Can XPS quantify transition metal dissolution in aged battery cathodes?

Yes. XPS of aged graphite anode surfaces detects Ni, Mn, and Co deposited from cathode dissolution — identifying transition metal contamination of the anode SEI as a capacity fade mechanism. The binding energy of deposited transition metals (metallic vs. oxide vs. fluoride species) reveals the speciation of dissolved cathode material after transport through the electrolyte and reduction at the anode.

How does XPS support solid-state battery development?

Solid-state batteries using inorganic ceramic (LLZO, LIPON) or sulfide glass electrolytes develop critical interphases at both electrode-electrolyte contacts. XPS characterizes chemical reactions at Li-metal/LLZO interfaces (Li₂O, Li₃N formation), sulfide electrolyte decomposition products at cathode interfaces, and the effect of interface engineering layers (Al₂O₃, LiNbO₃ coatings) on interphase chemistry and impedance.

What XPS peaks are most informative for SEI characterization?

C 1s distinguishes carbonyl/carbonate species (289–291 eV) from C-C/C-H (285 eV) and C-O (286–287 eV). F 1s separates LiF (685 eV) from PVDF binder (688 eV). Li 1s and O 1s provide complementary information on inorganic SEI components (Li₂O, Li₂CO₃, LiOH). The relative intensities and binding energy positions of these peaks fingerprint SEI composition and evolution with cycling.

How does XPS distinguish between different lithium compounds in the SEI?

Binding energy shifts in Li 1s and the corresponding anion core-level spectra distinguish Li₂CO₃ (Li 1s ~55.5 eV; C 1s ~290 eV), LiF (Li 1s ~56.6 eV; F 1s ~685 eV), Li₂O (Li 1s ~54.7 eV; O 1s ~528 eV), and LiOH (Li 1s ~55.0 eV; O 1s ~531 eV). Quantitative peak fitting deconvolutes overlapping contributions from multiple Li compounds simultaneously present in the SEI.

What is the advantage of cryo-XPS for battery analysis?

Cryo-XPS transfers cycled electrodes from an inert atmosphere glovebox to the XPS analysis chamber at cryogenic temperature (-100°C to -120°C) — preventing SEI component evaporation, air oxidation, and beam-induced decomposition of sensitive organics during analysis. This preserves the native SEI chemistry that would be altered by room-temperature air transfer conventional XPS sample handling.

Metrology Testing Laboratory Services

Infinita Lab provides comprehensive metrology testing services to ensure precision and reliability across industries including aerospace, automotive, and electronics. Our partner laboratories use advanced microscopy, spectroscopy, and analytical techniques to characterize materials from nanoscale to macro levels. Services include atomic-scale microscopy, surface analysis, FTIR, Raman, XRF, OES, SIMS, GD-MS, ICP-MS, ICP-OES, LIBS, XRD, EXAFS, XPS, XRR, and thermal/mechanical testing. These tests detect defects, verify composition, assess microstructure, and evaluate performance under stress. By combining standardized methodologies with expert analysis, Infinita Lab delivers accurate, actionable insights for quality control, and product optimization.

TRUSTED BY ENGINEERS FROM

Metrology Testing Laboratory Services

Introduction to Metrology Testing Laboratory Services

Metrology testing plays a critical role in ensuring precision, reliability, and compliance across industries ranging from aerospace and automotive to electronics, pharmaceuticals, and consumer products. At Infinita Lab, we provide comprehensive metrology testing services through our network of partner laboratories, utilizing advanced microscopy, spectroscopy, and analytical techniques to characterize materials from the nanoscale to the meter scale. Our solutions help manufacturers and researchers optimize product performance and verify material quality.

Importance of Metrology Testing

Metrology testing delivers essential information about a material’s composition, microstructure, chemical and physical properties, and performance. These insights help organizations:

Ensure consistency and accuracy in manufacturing and product development
Detect defects, contamination, or impurities in raw materials and finished products
Support quality control, failure analysis, and product optimization

Accurate metrology testing reduces risks, improves reliability, and enhances the overall safety and performance of materials and products.

Metrology Testing Services Offered

Infinita Lab provides a wide range of metrology testing services, tailored to meet the diverse needs of different industries. Using standardized and validated methodologies, our laboratories deliver reliable, precise, and actionable results.

