From classical optics to quantum electronics: A researcher’s journey inspired by thermal scanning probe lithography. Interview with Dr. Nolan Lassaline from TU Denmark.
The NanoFrazor offers a unique patterning solution, combining t-SPL and laser mix and match lithography.
Thermal scanning probe lithography enabled by NanoFrazor helps to fabricate devices with superior performance due to its damage-free patterning principle.
Engineered nanotopography induces tensile strain in MoS2 FETs, significantly enhancing carrier mobility and on-state current, promising advancements for 2D material-based electronics.
Chemical conversion using a thermal scanning probe can be used to make biosensors with advanced architecture and tailor surface chemistry to create nanostructures.
The NanoFrazor takes nanofabrication to the next level. Building on decades of research and development, the NanoFrazor brings thermal scanning probe lithography (t-SPL) into your
A novel method for fabricating a hybrid device that integrates light-triggered proton pumps into a network of nanochannels for applications in directed ion transport.
Nanoironing van der Waals heterostructures enhances interface quality, significantly improving electrical performance and enabling controlled quantum dot formation for advanced quantum technologies.
This review discusses and compares different lithographic techniques for fabricating SERS substrates, highlighting their strengths and limitations, and explores their potential for commercial applications.
The effects of incorporating a base quencher into a poly(phthalaldehyde-co-propanal) photoresist to enhance the performance of dry-develop resist in a direct-write UV lithography tool.
Explore the challenges and solutions in achieving deep grayscale lithography (>100 µm) for advanced microfabrication. Learn about resist limitations, mask requirements, and the advantages of direct laser writing.
Discover how the VPG+ 1400 FPD revolutionizes flat panel display fabrication with high-speed, sub-micron resolution photomask writing. Designed for OLED, micro-LED, and quantum dot displays, it delivers unmatched precision, scalability, and throughput for next-generation FPD manufacturing.
Sustainable microfabrication is the future. Explore how Heidelberg Instruments’ advanced lithography solutions reduce waste, energy use, and chemical consumption.
The close of 2024 marked a unique chapter in Heidelberg Instruments’ history. For the first time in our 40 years,
On December 3 and 4, Heidelberg Instruments hosted the project meeting of the EU-funded FABulous initiative at its Würzburg location.
Heidelberg Instruments has secured two major orders for its VPG+ 1400 FPD Volume Pattern Generator from leading photomask manufacturers in Asia.
In the fast-evolving world of nanoscience, pioneering breakthroughs often come from curiosity-driven exploration. Dr. Nolan Lassaline, a postdoctoral fellow at
The fabrication of refractive micro-lenses is crucial for advanced photonics applications like telecommunications, optical tweezers, and electromagnetic wave manipulation. In
Zurich, Switzerland/Heidelberg, Germany — Heidelberg Instruments proudly announces the launch of its new NanoFrazor nanolithography system, advancing decades of expertise
Heidelberg, Germany — Heidelberg Instruments, a world-leading provider of advanced laser lithography systems, is pleased to announce a continued stream
