Español

New research on achieving femtosecond laser machining of multi joint micromachines

767
2023-09-15 14:06:09
Ver traducción

The team of Wu Dong, professor of the Micro/Nano Engineering Laboratory of University of Science and Technology of China, proposed a processing strategy of femtosecond laser two in one writing into multiple materials, manufactured a micromechanical joint composed of temperature sensitive hydrogel and metal nanoparticles, and then developed a multi joint humanoid micromachine with multiple deformation modes (>10). The relevant research results were recently published in Nature Communications.

In recent years, femtosecond laser two-photon polymerization technology has been widely used as a true three-dimensional machining method with nano precision to manufacture various functional microstructures. These microstructures exhibit broad application prospects in fields such as micro nano optics, micro sensors, and micro machine systems. However, it is still highly challenging to utilize femtosecond lasers to achieve composite multi material processing and further construct multimodal micro/nano machinery.

Femtosecond laser two in one processing strategy includes the use of asymmetric two-photon polymerization to build hydrogel joints, and laser reduction deposition of silver nanoparticles in the local area of the joint. Among them, the asymmetric photopolymerization technology makes the cross-linking density of the local area of the hydrogel micro joint produce anisotropy, and finally enables it to realize the bending deformation with controllable direction and angle.

In situ laser reduction deposition can accurately process silver nanoparticles on hydrogel joints. These silver nanoparticles have a strong photothermal conversion effect, which enables the mode switching of multi joint micromachines to exhibit excellent characteristics such as ultra-short response time (30 milliseconds) and ultra-low driving power (<10 milliwatts).

As a typical example, 8 micro joints are integrated into a humanoid micromachine. Subsequently, researchers utilized spatial light modulation technology to achieve multifocal beams in 3D space, thereby accurately stimulating each micro joint. The collaborative deformation between multiple joints promotes the completion of multiple reconfigurable deformation modes in humanoid micro robotic arms. Finally, at the micrometer scale, humanoid micromachines "danced".

In concept validation, by designing the distribution and deformation direction of micro joints, a dual joint micro robotic arm can collect multiple micro particles in the same and opposite directions. In summary, the femtosecond laser two in one machining strategy can construct deformable micro joints in various local areas of three-dimensional microstructures, achieving various reconfigurable deformation modes.
Researchers have introduced that micro robotic arms with multiple deformation modes will exhibit broad application prospects in micro cargo collection, microfluidic manipulation, and cell manipulation.

Source: Micro and Nano Engineering Laboratory, University of Science and Technology of China

Recomendaciones relacionadas
  • The research team has developed a mechanical luminescent touch screen that can work underwater

    The optical properties of afterglow luminescent particles in mechanical luminescence and mechanical quenching have attracted much attention in various technological applications. A group of researchers from Pohang University of Science and Technology has attracted attention by developing an optical display technology with ALP that can write and erase messages underwater.The team is composed of Pro...

    2024-03-08
    Ver traducción
  • New, low-cost, and high-efficiency photonic integrated circuits

    The rapid development of photonic integrated circuits (PICs) has combined multiple optical devices and functions on a single chip, completely changing optical communication and computing systems.For decades, silicon-based PICs have dominated the field due to their cost-effectiveness and integration with existing semiconductor manufacturing technologies, despite their limitations in electro-optic ...

    2024-05-10
    Ver traducción
  • The researchers used ultrafast lasers to create nanoscale photonic crystals

    The optical properties of photonic crystals are closely related to their lattice constants, which are usually required to be in the same order of magnitude as the operating wavelength. In a crystal material, the photonic crystal structure is formed by the periodic arrangement in space of units whose dielectric constant is different from that of the crystal itself, and whose lattice constant depend...

    2023-08-04
    Ver traducción
  • The creator of a computer that uses lasers to perform complex tasks at the speed of light has announced a breakthrough in high-performance computing

    LightSolver's new LPU100 system is powered by 100 lasers and can solve the most challenging problems through up to 120100 combinations.This computer was created by Dr. Ruti Ben Shlomi, CEO of LightSolver and Dr. Chen Tradonsky, CTO, a physicist at the Rehowatt Weizmann Institute for Science.It is not suitable for household use because its high computing power exceeds individual needs, but it is su...

    2024-03-21
    Ver traducción
  • What are double- and triple-stack hybrid stepper motors

    Of the three primary stepper motor designs — permanent magnet, variable reluctance, and hybrid — hybrid stepper motors are arguably the most popular in industrial applications, combining the best performance characteristics of permanent magnet and variable reluctance types.Hybrid stepper motors are constructed with a rotor made of two sections, or cups, with a permanent magnet between ...

    2023-09-16
    Ver traducción