic Computing, The hosts of the panels, Cody Gough and Ashley Hamer from curiosity.com, are seen in the foreground.
The final panel on Neuromorphic Computing featured, from l to r:
John Langan, CTO Performance Materials, Merck KGaA, Darmstadt, Germany
Wei Lu, Professor of the University of Michigan and CEO & Co-Founder, MemryX
Owen Lozman, Head of Performance Materials Fund, M Ventures
While the panel gave a great explanation of what Neuromorphic Computing is during the panel, I will not do a summary justice, so instead, I provide this very clear explainer video on the topic.
I’m grateful for the opportunity to learn more from the esteemed experts during this event.
I was given a great opportunity to visit with the team from EMD Performance Materials Group at the 2019 Consumer Electronics Show in Las Vegas January 8-11. (Full disclosure: the trip and this post were sponsored by EMD Performance Materials Corp., a business of Merck KGaA, Darmstadt, Germany).
When I’d mention in conversations that I’d be working as an influencer for Merck, practically every response would be, “Oh, healthcare?” and I’d have to correct them because understanding who Merck KGaA, Darmstadt, Germany actually is can be quite complex. You see, Merck KGaA, Darmstadt, Germany, holds the rights to the name and the trademark “MERCK” internationally except for the United States and Canada, where they operate in the biopharma market as EMD Serono, in life science as MilliporeSigma, and in the specialty chemicals and high-tech materials business area as EMD Performance Materials.. Part of my task as an influencer with EMD Performance Materials at #CES2019 was to raise awareness of Merck KGaA, Darmstadt, Germany’s presence in the US.
Did you know that nearly every device near you has products from the @ EMDGroup, including LCD, OLEDs, semiconductors and pigments? Check out this image from #CES2109. Sponsored by EMD Performance Materials Corp., a business of Merck KGaA, Darmstadt, Germany #alwayscurious
In addition to these staple elements in every device created by companies around the world, the EMD Performance Materials Group has been innovating new products that they took the time to showcase in their colorful and attractive booth. One of these are liquid crystal windows that can adjust in order to attenuate light and heat coming through windows.
Video showing the liquid crystal window display at the EMD Performance Materials booth at #CES2019 ain Las Vegas January 8-11. The windows can be programmed to attenuate the light and heat coming through them. Many thanks to Becki Saltzman for filming this short video.
I had the opportunity to speak with Kai Beckmann, member of the Executive Board and CEO of the performance materials business of Merck KGaA, Darmstadt, Germany . I could have asked about the expansiveness of the products the company offered but instead decided to focus on the differences between being a scientist in academia versus in an industry like Merck KGaA, Darmstadt, Germany’s . He first emphasized that innovation within industry is often done in collaboration with universities and in multidisciplinary teams (which is the way science is moving these days in all fields). Additionally, a significant amount of R&D is driven and done in concert with their customers. Rather than force an idea upon a customer, they listen to their needs and work together. The company is a leader in the market of LEDs, OLEDs and LCDs, touch sensitive screens, and even pigments in your phone case, so it is clear their methods and products are trusted.
At #CES2019 I asked Merck CEO @KaiBeckmann CEO of the performance materials business of Merck, KGaA, Darmstadt, Germany about benefits for young scientists in business vs. academia. A big plus: more opportunities for career development & role changing. Sponsored by EMD Performance Materials Corp., a business of Merck KGaA, Darmstadt, Germany #alwayscurious
With the growing needs of machine learning and AI algorithms, semiconductor chips need to be faster, more powerful, and not use too much power. I knew that Merck KGaA, Darmstadt, Germany helped in the development of semiconductor materials and I was curious about the changes that would need to happen to create these high performance chips. I spoke with Adnan Nambier, Head of the KGaA, Darmstadt, Germany’s semiconductor solutions business about making semiconductors more powerful by using a modified technique in their assembly that simplifies the usual patterning steps by using Directed Self Assembly (DSA) of polymers to create smaller features on the chip. Done with consistent chemicals and processes, there is a higher fidelity in pattern replication, and can save money for the customer. (Check out this somewhat longish video if you want to learn more about the science behind DSA.)
