A nature-inspired #Biomimetic confined cascade enzyme #Nanoreactor scavenges ROS, targets atherosclerotic plaques, and reduces inflammation & cellular senescence, offering a promising strategy against #Atherosclerosis.
#STTT #OpenAccess: doi.org/10.1038/s413...

Advanced bioprinting strategies for fabrication of biomimetic tissues and organs

This #IJEM review highlights how advanced #Bioprinting enables #Fabrication of #Biomimetic tissues and organs by integrating cells and #Biomaterials, addressing vascularization and functional challenges in #Regenerativemedicine.

#OpenAccess: doi.org/10.1088/2631...

A nature-inspired confined cascade enzyme #Nanoreactor integrating multiple #Nanozyme activities within a #Biomimetic platform modulates inflammatory plaque microenvironments and inhibits #FoamCell formation in #Atherosclerosis.

#STTT #OpenAccess: doi.org/10.1038/s413...

Mussel adhesion meets conductivity: new bioglue for bioelectronic implants POSTECH and Pukyong National University researchers develop a conductive bioglue that seamlessly integrates tissues and electronic devices in the fluid‑filled body.

11-Mar-2026
#Mussel #adhesion meets conductivity: new #bioglue for #bioelectronic #implants

https://www.eurekalert.org/news-releases/1119580

#science #biomaterials #biomimetic #technology

CityUHK research team develops 3D-printed biomimetic “mechanoelectrical” smart materials inspired by sea urchin spines renewable-carbon.eu/news/?p=174340 #3dprinting #biomimetic #biosensors #electricity #RenewableCarbon

NANOARC leads in #biomimetic nanotech, offering ORTHO-Q #nanoadditives to enhance #orthopaedic implant performance, durability & integration. Benefits entail improved #bone growth, wear resistance & costeffective #infection prevention.

See biomimetics.nanoarc.org/biomimetic-t...

#MedicalDevices

Revolutionary 3D-Printed Smart Materials Inspired by Sea Urchins A research team from City University of Hong Kong has created innovative mechanoelectrical materials inspired by sea urchin spines using 3D printing, enhancing underwater flow sensing.

Revolutionary 3D-Printed Smart Materials Inspired by Sea Urchins #Hong_Kong #CityUHK #biomimetic #mechanoelectrical

3D Turing nanowrinkles via anisotropic photopolymerization

This #IJEM study introduces a femtosecond laser direct writing method to precisely fabricate 3D #Biomimetic Turing nanowrinkles through a controlled process of reaction-diffusion-based anisotropic #Photopolymerization.

#OpenAccess: doi.org/10.1088/2631...

European Defence Agency Develops Tech for Underwater Drones to Move in Swarms

The European Defence Agency (#EDA) has completed the second phase of its #Swarm of #Biomimetic #UnderwaterVehicles (#SABUVIS II) project,

defensemirror.com/news/41130/E...

European Defence Agency Develops Tech for Underwater Drones to Move in Swarms SABUVIS II project tests coordinated autonomous underwater vehicles in multinational trials

The European Defence Agency (#EDA) has completed the second phase of its #Swarm of #Biomimetic #UnderwaterVehicles (#SABUVIS II) project, concluding a four-year effort to enable #autonomous underwater vehicles (#AUVs) to operate in coordinated swarms rather

defensemirror.com/news/41130/E...

Watching Moya in action reveals how biomimetic AI robots are edging closer to feeling human enough to be unsettling. ⚙️ #Robotics #Biomimetic #AI #Moya

World's first biomimetic AI robot 'Moya' moves, reacts, and feels human enough to be unsettling Image: DroidUp China has introduced a humanoid robot called Moya, and it is already stirring debate about how close machines should get to looking and behaving like us. Built by Shanghai startup Droid...

here’s a new humanoid in town that doesn’t just walk the walk—it feels warm to the touch. Meet Moya, the world’s first biomimetic AI robot sparking uncanny‑valley vibes. 😮 #Biomimetic #Moya #AIrobot #Humanoid #DroidUp

China unveils world’s first 'biomimetic AI robot' that smiles, winks Moya, a humanoid robot unveiled in Shanghai, is designed to walk, smile, and interact like a human using embodied AI.

#China unveils world’s first #biomimetic #AI #robot that #smiles #winks share.google/fZqt9FVNStVk...

Great afternoon session in #Nanobiotechnology at #ICONN2026. Examples include polysuccinimide-based degradable #biomaterials (Hang Thu Ta, Griffith), nanoscale membrane deformation and oncogenic Ras clustering (Wenting Zhao, NTU), and #biomimetic #nanoparticles for vaccine delivery (Hao Song, UQ).

Inspired by click beetles, researchers have successfully developed a high-frequency continuous jumping robot using sustainable wood and magnetic control technology
doi.org/10.59717/j.x...
#materials #biomimetic #softrobotics

Fast prototype and rapid construction of three-dimensional and multi-scaled pitcher for controlled drainage by systematic biomimicry

This #IJEM study uses an integrated micro-CT & #3Dprinting framework for the rapid digital twin reconstruction and #Fabrication of #Biomimetic replicates, enabling development of optimized drainage controllers.
#OpenAccess: doi.org/10.1088/2631...

