A visit to Walmart. An getting old German shepherd. An affordable disposable digital camera.
These are only a few of the seemingly mundane issues which have sparked the relentlessly imaginative thoughts of Kurt Schroder ’90, resulting in a few of his groundbreaking innovations.
“I simply can’t cease doing it,” he says, with a chuckle and a tiny hint of southern Indiana twang. “I invent on a regular basis. It doesn’t matter what it’s. I’m at all times doing experiments.”
Schroder grew up on a farm however at all times knew his future wasn’t in agriculture. Along with his coronary heart set on finding out physics, he utilized solely to MIT—ignorant, he says, of simply how academically rigorous it might be. As soon as enrolled, he watched as his “tremendous genius” classmates appeared to sail by means of their lessons, whereas he labored more durable than they did however earned solely Bs.
Every part modified when he made his approach by means of the infamous gauntlet of Course 8 Junior Lab, thought-about some of the demanding two-term lab lessons on the Institute. Whereas tinkering throughout that superior experimental physics class, he discovered his path.
“It eliminates lots of people, however for some purpose it was the best class for me,” he remembers now. “I might not solely repair the machines and get them working however really get higher measurements than different individuals did, and found out methods to make use of the tools to do issues that nobody had seen.”
However in his common lessons, he nonetheless felt he was treading water. “I noticed that, okay, I nonetheless wished to be a physicist, however perhaps a barely totally different type of physicist,” he says.
For instance, the type of physicist who manages to enhance the on a regular basis hammer—a instrument so ubiquitous and brought with no consideration that it hadn’t been reconceived in a whole bunch, perhaps hundreds, of years till Schroder got here alongside. Or the type who would save an previous canine utilizing nanoparticles of silver. Or one who would use a $7 digital camera to brainstorm his option to a brand new thermal processing method that has revolutionized the mass manufacturing of digital circuits.
After MIT, Schroder spent two years designing weapons for the US Navy earlier than enrolling in a doctoral program in plasma physics on the College of Texas at Austin. As he was approaching his ultimate yr, he and his spouse, Lisa, went to Walmart at some point to run an errand. “Like a stereotypical man, I walked into the instrument part and I began wanting on the hammers,” Schroder recollects. “I noticed all of the hammers had been designed incorrectly. It turned virtually an obsession for me.”
“I turned enamored with the truth that I might work on one thing that everyone had the chance to repair and didn’t.”
What Schroder picked up on wasn’t the design of the instruments, precisely, however the truth that the producers had been successfully broadcasting a flaw. “The labels of all of the hammers mentioned ‘We now have a shock-discount grip’ or a ‘vibration-reducing grip’ and I might strive it and it didn’t work,” he says. “They had been saying: ‘This isn’t a solved drawback.’ They simply gave me the knowledge I wanted. Have you ever ever heard of a tire firm that claims ‘Our tires are spherical’?”
On the time, Schroder was taking one other exacting class, this one on mechanics. The professor instructed college students he deliberate to cowl 14 weeks of the syllabus in a mere six weeks and concentrate on particular subjects within the remaining time. Many college students had been intimidated and dropped out, however Schroder caught with it. (“It was the kind of abuse I used to be used to at MIT,” he jokes, pointing to his brass rat. “So it was simply fantastic.”) Considerably fortuitously, a kind of “particular subjects” was baseball bats.
As a result of Schroder was so consumed by the hammer vibration drawback—one other exercise that includes the mechanics of swinging—he learn books in regards to the legendary Boston Crimson Sox batter Ted Williams to be taught extra. He interviewed carpenters. He spent a good period of time with a hammer in his hand. “I bought to be fairly good at it myself. I used to be simply hammering on a regular basis,” he says. “I ended up shedding a part of my listening to as a result of I used to be doing all this work on anvils.”
He developed checks to measure vibrations and crafted a “cyberglove” that will learn them and add the information into a pc program. After two years of knowledge assortment and evaluation, he concluded that the majority makes an attempt to enhance hammers concerned including size and subsequently weight. That causes fatigue and doubtlessly exacerbates what is named “hammer elbow” or lateral epicondylitis, a repetitive stress dysfunction that may plague building employees.