I want to wrap up my experience at #CES2019 with EMD Performance Materials by telling you that they support STEM education so they are A-OK in my book! During #CES2019 they ran a social media campaign to encourage us all to join them in increasing their donation to The Franklin Institute a science museum and STEM education supporter, in Philadelphia to help the underserved children further their education and their love for science.
A reminder that @EMDGroup supports @TheFranklin & you can boost donations for #STEM education by stopping by at #CES2019 snapping a photo & sharing it as tagged below. Sponsored by EMD Performance Materials Corp., a business of Merck KGaA, Darmstadt, Germany #alwayscurious
Recently, I’ve been challenged to consider curiosity and its role in envisioning future technologies through exploring the #alwayscurious initiative at Merck KGaA, Darmstadt, Germany on their 350th anniversary. They’ve partnered with many scientists, artists, and thinkers to more fully explore and share ideas about curiosity.
I was delighted to come across a recent series of articles in The Harvard Business Review about the role of curiosity in business and why it is important. I found myself most drawn to the article, The Five Dimensions of Curiosity, by psychologist Todd B. Kashdan and his co-authors.
HBR cover September-October 2018 issue
The group that formulated the Five Dimensions of Curiosity did so by combining the work of science teams who look at various aspects of curiosity. The dimensions they formulated are described as follows:
Joyous Exploration -being consumed with wonder about the fascinating features of the world.
Deprivation Sensitivity -recognizing a gap in knowledge, the filling of which offers relief.
Stress Tolerance-a willingness to accept and even harness the anxiety associated with novelty.
Social Curiosity -talking, listening, and observing others to learn what they are thinking and doing.
Thrill Seeking -being willing to take physical, social, and financial risks to acquire varied, complex, and intense experiences.
The old version of the Joanne Love Science website sported a subtitle that read: “Always passionate, always curious, always enthusiastic about everything science”.
I suppose I’ve given very little thought into what being curious REALLY means, and learning about the five dimensions of curiosity helps dissect the idea of curiosity apart.
Given that my self-proclamation of “always curious” was a hallmark of my older website, I thought I would peruse a few older interviews I’d given that could provide snapshot of the role curiosity had in guiding me to science, and my hopes that my children would remain curious well past their childhoods. Through a few excerpts, I see evidence of a few of the dimensions in my answers.
This first interview hails from a few years back at F Equals.
Bardega: Joanne, tell us a little bit about your background ~ what were you like growing up? Manaster: I was quite shy but very curious. I did the usual things kids do, playing with friends outside, playing equally with dolls or cars with my siblings, and participating as a Girl Scout for many years. I loved to read all sorts of books and I particularly enjoyed when NOVA or National Geographic Specials would come on TV. My dad was in the Air Force and we moved around a bit. The most interesting place we lived was on Guam during my middle school and high school years. It was great to live in tropical weather all year long and have the privilege to enjoy the ocean habitat every day.
Bardega: You have had quite a varied career – from model to scientist. What sparked your interest in science and ultimately led you to the career path you took? Manaster: I’d always been interested in nature and the human body. My father was a hospital administrator and my mom had numerous health issues and I’m sure these things colored by desire to go to medical school to become a doctor. I also spent a lot of time exploring the “boonies” on Guam where my father was stationed with the Air Force, so I attribute that to my interest in nature and honing my observation skills that are necessary in science.
Looking at these two answers to the interviewer’s questions, it is clear that I have a bent toward the dimension of Joyous Exploration. What ultimately drove me to science was a sense of wonder about the world and the joy that discovery brings to me.
[This]… dimension… is joyous exploration—being consumed with wonder about the fascinating features of the world. This is a pleasurable state; people in it seem to possess a joie de vivre.
No wonder observational and exploratory science makes me happy!
Incredibly creative ideas can come forth thanks to curiosity. This of great help in science, but results can be seen in the art world as well. For instance, looking at the Merck KGaA, Darmstadt, Germany #alwayscurious initiative, I was most awed by the artistic collaboration with Mira Calix, an award winning composer based in the UK. In Ode to the Future, Mira creates music in collaboration with six unborn humans via the sounds created during ultrasounds. It’s so unique and creative and definitely worth checking out.
Returning to the five dimensions, Deprivation Sensitivity has been, and remains, another major impetus to finding answers to concepts I don’t know.
