{"id":676,"date":"2026-06-16T12:19:41","date_gmt":"2026-06-16T03:19:41","guid":{"rendered":"https:\/\/www.ulvac-phi.com\/surface-analysis\/xps\/"},"modified":"2026-07-09T15:14:49","modified_gmt":"2026-07-09T06:14:49","slug":"xps","status":"publish","type":"page","link":"https:\/\/www.ulvac-phi.com\/en\/surface-analysis\/xps\/","title":{"rendered":"What is XPS?"},"content":{"rendered":"\n<article class=\"p-surfaceArticle\">\n    <div class=\"p-surfaceArticle__inner\">\n\n        <div class=\"p-surfaceArtHead\">\n            <h2 class=\"p-surfaceArtHead__title\">What is XPS?<\/h2>\n        <\/div>\n\n        <div class=\"p-surfaceArtBody\">\n\n            <h3 id=\"principle\">Principle<\/h3>\n            <p>X-ray Photoelectron Spectroscopy (XPS) or Electron Spectroscopy for Chemical Analysis (ESCA) is a technique which analyzes the elements constituting the sample surface, its composition, and chemical bonding state by irradiating x-rays on the sample surface, and measuring the kinetic energy of the photoelectrons emitted from the sample surface. XPS instrument using Al K\u03b1 rays can generally obtain information on elements within a few nms of the sample surface.<\/p>\n            <p>Additionally, the change in bond energy (chemical shift) caused by the electron state surrounding the atoms to be analyzed, such as atomic valence charges and interatomic distances, tend to be greater than the chemical shift observed in AES, which makes the relative ease with which the state of chemical bonds can be identified another advantage of XPS.<\/p>\n            <div class=\"p-surfaceArtBody__figGrid is-two\">\n                <div class=\"p-surfaceArtBody__figGridImg\">\n                    <img decoding=\"async\" src=\"\/wp-content\/themes\/ulvac-phi\/assets\/img\/page\/xps\/pg_xps_principle-energy.jpg\" alt=\"Energy level diagram illustrating the principles of XPS (inner-shell electrons are emitted as photoelectrons upon X-ray photon irradiation, and the binding energy is measured)\" width=\"720\" height=\"698\" loading=\"lazy\" \/>\n                <\/div>\n                <div class=\"p-surfaceArtBody__figGridImg\">\n                    <img decoding=\"async\" src=\"\/wp-content\/themes\/ulvac-phi\/assets\/img\/page\/xps\/pg_xps_widespectrum.jpg\" alt=\"XPS wide spectrum (horizontal axis: binding energy, vertical axis: photoelectron intensity; O1s, C1s, O2s, O KLL peaks, composition: C 70.9 \/ O 29.1 Atom%)\" width=\"720\" height=\"698\" loading=\"lazy\" \/>\n                <\/div>\n            <\/div>\n\n            <h3 id=\"source\">Excitation source (scanning micro-focus x-ray source)<\/h3>\n            <p>A scanning micro-focus x-ray source is an x-ray source that can scan a focused monochromed Al K\u03b1 beam on the sample. In general, characteristic x-rays such as Al K\u03b1 rays and Mg K\u03b1 rays are widely used as excitation sources for photoelectrons. The x-ray beam diameter can be set between several \u00b5m\u03c6 to several hundred \u00b5m\u03c6, and the scan range can be changed arbitrarily, enabling measurement of the most appropriate analysis area for the sample. Secondary electron image observation (SXI: Scanning X-ray Image) based on this feature also allows for quick and accurate analysis location designation. Additionally, it supports various analyses including multi-point simultaneous analysis, large area measurement, line analysis, and area analysis.