Customized Strategy and Method Selection

At nanOreg, we take pride not only in our analytical mastery but also in our unwavering commitment to your project's confidentiality. Just as a maestro guides an orchestra with precision and discretion, we meticulously analyze your nanoparticles' quality attributes while safeguarding the complete confidentiality of your molecule's specific makeup. Your secrets are safe with us.
Imagine a partnership where your project's intricacies are explored with the utmost care, where method selection is a delicate interplay between cutting-edge tools and your project's individual needs. Our approach ensures that we extract invaluable insights from your nanoparticles while respecting the unique identity of your formulations.
Welcome to the realm where methodology meets mastery, and the true essence of your nanomedicine takes center stage. With us, you're not just getting an analysis – you're gaining a confidential collaborator dedicated to revealing the finest nuances of your project's potential.

Dynamic Light Scattering (DLS)

Picture the magic of light as it dances upon nanoparticles, revealing their size and dispersion dynamics in a mesmerizing display. DLS (Dynamic Light Scattering), our  method, transcends the limits of the visible to unveil the very essence of your particles, transforming complexity into clarity.  

Size Profiling: Like a skilled artist capturing fine details, our DLS analysis precisely measures the size distribution of your nanoparticles, from the smallest to the largest.

Stability Insights: We delve deep into the behavior of your nanoparticles in different environments, providing critical insights into their stability over time.

Polydispersity Index (PDI): Through PDI determination, we ensure uniformity within your nanoparticle population, guaranteeing consistent performance.

Aggregation Detection: Our DLS method is a vigilant observer, detecting any signs of aggregation that might impact the quality of your nanomedicine.

Transmission Electron Microscopy (TEM)


Imagine a journey into the nano-realm, where vision transcends the limitations of the human eye. Transmission Electron Microscopy (TEM), our powerful tool, opens a portal to the intricate world of nanoparticles, unveiling details with astonishing clarity and precision. 

Atomic-Scale Resolution: Just as an explorer navigates uncharted territories, our TEM provides atomic-scale insights, revealing the most intricate structural details of your nanoparticles.

Morphology Revelation: Like an artist capturing the essence of a subject, TEM captures the true morphology of your nanoparticles, portraying their shapes, facets, and arrangements.

Defect Identification: With TEM, even the smallest defects or irregularities within your nanoparticles are brought to light, enabling targeted refinement.

Crystalline Insights: We peer into the crystalline structure of your particles, unraveling their crystallographic secrets for improved performance.

Zeta Potential Analysis

Envision a world where electric forces shape the destiny of nanoparticles, unveiling their stability and interactions in electrifying detail. Zeta Potential Analysis, our dynamic technique, captures the electric essence of your particles, transforming complex charges into actionable insights. 

Electrostatic Clarity: Like a translator decoding a foreign language, Zeta Potential Analysis elucidates the electrostatic forces governing your nanoparticles, providing clarity on their stability.

Surface Charge Understanding: We dive deep into the surface charge of your particles, revealing how they interact with their environment and potential partners.

Colloidal Stability: Just as a conductor keeps an orchestra in harmony, Zeta Potential Analysis ensures the stability of your nanoparticle dispersions, preventing unwanted agglomeration.

pH and Ionic Strength Effects: With precision, we explore how changing pH and ionic strength impact your particles' surface charge, enabling strategic adjustments for optimal performance.

Asymmetrical Flow Field-Flow Fractionation (AF4)

Imagine a fluidic dance that separates nanoparticles based on size and shape, revealing their hidden intricacies. Asymmetrical Flow Field-Flow Fractionation (AF4), our avant-garde technique, unravels the diversity within your particle population, transforming complexity into clarity. 

Size and Shape Separation: Like a choreographer guiding dancers in perfect harmony, AF4 separates nanoparticles based on size, shape, and surface properties, allowing us to explore their unique characteristics.

Polydispersity Analysis: We delve into the polydispersity of your particles, assessing variations within the population to ensure consistent quality.

Molecular Weight Insights: AF4's finesse extends to unraveling the molecular weight distribution of your nanoparticles, providing insights into their composition.

Aggregation Detection: Just as an attentive observer notes every move, AF4 detects aggregation tendencies within your particle samples, ensuring stability.
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