Schroder decided that there was a “little spot in a hammer the place there’s not a lot vibration”—the a part of the deal with most individuals would naturally grasp. He found out that for those who take away weight from the elements of the deal with adjoining to the grip and insert foam there, that insulates the person’s hand from the shock of impression and ensuing vibration. Utilizing foam inserts additionally made it possible for him to revamp the hammer head to extend the efficient size of the hammer—and increase momentum switch by about 15%—with out including weight. In different phrases, his design not solely diminished vibration however made the hammer hit more durable with much less effort.
These modifications additionally lower manufacturing prices. As we speak, Schroder’s design enhancements have made their approach into nearly all of hammers bought in america, making hammering a lot simpler on customers’ elbows—and relieving producers from the mounting menace of lawsuits for vibration-related office accidents.
“It’s type of a boring factor, actually. It’s not one thing that physicists work on,” he says. “I turned enamored with the truth that I might work on one thing that everyone had the chance to repair and didn’t.”
In the middle of tackling the hammer drawback, Schroder says, he discovered that being an inventor is as a lot about perseverance and grit as it’s about science or creativeness. His professors instructed him he was losing his time and shouldn’t hassle. Then, after he offered his improvements to hammer corporations, they mentioned they didn’t suppose his developments had been patentable—but proceeded to include them into their new designs. Two patents had been finally issued to Schroder, and 16 years later, after suing the hammer corporations, he was lastly compensated for his improvements. He paid off his home, took his spouse and 5 youngsters to Italy, and gave the remainder of the proceeds to charity, he says.
By that point, he had already moved on.
Within the early 2000s, whereas working at an organization then referred to as Nanotechnologies, Schroder was making use of the idea of pulsed energy, a subfield of physics and electrical engineering he’d studied at MIT, to synthesize nanoparticles. Pulsed energy includes extraordinarily temporary, intense bursts of electrical present that ship “an enormous quantity of energy—a ridiculous quantity of energy—for a brief time frame,” Schroder explains. For instance, a flash digital camera may take 5 seconds to cost, drawing a mere 5 watts from an AA battery. However when it releases that saved vitality in lower than a thousandth of a second, the flash is about 20,000 watts.
“Inventing is a ability, not a expertise. Everybody might be an inventor.”
For one among its many initiatives, the corporate had been creating an electro-thermal gun, initially meant for army functions, that Schroder says had “a really intense arc discharge—a spark, however 100,000 amps.” He describes the 50-megawatt prototypes they produced as “just a little bit scary” and calls it a “failed system that by no means bought out of the laboratory.” However his predecessors on the firm realized that in the event that they pulled the set off after eradicating the projectile from the barrel, the excessive warmth of the pulsed arc discharge would erode the silver electrodes contained in the barrel, producing plasma that shot out of the system. When the plasma quickly cooled, these eroded, or ablated, electrodes reacted with gases to type nanoparticles. An inert gasoline, like helium, would generate silver nanoparticles. A reactive gasoline would type nanoparticles of a compound, like silver oxide.
Abandoning the thought of an electrothermal gun altogether, Schroder and his colleagues drew on his experience in pulsed energy and centered on making use of it to rods of, say, silver or aluminum to supply nanoparticles of these supplies. Then they decided that in the event that they tweaked the size of the heartbeat, from one millisecond to 2 or extra, they may change the common particle dimension to go well with a broader vary of purposes. The invention was “actually thrilling,” Schroder says now, nevertheless it proved tough to capitalize on given the dearth of business demand for nanoparticles on the time. The corporate was on the verge of chapter.
Round this time, in 2001, Schroder inherited an ailing 12-year-old German shepherd named Heidi. “She had these pus-y wounds that had been a half-inch in diameter and a half-inch deep in her knees and elbows,” Schroder recollects. “The an infection was so dangerous she couldn’t rise up.” He started to deal with Heidi with a salve made for canines and horses, however after a few weeks she was not bettering. “I believed, darn it, I don’t need to put her down,” Schroder remembers.
However then he considered the silver nanoparticles that his firm had developed. “I had heard that among the stuff could be antimicrobial,” he says. So he blended the nanoparticles into the salve and utilized it to Heidi’s wounds. Inside two weeks, they’d healed, and Heidi might stand and even run. Now the nanoparticle-infused salve is an FDA-approved product that hospitals use to deal with burn victims. “We referred to her, lovingly, as Heidi the Nano Canine,” Schroder says.