<\/p>\n            <div class=\"p-surfaceArtBody__figure\">\n                <div class=\"p-surfaceArtBody__figureImg\">\n                    <img decoding=\"async\" src=\"\/wp-content\/themes\/ulvac-phi\/assets\/img\/page\/xps\/pg_xps_source-sxi.jpg\" alt=\"Schematic diagram of scanning micro-focus X-ray source and SXI of bonding defect area (secondary electron image \/ elemental mapping image: red = Au, green = C, FOV: 700\u00d7700 \u00b5m \/ 700\u00d7580 \u00b5m)\" width=\"1000\" height=\"400\" loading=\"lazy\" \/>\n                <\/div>\n            <\/div>\n\n            <h3 id=\"neutralize\">Charge compensation mechanism (dual beam charge neutralization)<\/h3>\n            <p>XPS is used for element\/chemical state analysis for a wide range of solid samples from conductive to insulating materials. However, with insulating material samples, a positive charge occurs in the x-ray irradiated area due to the generation of photoelectrons. A spectrum measured in a positively charged state shifts to the high bond energy side (low kinetic energy side) compared to its actual position, making it difficult to grasp the correct energy position. Thus, with insulating material samples, charge neutralization is necessary during measurement. The dual beam technique, which irradiates a low energy electron beam and an ion beam simultaneously, is a neutralization method which stabilizes uneven charges on the surface in a self-repairing way, and is capable of stable charge neutralization for a wide range of insulating materials. It is also an essential feature for microscopic area analysis.<\/p>\n            <div class=\"p-surfaceArtBody__figure\">\n                <div class=\"p-surfaceArtBody__figureImg\">\n                    <img decoding=\"async\" src=\"\/wp-content\/themes\/ulvac-phi\/assets\/img\/page\/xps\/pg_xps_neutralize-dualbeam.jpg\" alt=\"Conceptual diagram of dual-beam charge neutralization (simultaneous irradiation of the sample with electron beam, X-ray, and ion gun)\" width=\"720\" height=\"481\" loading=\"lazy\" \/>\n                <\/div>\n            <\/div>\n\n            <h3 id=\"sputter\">Sputter ion gun (argon ion gun, cluster ion gun)<\/h3>\n            <p>Since the information depth measurable with XPS is in the range of several nms from the surface, when the surface contamination layer is thick, or when evaluating a deeper area, ion sputtering is used to perform surface etching. An element composition or chemical bonding state depth profile can be obtained from the spectrum information gained through alternating between sputtering and measurement. Depth profiles are used for film thickness evaluation of samples with a multilayer structure and cause analysis for discoloration\/corrosion of metal. Generally, argon (Ar) ions are used for depth profile analysis for inorganic materials such as metals and semiconductors while fullerene (C60) and argon gas cluster ions (Ar-GCIB) are used for organic materials, so different sputter ion guns are used depending on the material and purpose.<\/p>\n            <div class=\"p-surfaceArtBody__figGrid is-triangle\">\n                <div class=\"p-surfaceArtBody__figGridImg\">\n                    <img decoding=\"async\" src=\"\/wp-content\/themes\/ulvac-phi\/assets\/img\/page\/xps\/pg_xps_sputter-disc-layers.jpg\" alt=\"Layer structure of an optical disc (protective layer 0.1 mm, dielectric layer, recording layer, dielectric layer, reflective layer, substrate)\" width=\"720\" height=\"300\" loading=\"lazy\" \/>\n                <\/div>\n                <div class=\"p-surfaceArtBody__figGridImg\">\n                    <img decoding=\"async\" src=\"\/wp-content\/themes\/ulvac-phi\/assets\/img\/page\/xps\/pg_xps_sputter-3d-spectrum.jpg\" alt=\"3D depth profile spectrum of Sample B (horizontal axis: binding energy, depth axis: depth, peaks of Ag, Cu, Te, In, S, Ge, etc.)\" width=\"720\" height=\"562\" loading=\"lazy\" \/>\n                <\/div>\n                <div class=\"p-surfaceArtBody__figGridImg\">\n                    <img decoding=\"async\" src=\"\/wp-content\/themes\/ulvac-phi\/assets\/img\/page\/xps\/pg_xps_sputter-depth-profile.jpg\" alt=\"Depth profile of Sample B (horizontal axis: sputter depth in nm, vertical axis: atomic concentration; distribution of Ag, C, etc. across the dielectric layer, recording layer, reflective layer, and substrate)\" width=\"720\" height=\"720\" loading=\"lazy\" \/>\n                <\/div>\n            <\/div>\n\n            <h3 