Deprivation Sensitivity -recognizing a gap in knowledge, the filling of which offers relief. This type of curiosity doesn’t necessarily feel good, but people who experience it work relentlessly to solve problems.
Continuing with the F Equals interview:
Bardega: You’re an extremely busy lady ~ how do you manage all the different hats you wear? Manaster:I began outreach after my four children were all a bit older, 8 years old and up at the time (They are now 24, 21, 19 and 16) (edit: they are now 27, 24, 22 and 19). It was still a busy time as a mom, but my kids were becoming more independent and that freed up quite a bit of my time. I don’t think I could have done what I do now at the time I had babies and toddlers! In fact, I’m pretty sure my time with so many young children truly increased my capacity to multitask, to block out distractions when necessary, and to keep a hold on the wonder of the natural world, especially because I wanted my children to remain curious!
I think when you enjoy what you do, it makes it easier to balance many different things. All the things I do: teaching, interacting on social media, reading books and interviewing science book authors, traveling, and spending time in my children’s company, I enjoy immensely, so I make time for it all.
I’d certainly consider my interest in my children and their well-being a form of social curiosity. Looking again at the HBR article:
Social Curiosity -talking, listening, and observing others to learn what they are thinking and doing. Human beings are inherently social animals, and the most effective and efficient way to determine whether someone is friend or foe is to gain information. Some may even snoop, eavesdrop, or gossip to do so.
It’s not such a stretch to consider that my interest in scientists doing their work, or of the people with whom I interact with on social media, could also be considered a form or social curiosity.
What advice can you give to science and engineering students?
If you are interested in science and engineering, I hope you will persevere even if others around say it is hard, and definitely banish any thoughts you may have acquired from teachers, your parents or peers such as, “Science is only for “smart” people, and that’s not me.” Granted, science and engineering require that you apply yourself, that you challenge yourself, but our brains and our very essence of being thrives on that challenge. A sense of accomplishment once you understand a new concept or learned a new skill is one of the most rewarding things you will ever encounter. It is quite motivating.
Begin to notice what interests you. Are you drawn to certain topics more than others? Take note of those and begin to explore those topics more in depth, and from many different angles. Read a book on the topic, watch a video or TV show, find articles, and even contact an expert in the field if you want to know more and would like hands-on experience. When you are sated with that topic, feel free to move on to another, and even see where your areas of fascination overlap!
Finally, read. Read a lot. Read the books you enjoy, but start to read books that are a little more difficult and require more concentration. Try a new topic. I strongly believe it is one key to becoming successful in science and engineering as well as other fields. Don’t let your intellect wither through lack of challenge of only watching TV or playing video games to the exclusion of all else. Stay curious and actively pursue the things that fascinate you and take your explorations further and deeper!
The advice I offer here indicates that what you are interested or fascinated in is also something you are curious about and it is easier to learn new things when you capitalize on that curiosity. The willingness to explore a new field, area, concept or space is called Stress Tolerance. Being in the state of not knowing can motivate one in curiosity.
Stress Tolerance-a willingness to accept and even harness the anxiety associated with novelty. People lacking this ability see information gaps, experience wonder, and are interested in others but are unlikely to step forward and explore.
I’ve covered four of the five dimensions. The only dimension I don’t feel a complete resonance with is Thrill Seeking. It may manifest in a mild form because I enjoy travel, however, I’m more likely to imagine our adventurers, explorers, and entrepreneurs in this category than I am myself.
Psychologist Todd B. Kashdan, who compiled the Five Dimensions of Curiosity, has pursued theses ideas with Merck KGaA, Darmstadt, Germany about the role of curiosity at work. From the HBR article:
With Merck KGaA we have explored attitudes toward and expressions of work-related curiosity. In a survey of 3,000 workers in China, Germany, and the United States, we found that 84% believe that curiosity catalyzes new ideas, 74% think it inspires unique, valuable talents, and 63% think it helps one get promoted. In other studies across diverse units and geographies, we have found evidence that four of the dimensions—joyous exploration, deprivation sensitivity, stress tolerance, and social curiosity—improve work outcomes. The latter two seem to be particularly important: Without the ability to tolerate stress, employees are less likely to seek challenges and resources and to voice dissent and are more likely to feel enervated and to disengage. And socially curious employees are better than others at resolving conflicts with colleagues, more likely to receive social support, and more effective at building connections, trust, and commitment on their teams. People or groups high in both dimensions are more innovative and creative.
