Research Output

Scientific Publications

Exploring the intersection of acoustics, robotics, and biology. Our work is open-access whenever possible to accelerate scientific discovery.

Annual Review of Biomedical Engineering

Open Access

2024

Scientists around the world have long aimed to produce miniature robots that can be controlled inside the human body to aid doctors in identifying and treating diseases. Such microrobots hold the potential to access hard-to-reach areas of the body through the natural lumina. Wireless access has the potential to overcome drawbacks of systemic therapy, as […]

Veronica Iacovacci, Eric Diller, Daniel Ahmed and Arianna Menciassi

Advanced Drug Delivery Reviews
2024

Ultrasound robotics for precision therapy

In recent years, the application of microrobots in precision therapy has gained significant attention. The small size and maneuverability of these micromachines enable them to potentially access regions that are difficult to reach using traditional methods; thus, reducing off-target toxicities and maximizing treatment effectiveness. Specifically, acoustic actuation has emerged as a promising method to exert […]

Proceedings of the National Academy of Sciences of the United States of America
2024

Zhiyuan Zhang, Zhan Shi and Daniel Ahmed

Shape transformation, a key mechanism for organismal survival and adaptation, has gained importance in developing synthetic shape-shifting systems with diverse applications ranging from robotics to bioengineering. However, designing and controlling microscale shape-shifting materials remains a fundamental challenge in various actuation modalities. As materials and structures are scaled down to the microscale, they often exhibit size-dependent […]

Nanoscale
2024

Cornel Dillinger, Justin Knipper, Nitesh Nama and Daniel Ahmed

Soft polymeric microrobots that can be loaded with nanocargoes and driven via external field stimuli can provide innovative solutions in various fields, including precise microscale assembly, targeted therapeutics, microsurgery, and the capture and degradation of unwanted wastewater fragments. However, in aquatic environments, it remains challenging to operate with microrobotic devices due to the predominant viscous […]

Lab on a Chip
2024

Zhiyuan Zhang, Yilin Cao, Sara Caviglia, Prajwal Agrawal, Stephan C.F. Neuhauss and Daniel Ahmed

Multifunctional micromanipulation systems have garnered significant attention due to the growing interest in biological and medical research involving model organisms like zebrafish (Danio rerio). Here, we report a novel acoustofluidic rotational micromanipulation system that offers rapid trapping, high-speed rotation, multi-angle imaging, and 3D model reconstruction of zebrafish larvae. An ultrasound-activated oscillatory glass capillary is used […]

Science Advances
2023

Yong Deng, Adrian Paskert, Zhiyuan Zhang, Raphael Wittkowski and Daniel Ahmed

As a next-generation toolkit, microrobots can transform a wide range of fields, including micromanufacturing, electronics, microfluidics, tissue engineering, and medicine. While still in their infancy, acoustically actuated microrobots are becoming increasingly attractive. However, the interaction of acoustics with microstructure geometry is poorly understood, and its study is necessary for developing next-generation acoustically powered microrobots. We […]

Nature Communications
2023

Alexia Del Campo Fonseca, Chaim Glück, Jeanne Droux, Yann Ferry, Carole Frei, Susanne Wegener, Bruno Weber, Mohamad El Amki and Daniel Ahmed

The intricate and delicate anatomy of the brain poses significant challenges for the treatment of cerebrovascular and neurodegenerative diseases. Thus, precise local drug delivery in hard-to-reach brain regions remains an urgent medical need. Microrobots offer potential solutions; however, their functionality in the brain remains restricted by limited imaging capabilities and complications within blood vessels, such […]

Nature Communications
2023

Jakub Janiak, Yuyang Li, Yann Ferry, Alexander Doinikov and Daniel Ahmed

Achieving controlled mobility of microparticles in viscous fluids can become pivotal in biologics, biotechniques, and biomedical applications. The self-assembly, trapping, and transport of microparticles are being explored in active matter, micro and nanorobotics, and microfluidics; however, little work has been done in acoustics, particularly in active matter and robotics. This study reports the discovery and […]

IEEE Robotics and Automation Letters
2023

Zhiyuan Zhang, Leonardo K. Allegrini, Naoki Yanagisawa, Yong Deng, Stephan C.F. Neuhauss and Daniel Ahmed

Rotation manipulation is an essential component of biological microscopy and can become integral to multidisciplinary research and applications. On-chip rotation of microobjects with spherical shapes like biological cells and model organisms has been demonstrated based on advanced microfluidic techniques. To date, however, biocompatible, easy-to-fabricate, easy-to-operate, and controlled rotation of small animal models with slender bodies […]

Advanced Materials Technologies
2023

Matthijs Schrage, Mahmoud Medany and Daniel Ahmed

Ultrasound is an attractive modality for controlling micro/nanorobots due to penetrating deep into tissue, not being affected by the opaque nature of animal bodies, and generating a broad range of forces. However, ultrasound microrobots have poor navigation capabilities and the number of parameters involved in its motion make it extremely challenging for a human controller […]

Nature Communications
2022

Zhiyuan Zhang, Alexander Sukhov, Jens Harting, Paolo Malgaretti and Daniel Ahmed

Rolling is a ubiquitous transport mode utilized by living organisms and engineered systems. However, rolling at the microscale has been constrained by the requirement of a physical boundary to break the spatial homogeneity of surrounding mediums, which limits its prospects for navigation to locations with no boundaries. Here, in the absence of real boundaries, we […]

Nature Communications
2022

Jan Durrer, Prajwal Agrawal, Ali Ozgul, Stephan C.F. Neuhauss, Nitesh Nama and Daniel Ahmed

Liquid manipulation is the foundation of most laboratory processes. For macroscale liquid handling, both do-it-yourself and commercial robotic systems are available; however, for microscale, reagents are expensive and sample preparation is difficult. Over the last decade, lab-on-a-chip (LOC) systems have come to serve for microscale liquid manipulation; however, lacking automation and multi-functionality. Despite their potential […]

Light: Science & Applications
2022

Zhiyuan Zhang and Daniel Ahmed

Existing single-cell adhesion kinetics methods are performed under conditions highly unlike the physiological cell adhesion conditions. Now, researchers have developed a new optical technique for high-precision measurement of cell lateral adhesion kinetics in complex clinical samples.

Advanced Materials Interfaces
2022

Alexia Del Campo Fonseca, Tobias Kohler and Daniel Ahmed

Navigation of microrobots in living vasculatures is essential in realizing targeted drug delivery and advancing non-invasive surgeries. Acoustically-controlled “swarmbots” are developed based on the self-assembly of clinically-approved microbubbles (MBs). Ultrasound is noninvasive, penetrates deeply into the human body, and is well-developed in clinical settings. This propulsion strategy relies on two forces: the primary radiation force […]