Want to be more persuasive? Talk with your hands, UBC study finds

Purposeful hand gestures can boost persuasiveness and perceived competence.

University of British Columbia

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AI classifies TED Talk hand gestures as “Illustrators” (depicting concepts) and “Highlighters” (pointing to objects).view more 

Credit: Rizzo, G. L. C., Berger, J., & Zhou, M. (2025).

Words matter — but your hands might matter more, according to a new UBC study which found that purposeful hand gestures can make speakers appear more competent and persuasive.

The Sauder School of Business research, analyzed 2,184 TED Talks using AI and automated video analysis. Researchers isolated more than 200,000 hand gestures into 10-second clips and compared them against audience engagement metrics, such as ‘likes’ on social media while controlling for factors like gender, occupation, language, video length and more.

The team also ran randomized experiments in which participants watched videos of sales pitches where speakers delivered identical scripts but varied their hand movements. Viewers then rated the speakers and the products being pitched.

The verdict: More hand movement can significantly boost impact — but not all gestures are created equal.

Winning gestures

Researchers categorized gestures into types, including “illustrators,” which visually depict spoken content, for example, demonstrating the size of a fish while describing it, and “highlighters,” such as pointing to an object mentioned in the speech. They also examined random, unrelated movements and the absence of gestures.

Illustrators had the strongest effect, making speakers seem more knowledgeable and improving audience understanding. Highlighters and random gestures, however, showed little to no impact.

“Illustrators can help make the content easier to understand because we’re delivering the same information in two modes: visual and verbal,” explains Dr. Mi Zhou, study co-author and UBC Sauder assistant professor. “When people use illustrators, it increases viewers’ perception of the speaker’s competence.”

According to Dr. Zhou, audiences interpret illustrative gestures as a sign of mastery. “If a person uses their hands to visually illustrate what they’re talking about, the audience perceives that this person has more knowledge and can make things easier to understand,” she said.

AI decodes the powers of persuasion

While previous research has explored speech patterns and facial expressions, this is the first study to examine hand gestures at scale. Advances in AI made this possible: the team used 21 key points on the hands to calculate hand movement in videos, classified gestures and then linked them to spoken content using multimodal AI, a type of artificial intelligence that can simultaneously analyze multiple types of data.

The findings have implications for marketers, influencers and anyone trying to persuade an audience. “One of the key takeaways for marketers is that you can use the same content, but if you pay more attention to how that content is delivered, it could have a big impact on persuasiveness,” said Dr. Zhou.

The research could also help companies design more lifelike virtual assistants and AI-generated characters by pairing verbal communication with natural hand movements.

“Sometimes we just move our hands without a purpose. It’s a habit,” said Dr. Zhou. “But if you pay more attention and understand the impact, it can make a big difference.”

The study was co-authored by Dr. Giovanni Luca Cascio Rizzo of the University of Southern California and Dr. Jonah Berger of the University of Pennsylvania.

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Journal

Journal of Marketing Research

DOI

10.1177/00222437251385922 

Method of Research

Experimental study

Subject of Research

People

Article Title

EXPRESS: Talking with Your Hands: How Hand Gestures Influence Communication

 

Preventing dangerous short circuits in lithium batteries

TUM researchers reveal surprising growth of destructive dendrites in electrolytes

Technical University of Munich (TUM)

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Lithium-metal batteries are among the most promising technologies for energy storage. They offer significantly more energy in less space — and at a lower weight. However, one phenomenon slows down their development: tiny, needle-like metal structures called dendrites, made of lithium. They can grow uncontrollably inside the battery and cause devastating short circuits. Until now, solid electrolytes, including polymer-based electrolytes, have been considered a way to suppress this growth.

“Electrolytes are responsible for transporting lithium ions back and forth between the two electrodes inside a battery — making the flow of current possible in the first place,” explains Fabian Apfelbeck. The physicist is pursuing his doctorate in the research group of Prof. Peter Müller-Buschbaum at TUM’s Chair of Functional Materials and is funded by the Excellence Cluster e-conversion.

Polymer-based electrolytes offer greater stability and safety than liquid electrolytes, because they cannot leak or ignite. They also reliably separate the electrodes from each other and thus prevent short circuits. “However, our measurements show that dendrite growth can also occur directly inside the polymer electrolyte — right in the material that is actually supposed to protect against dendrites,” says Fabian Apfelbeck, first author of the study published in Nature Communications.

Using a nanofocus to look inside the battery

The findings, therefore, challenge a central assumption in battery research. Prof. Peter Müller-Buschbaum explains: “Until now, it was assumed that dendrite growth occurs only at the interface between electrode and electrolyte. The fact that it also appears far away from that interface surprised us. This new knowledge helps us develop — and further improve — materials in which such internal crystallization processes do not occur in the first place — enabling more efficient, safer, and longer-lasting energy storage.”

The researchers used a particularly precise method for their investigations: so-called nanofocus wide-angle X-ray scattering experiments, carried out at the German Electron Synchrotron DESY in Hamburg. Using an X-ray beam with a diameter of just 350 nanometers, they could visualize the microscopic changes inside a polymer-based electrolyte during battery operation for the first time. To do so, they used a specially developed miniature cell that allows the battery to be observed under real operating conditions.

