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Student researchers at Georgia Tech investigate how intentional robot deception affects trust, examining the effectiveness of apologies after robots lie.

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Georgia Tech researchers show that rising temperatures in northern regions may damage peatlands: critical ecosystems for storing carbon from the atmosphere — and could decouple vital processes in microbial support systems.

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Led by researchers at Georgia Tech, an interdisciplinary team bioengineered a synthetic tumor model to understand and then demonstrate how the tumor microenvironment impacts the effectiveness of targeted therapies for a specific type of lymphoma called Activated B Cell-like Diffuse Large B cell lymphoma (ABC-DLBCL). Their synthetic tumor model could change the game for designing and testing personalized cancer therapies.

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When lymphatic vessels fail, typically their ability to pump out the fluid is compromised. Georgia Institute of Technology researchers have developed a new treatment using nanoparticles that can repair lymphatic vessel pumping. Traditionally, researchers in the field have tried to regrow lymphatic vessels, but repairing the pumping action is a unique approach.

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To make connectivity more equitable, researchers at the Georgia Institute of Technology are developing open-source software to empower citizens to report on cellular network quality and places without any connectivity.

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New research from the Georgia Institute of Technology offers a unique framework for understanding queer communities and their histories.

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Sharpshooter insects excrete by catapulting urine droplets at high accelerations. By using computational fluid dynamics and biophysical experiments, the researchers studied the fluidic, energetic, and biomechanical principles of sharpshooter excretion. Their study reveals how an insect smaller than the tip of a pinky finger performs a feat of physics and bioengineering – superpropulsion.

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Georgia Institute of Technology researchers have found a way to use small shocks of electricity to disinfect water, reducing energy consumption, cost, and environmental impact. The technology could be integrated into the electric grid or even powered by batteries.

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Georgia Tech-Europe and MIT researchers are using emerging technology to demonstrate a process that will enable more immersive and realistic virtual and augmented reality displays with the world’s smallest and thinnest micro-LEDs.

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A new type of solar technology has seemed promising in recent years. Halide perovskite solar cells are both high performing and low cost for producing electrical energy – two necessary ingredients for any successful solar technology of the future. But new solar cell materials should also match the stability of silicon-based solar cells, which boast more than 25 years of reliability.

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The team's new methodology offers hope for better coral connectivity monitoring and protection in the future.

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Seventy-five percent of North American plants have been following their preferred climates for the past 18,000 years. Georgia Tech researchers introduce climate fidelity as a framework for evaluating plant niche dynamics to assess how well they have done this. While these plants will likely need to continue shifting geographic ranges, they may be challenged to do so due to habit fragmentation and rapidly changing climates.

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An international coalition of researchers — led by Georgia Tech — have determined that advancements and innovations in urban research and design must incorporate serious analysis and collaborations with scientists, public policy experts, local leaders, and citizens.

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Flow batteries offer a solution. Electrolytes flow through electrochemical cells from storage tanks in this rechargeable battery. The existing flow battery technologies cost more than $200/kilowatt hour and are too expensive for practical application, but Liu’s lab in the School of Chemical and Biomolecular Engineering (ChBE) developed a more compact flow battery cell configuration that reduces the size of the cell by 75%, and correspondingly reduces the size and cost of the entire flow battery. The work could revolutionize how everything from major commercial buildings to residential homes are powered.

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Cats always land on their feet, but what makes them so agile? Their unique sense of balance has more in common with humans than it may appear. Researchers at the Georgia Institute of Technology are studying cat locomotion to better understand how the spinal cord works to help humans with partial spinal cord damage walk and maintain balance.

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Humans displaying positive emotions in customer service interactions have long been known to improve customer experience, but researchers at the Georgia Institute of Technology’s Scheller College of Business wanted to see if this also applied to AI. They conducted experimental studies to determine if positive emotional displays improved customer service and found that emotive AI is only appreciated if the customer expects it, and it may not be the best avenue for companies to invest in.

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Researchers at the Georgia Institute of Technology have developed a new graphene-based nanoelectronics platform that could be the key to finding a successor to silicon. The team may have also discovered a new quasiparticle. Their discovery could lead to manufacturing smaller, faster, more efficient, and more sustainable computer chips, and has potential implications for quantum and high-performance computing.

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New research from the Georgia Institute of Technology uses machine learning models to better understand water’s phase changes, opening more avenues for a better theoretical understanding of various substances. With this technique, the researchers found strong computational evidence in support of water’s liquid-liquid transition that can be applied to real-world systems that use water to operate.

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Researchers at the Georgia Institute of Technology are envisioning a larger mission for for small satellites known as CubeSats -- as airborne testbeds for technologies that are being developed for future generations of hypersonic vehicles.

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Many entrepreneurs believe the more enthusiastic they can be in their pitches, the more likely they are to get funding. But it turns out that being too emotive in a pitch can make investors feel manipulated and dissuade them from giving money.