![]() "In the future, I hope to develop an autonomous and self-driving process for materials discovery and device manufacturing, so students in the lab can be free to focus on high-level thinking," Zhang said. In the next phase of research, Zhang and the students in his Advanced Manufacturing and Energy Lab plan to apply machine learning and artificial intelligence-guided strategies to the data-rich nature of HTCP in order to accelerate the discovery and development of a broad range of materials. This makes them particularly useful in biomedical applications that need to bridge between soft body tissues and stiff wearable and implantable devices. In addition to speeding up discovery, HTCP produces functionally graded materials that gradually transition from stiff to soft. His team has already used this approach to identify a semiconductor material with superior thermoelectric properties, a promising discovery for energy harvesting and cooling applications. It generates combinational materials that function as "libraries," each containing thousands of unique compositions.Ĭombining combinational materials printing and high-throughput characterization can significantly accelerate materials discovery, Zhang said. The aerosol-based HTCP is extremely versatile and applicable to a broad range of metals, semiconductors and dielectrics, as well as polymers and biomaterials. His research was just published in Nature. This method-called high-throughput combinatorial printing (HTCP)-controls both the printed materials' 3D architectures and local compositions and produces materials with gradient compositions and properties at microscale spatial resolution. The new process mixes multiple aerosolized nanomaterial inks in a single printing nozzle, varying the ink mixing ratio on the fly during the printing process. Now Zhang has done just that, creating a novel 3D printing method that produces materials in ways that conventional manufacturing can't match. "I thought if we could shorten that time to less than a year-or even a few months-it would be a game changer for the discovery and manufacturing of new materials." ✓ Answered Question Discussion Analysis PSA Verification New Info! Official News Bug Idea/Suggestion Media/Press Report All Infographics Infographic - Event Infographic - Community Day Infographic - Raid Counters Infographic - Raid Bosses Infographic - Research Infographic - Misc."It usually takes 10 to 20 years to discover a new material," said Yanliang Zhang, associate professor of aerospace and mechanical engineering at the University of Notre Dame. Silph Road Guidelines: /r/TheSilphRoad/wiki/rules This is a place to enjoy the game and learn together while building the Silph Road network! Please click here for further information. Mod Fiat - Moderators reserve the right to approve or remove any post or comment if they feel it benefits the culture and content of The Road.We abide by the spirit of the game - Tools, scripts, and exploits which illicitly access Niantic's servers or offer in-game advantages to individual players are not propagated nor advocated on the Road.Allowed post types: Analysis, Official news & announcements, New Info & Verification, Infographics, Questions, Media/Press reports, Bug reports, Discussions about mechanics and strategy, Ideas/Suggestions.This includes, e.g., attacking someone’s identity, or spreading false information. For A Very Slow Discovery’s Collection Challenge, you have from June 8 to 13, starting at 10 AM to 8 PM in your local time zone, to complete it and capture all of the Pokmon on the list. ![]() Be mindful of other Travelers - We want this to be a welcoming and safe place for everyone and therefore ask Travelers to refrain from making statements that could in any way shape or form harm, either physically or mentally, another person.Rude, snarky, and elitist comments detract from our focus of researching and discussing game mechanics and strategy. Keep things civil and courteous - Civility to other travelers is a core value on the Road.Safe travels, friend! Comment & Submission Rulesįamiliarize yourself with our guidelines, traveler! Join us and help us build the world's most awesome network of GO enthusiasts! Then head to the Web app and authenticate with your Reddit account to be able to contribute!įinally, subscribe to the subreddit (above) and/or if you're on Twitter, follow the handle to receive updates on the Road network's development.Assign yourself the correct subreddit flair via the sidebar. ![]()
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