In my job as a university level biology educator, I find myself interested in how curiosity helps students, and how it eventually can be of benefit to the work of a scientist. Curiosity makes for faster learners, leading to better job-related performance, and eases the process of adapting to new environments. Curiosity is all about learning what we do not yet know. I’m sure to most of the readers of this article, it is like preaching to the choir, but it’s clear that keeping your curiosity high seems to be a wise approach to leading an interesting life.
EMD Performance Materials Looks to the Future at #CES2020
Once again this year, I was given the opportunity to visit the team from EMD Performance Materials Group at the 2020 Consumer Electronics Show in Las Vegas January 7-10. (Full disclosure, the trip and this post were sponsored by EMD Performance Materials Corp., a business of Merck KGaA, Darmstadt, Germany). I visited them last year as well, and I wrote about that HERE.
EMD Performance Materials Group are responsible for supplying specialty chemicals and high-tech business materials, so many of the tech items one can find at CES 2020 most likely contains some of their products.
This year, their booth was bigger and better and was housed in the Smart Cities portion of CES 2020. They had a barista and were providing free coffee and lattes (with an optional bit of ephemeral 3D printed foam with the team’s logo) for anyone who stopped by, chairs and tables for conversations and interviews, and a stage to hold four informative panels during the convention. All panels were moderated by Ashley Hamer and Cody Gough from the Curiosity Podcast.
Each of the four panels had representatives from various divisions of Merck KGaA, Darmstadt, Germany and special guests from other companies who are known experts in their fields and quite adept at explaining the respective technologies.
What follows is a brief preview of the panels. All panels were recorded, those recordings can be accessed HERE.
Panel 1
Advanced Digital Living—From Smart Cities to the Most Remote Places on Earth
#CES2020 EMD Performance Group panel on Smart Cities featured, from l to r:
These experts defined what a future smart city would look like. A smart city is not just about energy efficient and smart buildings, but also includes intelligent traffic systems and methods for reducing CO2 emissions during transportation. A smart city is involved with the health of its inhabitants and smoothly monitoring and executing the automated systems that control the environment. All of this requires data and computing which requires semiconductors, and that’s where EMD Performance Materials and affiliates come in, providing the materials to make the concepts move forward.
I’m always on the lookout for good books on any topic, so I’d like mention a book I’ve been meaning to read about smart cities. The Smart Enough City: Putting Technology in its Place to Reclaim Our Urban Future by Ben Green
Panel 2
Superconducting Quantum Computing, From Chips to Full Systems
The #CES2020 EMD Performance Group panel on the future of Superconducting Quantum computing featured, from 1 to r:
EMD Performance Materials is partnering with SeeQC to develop the first superconductive digital quantum computing platform that is designed to be commercially scalable and power problem-specific quantum computing applications.
Quantum computing is a complex topic so I’d like to share a video recently produced to help everyone understand what it is, exactly, at a level everyone can understand.
Panel 3
The Future of Displays: Brighter, Sharper, More Flexible
#CES2020 EMD Performance Group panel on the Future of Displays featuring from l to r:
This was an interesting and lively panel about what technology can provide and also what consumers want in the future of displays. Much of the panel agreed that the limitations of holograms and more realistic displays are limited by video and film producers who may not see the investment in the further technology on their end to be worth it.
I found this interesting primer on displays from Tech Insider on LEDs, OLEDs and flexible screens, if you want to know more.
Panel 4
Opportunities for Neuromorphic Computing
To no one’s surprise, engineers are often looking to biology to create the most intuitive and interesting advances. The human brain is a marvel at problem solving and identifying patterns. Neuromorphic computing uses the brain as a model to create a 100-fold to 10,000-fold improvement in efficiency of computing, opening opportunities for more advanced AI.
The final panel on Neuromorphic Computing featured, from l to r:
While the panel gave a great explanation of what Neuromorphic Computing is during the panel, I will not do a summary justice, so instead, I provide this very clear explainer video on the topic.
I’m grateful for the opportunity to learn more from the esteemed experts during this event.
5 years ago curiosity, Energy, Engineering