Microscopy and Imaging

Atomic-scale Microscopy –Atomic-scale microscopy provides ultra-high-resolution imaging to examine the structure and surface features of materials at the nanometer level. This technique is essential for identifying microstructural defects, inclusions, voids, or dislocations that could affect material performance. It is widely used in advanced electronics, semiconductors, coatings, and nanomaterials research, helping ensure reliability and precision in critical applications.
Surface Analysis and Packaging Inspection – Surface analysis techniques, including profilometry, scanning acoustic microscopy (SAM), and 3D X-ray imaging, allow detailed evaluation of surface topography, coating uniformity, and packaging integrity. These analyses detect irregularities, voids, delamination, or mechanical damage that could compromise functionality or product life, making them essential for quality control in manufacturing, medical devices, and packaged goods.

Spectroscopy and Chemical Analysis

FTIR, Raman, XRF, and OES – These spectroscopic techniques enable detailed chemical composition analysis of materials. FTIR and Raman provide molecular and chemical bond information, while XRF and OES determine elemental content. Together, they help verify material purity, detect contaminants, and ensure that alloys, polymers, or coatings meet industry standards and design specifications.
Secondary Ion Mass Spectrometry (SIMS) – SIMS performs highly sensitive elemental and isotopic analysis, capable of detecting trace elements at parts-per-billion levels. It is particularly useful for materials requiring extreme purity, such as semiconductors, aerospace alloys, and advanced ceramics. SIMS analysis helps manufacturers identify impurities, optimize material synthesis, and prevent performance failures.
GD-MS, ICP-MS, ICP-OES, and LIBS – These advanced analytical techniques are used for trace element detection, compositional verification, and impurity quantification. GD-MS provides high-sensitivity analysis for metals, while ICP-MS and ICP-OES measure elements in liquids or solutions. LIBS allows rapid, in-situ elemental profiling. Collectively, they ensure chemical compliance and quality control across critical industries.

Materials Characterization

XRD, EXAFS, XPS, and XRR – These techniques provide comprehensive insights into microstructural, crystallographic, and surface chemistry properties. X-ray diffraction (XRD) determines crystal structure and phase composition, EXAFS analyzes local atomic environments, XPS measures surface elemental composition and chemical states, and XRR evaluates film thickness and density. These analyses are vital for material development, R&D, and quality assurance.
Thermal and Mechanical Testing – Thermal and mechanical tests evaluate material performance under operational and environmental stresses, including temperature changes, pressure, load, and fatigue. They provide critical information on tensile strength, hardness, elasticity, thermal expansion, and heat resistance. Such testing ensures that materials can withstand real-world conditions and meet safety, durability, and design requirements.

Why Choose Infinita Lab for Metrology Testing Services?

Infinita Lab is a leading provider of Metrology Testing Services and streamlined material testing services, addressing the critical challenges faced by emerging businesses and established enterprises. With access to a vast network of over 2,000+ accredited partner labs across the United States, Infinita Lab ensures rapid, accurate, and cost-effective testing solutions. The company’s unique value proposition includes comprehensive project management, confidentiality assurance, and seamless communication through a Single Point of Contact (SPOC) model. By eliminating inefficiencies in traditional material testing workflows, Infinita Lab accelerates research and development (R&D) processes.

Looking for a trusted partner to achieve your research goals? Schedule a meeting with us, send us a request, or call us at (888) 878-3090 to learn more about our services and how we can support you. Request a Quote

Essential FAQs on Metrology Testing Service Materials Testing Services

Where can I get metrology testing services?

Our network of material testing labs, spread across the USA, provides metrology testing services for precise measurement of chemical, physical and mechanical properties of samples. Infinita Lab team will be happy to assist you with your metrology testing requirements.

How much do metrology services cost?

Metrology services cover a variety of microscopy and spectroscopy tools for precise measurements, from the nano to the meter scale. Please contact us for a detailed quote based on your testing needs.

What are the uses of metrology testing services?

Metrology testing is the measurement of the characteristics and behavior of materials. Metrology services are used for measuring a material’s composition, microstructure, performance, and chemical and physical properties.

What is included in metrology services?

Metrology testing includes any test which provides precise measurement of material’s properties and behaviors. It includes tests for chemical analysis, failure analysis, microstructure analysis, purity measurement, thermal testing, mechanical testing.