id=\"related-products\" class=\"is-noRule\">Related Instruments<\/h3>\n            <div class=\"p-surfaceArtBody__relGrid\">\n                <a class=\"p-surfaceArtBody__relCard\" href=\"https:\/\/surf-analysis.com\/ja\/\" target=\"_blank\" rel=\"noopener noreferrer\">\n                    <div class=\"p-surfaceArtBody__relCardThumb\">\n                        <img decoding=\"async\" src=\"\/wp-content\/themes\/ulvac-phi\/assets\/img\/home\/PHI_GENESIS.png\" alt=\"PHI GENESIS\" width=\"600\" height=\"450\" loading=\"lazy\" \/>\n                    <\/div>\n                    <div class=\"p-surfaceArtBody__relCardBody\">\n                        <span class=\"p-surfaceArtBody__relCardTag\">XPS<\/span>\n                        <p class=\"p-surfaceArtBody__relCardName\">PHI GENESIS<\/p>\n                        <p class=\"p-surfaceArtBody__relCardFull\">Fully automatic multifunctional scanning X-ray photoelectron spectrometer.<\/p>\n                    <\/div>\n                <\/a>\n            <\/div>\n\n        <\/div>\n\n    <\/div>\n<\/article>\n\n","protected":false},"excerpt":{"rendered":"<p>What is XPS? Principle X-ray Photoelectron Spectroscopy (XPS) or Electron Spectroscopy for Chemical Analysis (ESCA) is a technique which analyzes the elements constituting the sample surface, its composition, and chemical bonding state by irradiating x-rays on the sample surface, and measuring the kinetic energy of the photoelectrons emitted from the sample surface. XPS instrument using Al K\u03b1 rays can generally obtain information on elements within a few nms of the sample surface. Additionally, the change in bond energy (chemical shift) caused by the electron state surrounding the atoms to be analyzed, such as atomic valence charges and interatomic distances, tend to be greater than the chemical shift observed in AES, [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":668,"menu_order":62,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":""},"class_list":["post-676","page","type-page","status-publish","hentry"],"acf":[],"aioseo_notices":[],"aioseo_head":"\n\t\t<!-- All in One SEO 4.9.9 - aioseo.com -->\n\t<meta name=\"description\" content=\"What is XPS? 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Principle X-ray Photoelectron Spectroscopy (XPS) or Electron Spectroscopy for Chemical Analysis (ESCA) is a technique which analyzes the elements constituting the sample surface, its composition, and chemical bonding state by irradiating x-rays on the sample surface, and measuring the kinetic energy of the photoelectrons emitted from the sample surface. XPS instrument using\" \/>\n\t\t<meta property=\"og:url\" content=\"https:\/\/www.ulvac-phi.com\/en\/surface-analysis\/xps\/\" \/>\n\t\t<meta property=\"article:published_time\" content=\"2026-06-16T03:19:41+00:00\" \/>\n\t\t<meta property=\"article:modified_time\" content=\"2026-07-09T06:14:49+00:00\" \/>\n\t\t<meta name=\"twitter:card\" content=\"summary_large_image\" \/>\n\t\t<meta name=\"twitter:title\" content=\"What is XPS? - ULVAC PHI \u30a2\u30eb\u30d0\u30c3\u30af\u30fb\u30d5\u30a1\u30a4\u682a\u5f0f\u4f1a\u793e\" \/>\n\t\t<meta name=\"twitter:description\" content=\"What is XPS? Principle X-ray Photoelectron Spectroscopy (XPS) or Electron Spectroscopy for Chemical Analysis (ESCA) is a technique which analyzes the elements constituting the sample surface, its composition, and chemical bonding state by irradiating x-rays on the sample surface, and measuring the kinetic energy of the photoelectrons emitted from the sample surface. 