Your tailored surface solutions

Nanostructuring for Surface Functionalization

Feasibility &
Prototyping

At nanoshape, we are committed to transforming innovative ideas into practical solutions through in-depth feasibility studies and precision prototype development. We understand that every project is unique, which is why we work closely with you to assess the technical, economic, and practical viability of new surface treatments and manufacturing processes. Our feasibility studies offer a detailed analysis of potential challenges, opportunities, and cost considerations, helping you make informed decisions early in the development process.

Pre-series process
development

At nanoshape, we bridge the gap between prototypes and full-scale production through meticulous pre-series development. This critical phase allows you to test your product under real-world conditions before committing to mass production, minimizing risks and ensuring the final design is optimized for performance, cost-efficiency, and manufacturability.
Our pre-series development process focuses on refining every detail, from material selection and surface treatment processes to assembly techniques and quality control.

At nanoshape, we specialize in ensuring that your innovations seamlessly transition from the laboratory or prototype phase to full-scale production. Our expertise in technology transfer and scale-up is designed to help you bring cutting-edge solutions to life, efficiently and reliably. We work closely with you to transfer technology, knowledge, and processes, ensuring that the scaling process is smooth and effective. Our team carefully assesses the production environment, optimizes workflows, and ensures that all processes are adapted to meet the specific demands of larger-scale

Technology transfer
& scale-up

At nanoshape, we are committed to transforming innovative ideas into practical solutions through in-depth feasibility studies and precision prototype development. We understand that every project is unique, which is why we work closely with you to assess the technical, economic, and practical viability of new surface treatments and manufacturing processes. Our feasibility studies offer a detailed analysis of potential challenges, opportunities, and cost considerations, helping you make informed decisions early in the development process. Once the feasibility is established, we move seamlessly into prototype development, where we create tangible, functional models that are rigorously tested to ensure they meet your specific requirements.
By combining advanced technology with industry expertise, we ensure that your prototypes are not just concepts but refined solutions ready for production. Whether you’re refining an existing design or pushing the boundaries of innovation, our team is here to help you navigate every stage of the development journey with confidence and precision.

Surface Treatment

Etching

Titanium Anodization

Sand Blasting

Laser Marking

Titanium anodization is an electrochemical process that modifies the surface of titanium by increasing the thickness of its natural oxide layer. Unlike traditional painting or coating methods, anodization creates interference-based colors without using any dyes or pigments. The resulting hues—from gold and blue to green, purple, and more—are produced purely by light refraction through the oxide layer, which varies in thickness depending on the applied voltage. This process is highly valued not only for its striking aesthetic effects but also for its functional benefits.

Titanium etching is a process used to modify the surface of titanium by selectively removing material through chemical, electrochemical, or laser-based methods. The purpose of etching is to create intricate patterns, textures, or designs on the titanium surface, enhancing both its aesthetic appeal and functionality. Etching is widely used in various industries, including electronics, medical devices, aerospace, and even jewelry design.

Sand blasting is a widely used method for cleaning, preparing, and texturing titanium surfaces. The process involves propelling fine particles of abrasive material, typically sand, at high velocity against the surface of the titanium to remove impurities, oxides, or old coatings and create a desired texture or finish. Sand blasting is an effective technique for both industrial applications and aesthetic purposes, providing a range of surface profiles that can enhance the material’s appearance and performance.

Laser marking is an advanced and highly precise technique used to create permanent markings, logos, text, or intricate patterns on the surface of titanium. By using focused laser beams to interact with the titanium surface, this method offers unparalleled accuracy and the ability to produce high-contrast, durable markings without the need for inks, dyes, or contact-based methods.

Titanium anodization is an electrochemical process that modifies the surface of titanium by increasing the thickness of its natural oxide layer. Unlike traditional painting or coating methods, anodization creates interference-based colors without using any dyes or pigments. The resulting hues—from gold and blue to green, purple, and more—are produced purely by light refraction through the oxide layer, which varies in thickness depending on the applied voltage. This process is highly valued not only for its striking aesthetic effects but also for its functional benefits. The resulting hues—from gold and blue to green, purple, and more—are produced purely by light refraction through the oxide layer, which varies in thickness depending on the applied voltage. This process is highly valued not only for its striking aesthetic effects but also for its functional benefits.

At nanoshape, we offer specialized biological analysis services to assess the microbiological properties of materials and surfaces. Our bacterial testing focuses on evaluating the interaction of materials with microbial organisms, ensuring that your products meet the highest standards of hygiene, biocompatibility, and durability. Using advanced methods, we conduct thorough investigations to detect bacterial growth, adhesion, and biofilm formation on various surfaces. Our team utilizes techniques such as colony counting, microbial culturing, and surface sampling

Additional Services

At nanoshape, we offer advanced surface and material characterization services to provide deep insights into the structure, properties, and performance of your materials. Using state-of-the-art techniques such as Metallography, Scanning Electron Microscopy (SEM), Atomic Force Microscopy (AFM), and more, we can analyze microstructures, surface topography, and material behavior at various scales. These powerful tools allow us to identify surface defects, evaluate coating quality, study wear patterns, and assess material properties under different conditions.

Surface/Material
characterization

Biological
analysis

At nanoshape, we offer specialized biological analysis services to assess the microbiological properties of materials and surfaces. Our bacterial testing focuses on evaluating the interaction of materials with microbial organisms, ensuring that your products meet the highest standards of hygiene, biocompatibility, and durability. Using advanced methods, we conduct thorough investigations to detect bacterial growth, adhesion, and biofilm formation on various surfaces. Our team utilizes techniques such as colony counting, microbial culturing, and su

Scientific
Services

At nanoshape, we offer advanced surface and material characterization services to provide deep insights into the structure, properties, and performance of your materials. Using state-of-the-art techniques such as Metallography, Scanning Electron Microscopy (SEM), Atomic Force Microscopy (AFM), and more, we can analyze microstructures, surface topography, and material behavior at various scales. These powerful tools allow us to identify surface defects, evaluate coating quality, study wear patterns, and assess material properties under different conditions. Whether you need to optimize your manufacturing process, troubleshoot material performance issues, or ensure quality control, our comprehensive analysis helps you make data-driven decisions for enhanced product development and reliability.

Interested in one of our solutions?

Reach out and let us find a way to work together!