3 Easy Steps to Start Testing

Share Your Testing Material Details with Us

Hassle-Free Collection Pick-Up Service

We Find the Lab, You Get the Results

High-Resolution XPS in Battery Research: Applications & Surface Analysis Characterization Techniques for Thin Film Organic Coatings: Methods & Metrology GI-SAXS (Grazing Incidence Small Angle X-Ray Scattering) Testing Confocal Microscopy Testing & Surface Characterization Services 4D-STEM Testing for Nanoscale Strain & Electric Field Mapping µXANES (Micro X-Ray Absorption Near Edge Spectroscopy) Testing Powder X-Ray Diffraction (PXRD): Crystalline Material Analysis & Phase Identification Time-Domain Reflectometry (TDR) Testing for Cable & Signal Integrity Field Emission SEM (FE-SEM) High-Resolution Surface Imaging Testing Combustion Ion Chromatography (CIC): Principle, Applications & Analytical Uses Semiconductor Test Equipment: A Comprehensive Overview of Tools & Methods Semiconductor Testing Process: Complete Guide from Wafer to Package Differential Scanning Calorimetry (DSC) Testing Service Gas Adsorption for Surface Area (BET) and Pore Size Analysis (BJH) High-Resolution Mass Spectrometry (HRMS) Testing for Exact Mass & Molecular Formula TEM Data Analysis: Techniques, Diffraction & Elemental Mapping Dial Indicators & Gauges: Types, Working Principle & Metrology Guide Hole Basis System And Shaft Basis System Generative AI in Chip Design: Breakthroughs, Applications & Testing Implications Key Trends Shaping the Semiconductor Industry: Technology & Testing Digital Thermometer Working Principle & Calibration: Complete Guide Residual Stresses in Metals: Causes, Effects & Measurement Methods Bond Pad Analysis: Failure Modes, Testing Methods & Elemental Characterization Oxidation State Analysis Testing for Materials & Compounds Inorganic Multilayer Systems: Characterization, Defects & Testing Methods Energy Dispersive X-Ray Spectroscopy (EDS/EDX) Raman Spectroscopy Thermogravimetric Analysis (TGA) Testing Services What Is Surface Analysis? Techniques, Methods & Applications X-ray Powder Diffraction (XRD) X-Ray Diffraction (XRD) What Is a Coating Thickness Gauge? Types, Methods & How to Use One XPS Advantages & Disadvantages: Is X-Ray Photoelectron Spectroscopy Right for You? XPS (X-Ray Photoelectron Spectroscopy) Testing for Surface Chemistry X-Ray Fluorescence (XRF) and its Applications IC Failure Analysis Using High-Resolution X-Ray: Technique & Applications Auger Electron Spectroscopy (AES): Analyzing Surface Chemistry and Defects Auger Electron Spectroscopy (AES) Uses: Surface Analysis & Material Applications Brinell Hardness Testing: How to Calculate HBW & Procedure Guide Microelectronics X-Ray Imaging: Seeing Through to the Root Cause of Failure FTIR Services In The Electronics Failure Analysis Lab Surface Plates Flatness Testing Techniques What is Johansson Mikrokator? How Many Types of Multicheck Comparators Are Available, and What Do They Do? Measurement Systems Analysis (MSA): Methods, Standards & Gage R&R What is Metrology and Calibration Tolerance Classification in Metrology: IT Grades, Fits & Dimensional Standards Pressure Calibration: Methods, Standards & Traceable Measurement Services Calibration & Its Importance: Why Accurate Measurements Matter Maintaining Ring Gauges: Calibration, Care & Measurement Accuracy Pressure Gauges: Types, Importance & Accuracy Testing Standards The Rise of the Micro-Inch Revolution Eliminating Human Error in Brinell Hardness Tests with Automated Tools Taber Abrasion Tester and Abrasion Test Technique for Quality Control Calibrating a Universal Testing Machine (UTM): Essential Factors & Standards Flatness Measurement in Metrology: Methods, Standards & Applications AI Suited to Industrial Inspection GD&T Surface Plate Calibration Oven Calibration Services: Temperature Uniformity, Traceable Standards & Methods Hardness Tester Calibration Services – Vickers, Rockwell & Brinell Humidity Sensor & Instrument Calibration Services Flow Meter Calibration Services – Gas & Liquid Flow Instruments Vacuum Calibration: Methods, Standards & Traceable Measurement Guide Mass Calibration Services: Standards, Traceability & ASTM E617 Methods Temperature Calibration Services: Thermocouples, RTDs & NIST-Traceable Standards Electrical Calibration Torque Calibration: Methods, Standards & Traceability Guide Force Calibration Dimensional Calibration Services Acoustic Resonance Testing (ART) for Non-Destructive Material Evaluation Micro-Raman Spectroscopy Testing for Molecular Identification & Stress Analysis EBSD Crystallographic Texture & Grain Orientation Testing Focused Ion Beam SEM (FIB-SEM) Nuclear Magnetic Resonance (NMR) Spectroscopy Testing Services ICP-MS & ICP-OES Elemental Analysis Testing Services Real-Time X-Ray Inspection & Imaging Analysis Services X-ray Fluorescence Spectrometry (XRF) FTIR Spectroscopy Testing Services for Material Identification X-ray Fluorescence Spectrometry (XRF) Cryo-FIB Testing for Frozen Hydrated Sample Cross-Sectioning RBS & XRF Thin Film Analysis Testing ASTM E967 Temperature Calibration Testing for DSC & DTA Instruments ASTM E915 XRD Instrument Alignment Verification for Residual Stress Measurement Chromatography Testing Services: GC, HPLC & Ion Chromatography Analysis HR-XPS (High-Resolution X-Ray Photoelectron Spectroscopy) Testing Acoustic Micro Imaging (AMI): SAM vs SAT — Differences & Applications Optical Interferometry Testing for Surface & Thin Film Measurement Optical Interferometry & Profilometry Testing for Surface Metrology Scanning Electron Microscopy (SEM) ICP-OES (Inductively Coupled Plasma Optical Emission Spectroscopy) Testing Differential Scanning Calorimetry (DSC) Testing Services Electrical Testing Laboratories: Capabilities, Standards & What to Look For Thermal Resistance Testing & Measurement Services Dynamic Mechanical Analysis (DMA) Testing and Measurement Services Thermal Effusivity Testing & Measurement Services High-Pressure Calorimetry Testing & Measurement Services High-Pressure Thermal Conductivity Testing & Measurement Services How can thermomechanical Analysis (TMA) identify the dimensional changes of a material? Thermal Analysis & Calorimetry Testing Services Specific Heat Capacity (Cp) Testing & Measurement Services Thermal Conductivity Testing and Measurement Services ASTM E452 Refractory Metal Thermocouple Calibration by Radiation Thermometer ASTM D446 Glass Capillary Kinematic Viscometer Specification & Calibration Testing ASTM E898 Laboratory Scale & Balance Testing & Calibration Residual Stress: Types, Origins & Measurement Methods Explained ASTM E1270 Equal-Arm Balance Testing & Calibration ASTM E1258 Airflow Calibration Testing for Fan Pressurization Devices ASTM E1256 Radiation Thermometer Testing & Calibration – Single Waveband ASTM E1458 Calibration Verification for Laser Diffraction Instruments ASTM E1363 Temperature Calibration Testing for Thermomechanical Analyzers (TMA) ASTM E1362 Calibration Testing for Non-Concentrator PV Secondary Reference Cells ISO/IEC 17025 Accredited Testing Laboratory Services LC-MS/MS (Liquid Chromatography-Tandem Mass Spectrometry) Testing Services UV-Vis-NIR Spectroscopy Testing Services ASTM D6132 Dry Film Thickness Testing for Coatings by Ultrasonic Gauge Micro-FTIR Spectroscopy Testing for Microscale Material Identification Liquid Chromatography (HPLC/LC) Testing Services Spectrophotometry Testing Services for Color, Transmittance & Reflectance Automotive VOC Testing for Interior Components & Materials Temperature & Humidity Control in Laboratories: Standards & Best Practices Gas Chromatography (GC) Analysis Lab Optical Emission Spectroscopy (OES) Testing Laboratory Services Gas Chromatography (GC) Analysis Services Scanning Acoustic Tomography (SAT) Testing for Internal Defect Detection ASTM E1787 Sheathed Thermocouple Calibration Testing ASTM E1782 Thermocouple EMF-Temperature Table Verification Testing Rheometry Testing Guide – Viscosity, Viscoelasticity & Flow Behavior Spectral Ellipsometry (SE) ISO/IEC 17025 Accreditation Guide for Testing Laboratories XRR (X-Ray Reflectivity) Testing for Thin Film Thickness & Density Viscosity TXRF Surface Trace Metal Contamination Testing Services ToF-SIMS Surface Chemical Analysis Testing Thin-Layer Chromatography (TLC) Testing Services Titrimetry (Titration) Testing: Types, Methods & Analytical Applications TG-EGA (Thermogravimetry with Evolved Gas Analysis) Testing Services Tensiometry Testing: Surface & Interfacial Tension Measurement Methods Real-Time X-Ray (RTX) Inspection Testing for Electronics & Components Scanning Electron Microscopy – Cathodoluminescence (SEM-CL) Residual Gas Analysis (RGA) Testing for Vacuum & Sealed Component Outgassing Refractometry & Refractive Index Testing Services Raman Spectroscopy Testing Services for Material Identification Pyrolysis GC-MS Testing for Polymer Identification & Characterization Nuclear Reaction Analysis (NRA) for Light Element Depth Profiling NMR Spectroscopy Testing for Molecular Structure & Polymer Analysis Nanoindentation Testing for Nano-Mechanical Properties of Materials MALDI-TOF Mass Spectrometry: Principles, Applications & Guide LIBS (Laser Induced Breakdown Spectroscopy) Testing for Rapid Elemental Analysis Laser Diffraction Particle Size Testing for Powders & Suspensions ASTM E824 Thermocouple Transfer Calibration Testing ASTM E816 Pyrheliometer Calibration for Solar Radiation Testing ASTM E806 High-Temperature Thermocouple Performance Testing ASTM E738 Radioactive Cobalt Isotope Calibration Testing ASTM E220 Thermocouple Calibration Testing by Comparison Techniques ASTM E181 Detector Calibration & Radionuclide Analysis Testing ASTM E126 Hydrometer Inspection, Calibration & Verification Testing ASTM E77 Thermometer Inspection & Verification Testing ASTM D7811 Bow & Skew Measurement Testing for Woven Fabrics ASTM E2903 Effective Focal Spot Size Testing for Micro-Focus X-Ray Tubes ASTM E2861 Laser Beam Divergence & Alignment Testing Air Jet Sieve Particle Size Analysis Testing Atom Probe Tomography (APT) Testing for Atomic-Scale Material Analysis Auger Electron Spectroscopy (AES) Surface Analysis Testing Colorimetry in Material Analysis: Science, Instrumentation, and Metrology Applications Cryo-TEM (Cryogenic Transmission Electron Microscopy) Testing Services Differential Hall Effect Metrology (DHEM) for Semiconductor Dopant Profiling Dilatometry Testing: Thermal Expansion Measurement & Material Characterization Dynamic Mechanical Analysis (DMA) Destructive Physical Analysis (DPA): Method, Standards & Electronic Component Testing Dual-Beam FIB-SEM Testing for Nanoscale Cross-Section & Analysis Electron Beam Induced Current (EBIC) Testing for Semiconductor Defects EBSD Crystallographic Texture & Grain Orientation Mapping EELS (Electron Energy Loss Spectroscopy) Testing for Elemental & Electronic Structure Electrochemical Analysis ICP-OES Multi-Element Chemical Analysis Testing Services Ellipsometry Testing for Thin Film Thickness & Optical Properties Emissivity Testing Services for Materials & Coatings GC-MS Chemical Identification & Quantification Testing Services GC-MS/MS Tandem Mass Spectrometry Testing Services Glow Discharge Mass Spectrometry (GDMS) Testing for Ultra-Trace Analysis Gel Permeation Chromatography (GPC) LA-ICP-MS (Laser Ablation ICP-MS) Testing for Solid Sample Analysis Hydrogen Forward Scattering Spectrometry (HFS) Testing for H Depth Profiling High Performance Liquid Chromatography (HPLC) Ion Chromatography (IC) Testing Services for Ionic Analysis Instrumental Gas Analysis (IGA) Testing for C, S, N, O, H in Materials ICP-OES Testing Services for Multi-Element Chemical Analysis AFM Nano-Scale Roughness Measurement Guide for Silicon Wafers GC-MS (Gas Chromatography-Mass Spectrometry) Testing Services Atomic Force Microscopy (AFM) Testing & Surface Characterization ICP-MS (Inductively Coupled Plasma Mass Spectrometry) Testing Services Optical Profilometry Testing for Surface Texture & Roughness Unveiling the Elemental Fingerprint of Particle Induced X-Ray Emission (PIXE) X-Ray Diffraction (XRD) Testing for Phase ID & Crystal Structure Analysis XRF, X-Ray Fluorescence Spectroscopy X-ray Photoelectron Spectroscopy – XPS EDS (Energy Dispersive X-Ray Spectroscopy) Elemental Analysis Testing FTIR Spectroscopy Testing Services for Material Identification Rutherford Backscattering Spectrometry (RBS): Thin Film Composition & Depth Profiling Scanning Acoustic Microscopy (SAM) Non-Destructive Testing Scanning Electron Microscopy (SEM) Guide – Applications, EDS & Analysis SIMS (Secondary Ion Mass Spectrometry) Testing for Depth Profiling & Trace Analysis Transmission Electron Microscopy (TEM) Analysis Services