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Principle X-ray Photoelectron Spectroscopy (XPS) or Electron Spectroscopy for Chemical Analysis (ESCA) is a technique which analyzes the elements constituting the sample surface, its composition, and chemical bonding state by irradiating x-rays on the sample surface, and measuring the kinetic energy of the photoelectrons emitted from the sample surface. XPS instrument using","og:url":"https:\/\/www.ulvac-phi.com\/en\/surface-analysis\/xps\/","article:published_time":"2026-06-16T03:19:41+00:00","article:modified_time":"2026-07-09T06:14:49+00:00","twitter:card":"summary_large_image","twitter:title":"What is XPS? - ULVAC PHI \u30a2\u30eb\u30d0\u30c3\u30af\u30fb\u30d5\u30a1\u30a4\u682a\u5f0f\u4f1a\u793e","twitter:description":"What is XPS? Principle X-ray Photoelectron Spectroscopy (XPS) or Electron Spectroscopy for Chemical Analysis (ESCA) is a technique which analyzes the elements constituting the sample surface, its composition, and chemical bonding state by irradiating x-rays on the sample surface, and measuring the kinetic energy of the photoelectrons emitted from the sample surface. XPS instrument using"},"aioseo_meta_data":{"post_id":"676","title":null,"description":null,"keywords":null,"keyphrases":null,"primary_term":null,"canonical_url":null,"og_title":null,"og_description":null,"og_object_type":"default","og_image_type":"default","og_image_custom_url":null,"og_image_custom_fields":null,"og_image_url":null,"og_image_width":null,"og_image_height":null,"og_video":null,"og_custom_url":null,"og_article_section":null,"og_article_tags":null,"twitter_use_og":false,"twitter_card":"default","twitter_image_type":"default","twitter_image_custom_url":null,"twitter_image_custom_fields":null,"twitter_image_url":null,"twitter_title":null,"twitter_description":null,"schema_type":"default","schema_type_options":null,"schema":{"blockGraphs":[],"customGraphs":[],"default":{"data":{"Article":[],"Course":[],"Dataset":[],"FAQPage":[],"Movie":[],"Person":[],"Product":[],"ProductReview":[],"Car":[],"Recipe":[],"Service":[],"SoftwareApplication":[],"WebPage":[]},"graphName":"","isEnabled":true},"graphs":[]},"pillar_content":false,"robots_default":true,"robots_noindex":false,"robots_noarchive":false,"robots_nosnippet":false,"robots_nofollow":false,"robots_noimageindex":false,"robots_noodp":false,"robots_notranslate":false,"robots_max_snippet":null,"robots_max_videopreview":null,"robots_max_imagepreview":"large","priority":null,"frequency":null,"local_seo":null,"limit_modified_date":false,"ai":null,"breadcrumb_settings":null,"seo_analyzer_scan_date":null,"created":"2026-07-09 06:14:48","updated":"2026-07-09 06:49:24"},"aioseo_breadcrumb":"<div class=\"aioseo-breadcrumbs\"><span class=\"aioseo-breadcrumb\">\n\t\t\t<a href=\"https:\/\/www.ulvac-phi.com\/en\/\" title=\"Home\">Home<\/a>\n\t\t<\/span><span class=\"aioseo-breadcrumb-separator\">&raquo;<\/span><span class=\"aioseo-breadcrumb\">\n\t\t\t<a href=\"https:\/\/www.ulvac-phi.com\/en\/surface-analysis\/\" title=\"Insights\">Insights<\/a>\n\t\t<\/span><span class=\"aioseo-breadcrumb-separator\">&raquo;<\/span><span class=\"aioseo-breadcrumb\">\n\t\t\tWhat is XPS?\n\t\t<\/span><\/div>","aioseo_breadcrumb_json":[{"label":"Home","link":"https:\/\/www.ulvac-phi.com\/en\/"},{"label":"Insights","link":"https:\/\/www.ulvac-phi.com\/en\/surface-analysis\/"},{"label":"What is XPS?","link":"https:\/\/www.ulvac-phi.com\/en\/surface-analysis\/xps\/"}],"_links":{"self":[{"href":"https:\/\/www.ulvac-phi.com\/en\/wp-json\/wp\/v2\/pages\/676","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.ulvac-phi.com\/en\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.ulvac-phi.com\/en\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.ulvac-phi.com\/en\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.ulvac-phi.com\/en\/wp-json\/wp\/v2\/comments?post=676"}],"version-history":[{"count":2,"href":"https:\/\/www.ulvac-phi.com\/en\/wp-json\/wp\/v2\/pages\/676\/revisions"}],"predecessor-version":[{"id":678,"href":"https:\/\/www.ulvac-phi.com\/en\/wp-json\/wp\/v2\/pages\/676\/revisions\/678"}],"up":[{"embeddable":true,"href":"https:\/\/www.ulvac-phi.com\/en\/wp-json\/wp\/v2\/pages\/668"}],"wp:attachment":[{"href":"https:\/\/www.ulvac-phi.com\/en\/wp-json\/wp\/v2\/media?parent=676"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}