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Continuous-Wave Diodes Shrink Size, Cost of 3D Laser Printers

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Compact desktop printers could soon take the place of big, expensive laser printers for printing 3D micro- and nanostructures. A two-step 3D-printing process, invented by researchers at Karlsruhe Institute of Technology (KIT) and Heidelberg University, works with blue laser diodes and can be implemented on small, inexpensive printers.

Pulsed laser systems have been used for 3D printing because they support two-photon absorption — that is, the simultaneous absorption of two photons to excite a molecule from one state to a state of higher energy. Two-photon absorption triggers a chemical reaction that hardens material into a 3D-printed structure. Complex laser systems are used to induce simultaneous excitation of molecules through two-photon absorption. Although femtosecond lasers enable efficient two-photon absorption, they come with drawbacks, including higher-order processes, cost, reliability issues, and size.

In the two-step absorption process developed by the KIT-Heidelberg team, one photon transfers the molecule to an intermediate state. Then, a second photon transfers the molecule from the intermediate state to the excited state. The molecule in its excited state prompts the chemical reaction needed to print the 3D structure. Unlike two-photon absorption, the photons in the two-step process do not need to be absorbed simultaneously.

The researchers said that under suitable conditions, two-step absorption shows the same quadratic optical nonlinearity as two-photon absorption. The printing process requires specific photoresists. The researchers, in collaboration with chemists, developed a photoresist system. The system is based on a photo-initiator that supports two-step absorption.

Electron microscopic reconstruction of a 3D nanostructure printed with the 2-step absorption process (l) and light microscopy (r). Courtesy of professor Rasmus Schröder, University of Heidelberg, and Vincent Hahn, KIT.
Electron microscopic reconstruction of a 3D nanostructure printed with the two-step absorption process (left) and light microscopy (right). Courtesy of professor Rasmus Schröder, University of Heidelberg, and Vincent Hahn, KIT.
The research team believes that two-step absorption could replace two-photon absorption as a primary optical excitation process. The laser power required for the two-step 3D-printing process is far lower than that required by conventional laser pointers.

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“For the process, compact and low-power continuous-wave laser diodes can be used,” researcher Vincent Hahn said.

Demonstrations showed that the two-step absorption system can be used for printing state-of-the-art 3D nanostructures. In experiments, the team used about 100 μW of optical power from an inexpensive, compact, continuous-wave semiconductor laser diode emitting at 405 nm. Hahn believes that the two-step process works even better than traditional two-photon absorption.

“It is a big difference between using a femtosecond laser as large as a big suitcase for several €10,000 or a semiconductor laser that is as large as a pinhead and costs less than €10,” said Martin Wegener, a professor at KIT and an author of the research paper.

The researchers plan to miniaturize the other components of the 3D laser nanoprinter. “To me, a device that will be as large as a shoebox appears realistic in the next years,” Wegener said. “That would be even smaller than the laser printer on my desktop at KIT.”

The two-step absorption process could spur radical miniaturization — accompanied by a radical cost reduction — of 3D laser nanoprinters, making them affordable to a greater population.

The research was published in Nature Photonics (www.doi.org/10.1038/s41566-021-00906-8).

Published: January 2022
Glossary
nano
An SI prefix meaning one billionth (10-9). Nano can also be used to indicate the study of atoms, molecules and other structures and particles on the nanometer scale. Nano-optics (also referred to as nanophotonics), for example, is the study of how light and light-matter interactions behave on the nanometer scale. See nanophotonics.
additive manufacturing
Additive manufacturing (AM), also known as 3D printing, is a manufacturing process that involves creating three-dimensional objects by adding material layer by layer. This is in contrast to traditional manufacturing methods, which often involve subtracting or forming materials to achieve the desired shape. In additive manufacturing, a digital model of the object is created using computer-aided design (CAD) software, and this digital model is then sliced into thin cross-sectional layers. The...
3d printing
3D printing, also known as additive manufacturing (AM), is a manufacturing process that builds three-dimensional objects layer by layer from a digital model. This technology allows the creation of complex and customized structures that would be challenging or impossible with traditional manufacturing methods. The process typically involves the following key steps: Digital design: A three-dimensional digital model of the object is created using computer-aided design (CAD) software. This...
blue diode laser
A blue diode laser is a type of semiconductor laser that emits light in the blue wavelength range of the electromagnetic spectrum, typically between 400 and 500 nanometers. Diode lasers are compact, efficient, and versatile sources of coherent light, and blue diode lasers specifically have found numerous applications across various fields. blue diode laser suppliers → The operation of a blue diode laser is based on the principles of semiconductor physics. It typically consists of...
photoresist
Photoresist is a light-sensitive material used in photolithography processes, particularly in the fabrication of semiconductor devices, integrated circuits, and microelectromechanical systems (MEMS). It is a crucial component in the patterning of semiconductor wafers during the manufacturing process. The primary function of photoresist is to undergo a chemical or physical change when exposed to light, making it selectively soluble or insoluble in a subsequent development step. The general...
photochemical
The term photochemical pertains to chemical processes or reactions that are initiated or influenced by the absorption of light. Photochemical reactions involve the interaction of light, often in the form of ultraviolet or visible radiation, with molecules, leading to changes in their chemical structure or properties. These reactions are distinct from thermal or non-light-induced chemical reactions. Key characteristics of photochemical reactions include: Light absorption: Photochemical...
photochemistry
The study of chemical reactions stimulated by the properties of light.
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