Read Our Blogs and Research Papers

Sandwich Construction Core Shear Properties

Sandwich Construction Core Shear Properties

Sandwich Construction Core Shear Properties Sandwich construction is a popular method of building structures where a lightweight core material is...

Read Article

ISO 5173 Weld Bend Testing Services for Metal Joints

ISO 5173 Weld Bend Testing Services for Metal Joints

BS EN ISO 5173 The standard provides guidelines for determining the appropriate welding parameters for different thicknesses and types of...

Read Article

Top 20 Additive Manufacturing Testing Methods

Aerospace aluminum alloy panels after salt spray corrosion test showing coating protection

Top 20 Additive Manufacturing Testing Methods

Top 20 Additive Manufacturing Testing Methods Additive manufacturing (AM) is defined as a process of combining materials to produce items...

Read Article

Where Quality Meets Trust

New Benchmarks in Quality Standards

Empowering you to recognize and address inherent risks within your operations, supply chains, and quality management systems

Advanced Testing Services

Assessing the alignment of your products and services with, and their surpassing of, quality, safety, sustainability, and performance benchmarks.

100% Inspection Guarantee

Confirming the specifications, worth, and safety of your raw materials, products, and assets.

Certification

Officially verifying that your products and services adhere to both established external and internal standards.

Meet our Team

Best Industry Experts to Help You

Expert in optics, materials engineering, and physical sciences. Ph.D. in Materials Science with specialization in glasses and thin films for electronic and photonic applications.

Pradyumna Gupta PhD, MBA

Seasoned engineering leader specializing in materials engineering with a focused background in semiconductor capital equipment hardware and process development. Subject matter expertise across multiple disciplines, including thin film fabrication by PVD, CVD, ALD, and plasma etching processes.

Vinay Vidyarthi PhD

Multidisciplinary experience in semiconductor processes, capital equipment design, factory automation, and software and controls development. M.S. in Mechanical Engineering, specializing in robotics and automation.

Dhairya Srivastava MBA

Experience in hardware design, cost optimization, and high-volume manufacturing operations. Ph.D. in Electrical and Computer Engineering with a minor in Industrial Engineering.

Rana Pratap PhD

Expert in computational modeling, data sciences, and neural networks. Gautam holds a Ph.D. in Chemical Engineering with a specialization in process analysis and control.

Gautam Kumar PhD

Specialization in semiconductor and battery materials, melt processes, and gas/glass chemical interactions. Keisha holds a Ph.D. in Materials Science and Engineering.

Keisha Antoine PhD

Expert in mechanics of soft materials, adhesion, multiphase flow through micro and nanochannels, membrane-less fuel cell. He holds a Ph.D. in Chemical Engineering.

Animangsu Ghatak PhD

Experience in processing of oxide ceramics, fuel cell, and other specialty materials. Sabyasachi earned his Master's in Materials Science with a specialization in Ceramic Processing Technologies.

Sabyasachi Roy

Expert in a variety of fields, including thin film deposition, coating, material characterization, surface engineering, surface modification, and rheology. Ph.D. in Chemical Engineering.

Srinivas Mettu PhD

Experience in batteries, semiconductors, thin-films, advanced ceramics using X-Ray spectroscopy, electron microscopy, thermal and optical methods. Ph.D. in Materials Science, specialization in Nanomaterials.

Shantanu Behera PhD

Show All Experts

Talk to Our Experts Today!

Submit your contact info and we’ll get back to you within 24 hours