This work systematically interprets and reviews the advantages and prospects of wrinkled metal-organic frameworks thin films constructed via reaction-diffusion principles, with morphological programming as the core...
doi.org/10.59717/j.x...
#materialscience #biomimetic #carboncapture

A bio-barrier-adaptable #Biomimetic #Nanoplatform, MSF@CCM, exhibits enhanced #TumorAccumulation & #ImmuneEvasion along with amplified ultrasound-mediated intratumoral penetration, highlighting it as a promising modality for #CancerTherapy.

#OpenAccess: doi.org/10.1038/s413...

Poster series 2/2 explores the intersection of nature’s geometry and algorithmic generation.
Using #p5.js, Each form is not just decorative, but rooted in #biomimetic principles inspired by the way life repeats, spirals, and evolves through symmetry

Membrane-based biomimetic delivery systems for glioblastoma multiforme therapy

This Nanotechnology Reviews study explores various types of cellular membranes used in #Biomimetic systems for #GlioblastomaMultiforme, their construction and in vitro validation methods, challenges, and strategies for clinical application.
#OpenAccess: doi.org/10.1515/ntre...

Reviewing #AdditiveManufacturing methods in #Fabrication of biomedical components, with insights into 3D-printed mechanical #Metamaterials in biomedical applications, and the use of #Biomimetic materials as a future direction.

#IJEM #OpenAccess: doi.org/10.1088/2631...

Schematic diagram of the closed-loop motion control experiment based on flow perception.

FlowSight: a fish-inspired #ArtificialLateralLine that lets #UnderwaterRobots ‘feel’ flow in real-time. A vision system watches a #biomimetic tentacle deform, then AI estimates flow vector; enabling closed-loop control and opening new avenues.
ieeexplore.ieee.org/document/109...

Advancing #oncology through #nanotechnology – in this #review, the transformative potential of #biomimetic #nanoparticles as tiny #DrugCarriers in #CancerTherapy is explored:
➡️ www.beilstein-journals.org/bjnano/articles/16/92
#BJNANO 💎🔓

The latest issue of ACS Applied Materials & Interfaces (@ACS_AMI) is live! On the #Cover: „#Engineering Curved #Strontium Sulfate #Crystals through #Biomimetic #Crystallization“

A femtosecond laser subtractive/additive-integrated #Biomimetic #Manufacturing method enables advanced interfacial functionalization & flexible hierarchical micro/nano-fabrication of black TMOs in confined/unconfined modes.

#IJEM #OpenAccess: doi.org/10.1088/2631...

A biomimetic hybrid soft/rigid robotic masticator simulating Oral processing of solid foods Promoting healthy ageing becomes increasingly crucial with the growth in both the size and the proportion of older people in the worldwide population.…

Happy to share our publication in Food Res. Int.
presenting a #Biomimetic #SoftRobotics #Masticator to study #FoodOralProcessing & #bolus formation, developed by A.Avila-Sierra at @inrae-france.bsky.social #UMRSayFood. A great, #MSCA funded
collaboration with @ucauvergne.bsky.social, Fujita H.Uni.

Bird-like robot with novel wing system achieves self-takeoff and low-speed flight In 2021, a group of scientists from China engineered the RoboFalcon—a bird-inspired flapping-wing robot with a newly engineered mechanism made to drive bat-style morphing wings capable of flight. Whil...

🦾 Bird-like robot with novel wing system achieves self-takeoff and low-speed flight

techxplore.com/news/2025-09...

#robots #mechanical #machines #engineering #ornithopter #flight #birds #biomimetic

🐘 MELEGROS: Monolithic Elephant-inspired Gripper with Optical Sensors

arxiv.org/abs/2509.20510

#robotics #machines #gripper #sensors #engineering #elephant #biomimetic #bionic #technology

Hydromechanics of ammonoid conch ornamentation: trade-offs between rocking attenuation and drag reduction | Paleobiology | Cambridge Core Hydromechanics of ammonoid conch ornamentation: trade-offs between rocking attenuation and drag reduction

17th chapter by Naglik et al. focuses on #Ammonoid #Locomotion: rdcu.be/eJqhf

Latest studies use #biomimetic models (doi.org/10.1093/iob/...
; doi.org/10.1038/s415...) or #Computational fluid dynamics (doi.org/10.26879/956).

#tradeoffs are key: doi.org/10.4202/app....
doi.org/10.1017/pab....

Biomimetic Soft Robotic Tail Boosts Speed and Force for Agile Robots

A biomimetic soft robotic tail operates at up to 6 bar, reaches angular speeds over 670°/s and delivers 5.58 N of inertial force, a >200% boost over earlier designs. getnews.me/biomimetic-soft-robotic-... #softrobotics #biomimetic