Publication:

F. A. C. Apfelbeck, G. E. Wittmann, M. P. Le Dû, L. Cheng, Y. Liang, Y. Yan, A. Davydok, C. Krywka, P. Müller-Buschbaum: Local crystallization inside the polymer electrolyte for lithium metal batteries observed by operando nanofocus WAXS. Nature Communications (2025). DOI: 10.1038/s41467-025-64736-w

Further information:

• The research was conducted within the Excellence Cluster e-conversion, which explores the fundamental principles of energy conversion and storage at TUM. It was supported by the German Research Foundation (DFG), the Bavarian Research Network Solar Technologies Go Hybrid (SolTech), and the Helmholtz-Zentrum Hereon.
• News about energy research at TUM

Additional material for media outlets:

Photos for download: https://mediatum.ub.tum.de/1832818

 

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Journal

Nature Communications

DOI

10.1038/s41467-025-64736-w 

Method of Research

Experimental study

Subject of Research

Not applicable

Article Title

Local crystallization inside the polymer electrolyte for lithium metal batteries observed by operando nanofocus WAXS

 

Are we ready for robot caregivers? The answer is a cautious “yes, if...”

Survey shows broad openness among users when privacy, safety, and trust are ensured

Chiba University

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Researchers at Chiba University conducted a large-scale survey among older adults, families, caregivers, and developers to understand the acceptance of home-care robots, highlighting how privacy, safety, and trust influence willingness to use these technologies.

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Credit: Prof. Sayuri Suwa from Chiba University, Japan Source link: https://www.sciencedirect.com/science/article/pii/S074756322500264X?via%3Dihub

Robots have never felt as close to becoming a part of everyday life as they do today. Their widespread use now seems likely in the near future. But as technology advances, important social questions remain. Are we ready to live and work alongside robots? Many people worry about safety, the loss of human contact, high costs, and the potential for robots to take over human jobs. These concerns are especially important when it comes to caregiving robots that assist older adults.

 

A new study by researchers at Chiba University in Japan reveals a general openness to using home-care robots, as long as people view them as beneficial to society. The findings highlight the delicate balance developers must strike between innovation and maintaining users’ trust.

 

The study, made available online on September 27, 2025, and published in Volume 174 of the journal Computers in Human Behavior on January 01, 2026, was led by Professor Sayuri Suwa from the Graduate School of Nursing at Chiba University, Japan. The research team also included Dr. Yumi Akuta from Tokyo Healthcare University, Japan; Dr. Naonori Kodate from University College Dublin, Ireland; Dr. Wenwei Yu from Chiba University; and Dr. Mayuko Tsujimura from Shiga University of Medical Science, Japan.

 

“Crucially, the results indicate that greater collaboration between users and developers, together with careful attention to ethical considerations, is essential for accelerating the adoption and societal implementation of home-care robots,” says Prof. Suwa.

 

Caregiving robots are expected to play an important role in Japan, which has the world’s fastest-aging population and a shortage of care workers. By 2040, the country may lack around 570,000 care workers. To understand how people feel about home-care robots, the researchers conducted a large survey with 4,890 participants, including older adults, their families, caregiving staff, and robot developers.

 

Participants were asked about their willingness to use home-care robots and whether they would share personal data with them. Questions included, ‘Would you like to use a home-care robot when receiving care yourself?’ and ‘Would you like to use one when caring for a family member?’ They were also asked what types of personal information, such as vital signs, voice recordings, and location data, they would be comfortable sharing with robots.

 

Out of the responses from 1,122 potential users and 83 developers, the results showed that willingness to use home-care robots varied by age and familiarity. People under 65 years of age were the most open to using robots, both for themselves and their families. Women were slightly more positive than men. Participants who followed robot-related news or were interested in testing new robots were also more willing to use them.

 

Developers, on the other hand, were mainly concerned about safety and privacy. Both users and developers who supported robot use said that protecting privacy was important. They also expressed a desire to participate in developing and improving home-care robots.

 

When it came to sharing personal data, about 80% of users said they were willing to share information such as vital signs and voice data with healthcare professionals for research. But only 40–50% were comfortable sharing that data with robotics companies. This shows that trust and transparency are key factors in how people view robots.

 

“Our results conclude that a collaborative ecosystem involving all stakeholders, aligned with ethical principles and shared interests, is essential for the successful development and implementation of home-care robots. Through such collaboration, these robots can support older adults in living independently within their homes and communities, while also easing the burden on family and professional caregivers,” emphasizes Prof. Suwa.

 

As Japan’s aging population continues to grow, using robots and other innovative technologies in home care will become an important part of addressing social and healthcare challenges. With careful planning and attention to ethics, home-care robots could help create a society where people and technology work together to support well-being, independence, and dignity in old age.

 

To see more news from Chiba University, click here.

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Journal

Computers in Human Behavior

DOI

10.1016/j.chb.2025.108817 

Method of Research

Survey

Subject of Research

People

Article Title

Willingness to use home-care robots and views regarding the provision of personal information in Japan: comparison between actual or potential users and robot developers

Article Publication Date

1-Jan-2026