As we speak, Schroder is greatest identified for his second nanoparticle invention, which he dreamed up when he turned fascinated with the thought of printed electronics.
“I believed, wouldn’t it’s type of cool for those who might take an inkjet printer cartridge, jailbreak it, and [add metallic] nanoparticles and make a dispersion, make an ink?” he says. “You would print wires on a bit of paper and make the most affordable circuit on the planet.”
every little thing might be made higher has motivated all his work, from rethinking hammers to creating low-cost printable circuits.
The issue is that cheaper substrates, together with paper and plastic, will ignite on the excessive temperatures essential to sinter, or remedy, the nanoparticles into wires. (Melting silver requires a temperature of 962 °C, however paper ignites at 233 °C, or the novelistically well-known Fahrenheit 451.) Equally problematic, the ovens by which this sintering takes place are sometimes very massive and gradual, they usually require a whole lot of vitality.
That is the place a disposable digital camera enters the image.
“The primary one I bought from Walgreens. It value me seven bucks, however I jailbroke it so I might carry on flashing it,” he recollects. Schroder says he figured that he might use the extreme flash of sunshine to warmth solely the nanoparticles (that are black and readily take in gentle), sintering them collectively into wires so quick that the paper or plastic substrate on which he’d printed them didn’t have an opportunity to soften or warp. The concept, Schroder explains, was to harness the depth of the flash (the pulsed energy) to generate millisecond bursts of excessive energy utilizing minimal vitality. “It was a kind of uncommon instances in technological growth by which quicker, higher, and cheaper all occurred concurrently,” he says.
He and his colleagues finally scaled up the flash idea into an industrial system generally known as PulseForge, which may generate bursts of warmth sizzling sufficient to remedy nanoparticles into conductive traces—and do it so rapidly that their substrates survive the warmth.
“With this flash lamp expertise—photonic curing, that’s what I referred to as it—we are able to go as much as about 400 °C. However we are able to do in a single millisecond what usually would take 10 minutes or longer,” Schroder says. “This replaces an oven, which might be a whole bunch of meters lengthy and take up a whole constructing and use tons and tons of vitality.” As we speak, he’s CTO of the corporate, which is now generally known as PulseForge. It affords digital thermal processing techniques that make manufacturing extra sustainable and extra inexpensive.
Although he can’t be particular about what the corporate’s shoppers manufacture, Schroder says PulseForge’s expertise is used to make client electronics that most individuals personal right this moment.
After 30 years of experimentation in lots of fields—together with mechanical engineering, chemistry, pulsed energy, nanotechnology, and printed electronics—Schroder holds 41 US patents and greater than 70 worldwide ones. He’s gained the celebrated R&D 100 Award twice. In 2012, the Texas State Bar named him Inventor of the 12 months, and in 2023, the Austin Mental Property Regulation Affiliation did the identical.
Schroder says he gained’t reside lengthy sufficient to discover all of the concepts bouncing round in his head. However one factor he’d love to do is present some steerage to fledgling inventors—a type of sensible and private street map to success. He’s already began writing a e book, referred to as merely Learn how to Invent.
The e book was partially impressed by a gathering he organized a number of years in the past for his oldest daughter, who was then 11, and 40 or so of her mates from a scouting group. Schroder referred to as it an “invention truthful.”
“I instructed them: I would like you to determine issues on the planet,” he says. “You’re going to attempt to remedy them.”
He was so impressed with the ladies’ concepts, together with his daughter’s—a backpack that dispenses M&Ms—that one thing struck him. “Inventing is a ability, not a expertise,” he says. “Everybody might be an inventor, and seeing these 40 little women provide you with some fairly darn good innovations—I noticed there’s a course of for this.”
One among his hard-won items of recommendation is to search out pleasure in that course of—to be completely satisfied just because an experiment works. “Don’t focus an excessive amount of [on] for those who’re going to make a zillion {dollars} or be in control of it,” he says. “As a result of guess what? There are 100 extra innovations after that.”
There may be, nevertheless, one intangible trait that each inventor ought to have: the outlook {that a} glass is neither half full nor half empty.
“The inventor says: ‘I could make a greater glass,’” he says. “An inventor at all times sees a future by which every little thing is best.”
