A Review on Spectroscopic Techniques for Analysis of Nanomaterials and Biomaterials

Rai Dhirendra Prasad; Prashant D. Sarvalkar; Nirmala Prasad; Saurabh R. Prasad; Rai Surendra Prasad; Rai Bishwendra Prasad; Rai Rajnarayan Prasad; C. B. Desai; Anil Kumar Vaidya; Shivanand B. Teli; Mamata Saxena; Vasant B. Kale; R. S. Pandey; Naresh Charmode; R. N. Deshmukh; V. N. Pati; Anant Samant; Chandrashekhar Chiplunkar; Zhanhu Guo; A. A. Ramteke; Jay Ghosh

doi:10.30919/esee1264

A Review on Spectroscopic Techniques for Analysis of Nanomaterials and Biomaterials

Rai Dhirendra Prasad^*, Prashant D. Sarvalkar, Nirmala Prasad, Saurabh R. Prasad, Rai Surendra Prasad, Rai Bishwendra Prasad, Rai Rajnarayan Prasad, C. B. Desai, Anil Kumar Vaidya, Shivanand B. Teli, Mamata Saxena, Vasant B. Kale, R. S. Pandey, Naresh Charmode, R. N. Deshmukh, V. N. Pati, Anant Samant, Chandrashekhar Chiplunkar, Zhanhu Guo, A. A. RamtekeJay Ghosh

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

9 Citations (Scopus)

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Abstract

Spectroscopy, the study of the interaction between electromagnetic radiation and matter, is a versatile and powerful analytical technique used in various scientific disciplines. This review provides a comprehensive overview of spectroscopy, covering its principles, instrumentation, techniques, applications, and recent advancements. Spectroscopy encompasses a wide range of methods, each offering unique insights into the structure, composition, dynamics, and properties of materials. At its core, spectroscopy relies on the measurement of the intensity and wavelength (or frequency) of electromagnetic radiation absorbed, emitted, or scattered by a sample. The interaction between light and matter can reveal valuable information about the chemical, physical, and electronic properties of substances, including molecular structure, electronic transitions, vibrational modes, and magnetic interactions. Thus, spectroscopy remains a cornerstone of scientific research and technological innovation, offering unparalleled capabilities for understanding the properties and behavior of matter across the electromagnetic spectrum. Continued advancements in spectroscopic instrumentation, techniques, and applications promise to further enhance our ability to explore and exploit the mysteries of the universe at the molecular and atomic levels.

Original language	English
Article number	1264
Pages (from-to)	1-71
Number of pages	71
Journal	ES Energy and Environment
Volume	27
Early online date	8 Oct 2024
DOIs	https://doi.org/10.30919/esee1264
Publication status	Published - 1 Mar 2025

Keywords

Electron spectroscopy
Magnetic resonance spectroscopy
Mass spectroscopy
Optical spectroscopy
Spectroscopy

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esee1264Final published version, 2.55 MBLicence: CC BY

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Prasad, R. D., Sarvalkar, P. D., Prasad, N., Prasad, S. R., Prasad, R. S., Prasad, R. B., Prasad, R. R., Desai, C. B., Vaidya, A. K., Teli, S. B., Saxena, M., Kale, V. B., Pandey, R. S., Charmode, N., Deshmukh, R. N., Pati, V. N., Samant, A., Chiplunkar, C., Guo, Z., ... Ghosh, J. (2025). A Review on Spectroscopic Techniques for Analysis of Nanomaterials and Biomaterials. ES Energy and Environment, 27, 1-71. Article 1264. https://doi.org/10.30919/esee1264

@article{08a2aec788ba442ea5c876436072dea9,

title = "A Review on Spectroscopic Techniques for Analysis of Nanomaterials and Biomaterials",

abstract = "Spectroscopy, the study of the interaction between electromagnetic radiation and matter, is a versatile and powerful analytical technique used in various scientific disciplines. This review provides a comprehensive overview of spectroscopy, covering its principles, instrumentation, techniques, applications, and recent advancements. Spectroscopy encompasses a wide range of methods, each offering unique insights into the structure, composition, dynamics, and properties of materials. At its core, spectroscopy relies on the measurement of the intensity and wavelength (or frequency) of electromagnetic radiation absorbed, emitted, or scattered by a sample. The interaction between light and matter can reveal valuable information about the chemical, physical, and electronic properties of substances, including molecular structure, electronic transitions, vibrational modes, and magnetic interactions. Thus, spectroscopy remains a cornerstone of scientific research and technological innovation, offering unparalleled capabilities for understanding the properties and behavior of matter across the electromagnetic spectrum. Continued advancements in spectroscopic instrumentation, techniques, and applications promise to further enhance our ability to explore and exploit the mysteries of the universe at the molecular and atomic levels.",

keywords = "Electron spectroscopy, Magnetic resonance spectroscopy, Mass spectroscopy, Optical spectroscopy, Spectroscopy",

author = "Prasad, \{Rai Dhirendra\} and Sarvalkar, \{Prashant D.\} and Nirmala Prasad and Prasad, \{Saurabh R.\} and Prasad, \{Rai Surendra\} and Prasad, \{Rai Bishwendra\} and Prasad, \{Rai Rajnarayan\} and Desai, \{C. B.\} and Vaidya, \{Anil Kumar\} and Teli, \{Shivanand B.\} and Mamata Saxena and Kale, \{Vasant B.\} and Pandey, \{R. S.\} and Naresh Charmode and Deshmukh, \{R. N.\} and Pati, \{V. N.\} and Anant Samant and Chandrashekhar Chiplunkar and Zhanhu Guo and Ramteke, \{A. A.\} and Jay Ghosh",

year = "2025",

month = mar,

day = "1",

doi = "10.30919/esee1264",

language = "English",

volume = "27",

pages = "1--71",

journal = "ES Energy and Environment",

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Prasad, RD, Sarvalkar, PD, Prasad, N, Prasad, SR, Prasad, RS, Prasad, RB, Prasad, RR, Desai, CB, Vaidya, AK, Teli, SB, Saxena, M, Kale, VB, Pandey, RS, Charmode, N, Deshmukh, RN, Pati, VN, Samant, A, Chiplunkar, C, Guo, Z, Ramteke, AA & Ghosh, J 2025, 'A Review on Spectroscopic Techniques for Analysis of Nanomaterials and Biomaterials', ES Energy and Environment, vol. 27, 1264, pp. 1-71. https://doi.org/10.30919/esee1264

TY - JOUR

T1 - A Review on Spectroscopic Techniques for Analysis of Nanomaterials and Biomaterials

AU - Prasad, Rai Dhirendra

AU - Sarvalkar, Prashant D.

AU - Prasad, Nirmala

AU - Prasad, Saurabh R.

AU - Prasad, Rai Surendra

AU - Prasad, Rai Bishwendra

AU - Prasad, Rai Rajnarayan

AU - Desai, C. B.

AU - Vaidya, Anil Kumar

AU - Teli, Shivanand B.

AU - Saxena, Mamata

AU - Kale, Vasant B.

AU - Pandey, R. S.

AU - Charmode, Naresh

AU - Deshmukh, R. N.

AU - Pati, V. N.

AU - Samant, Anant

AU - Chiplunkar, Chandrashekhar

AU - Guo, Zhanhu

AU - Ramteke, A. A.

AU - Ghosh, Jay

PY - 2025/3/1

Y1 - 2025/3/1

N2 - Spectroscopy, the study of the interaction between electromagnetic radiation and matter, is a versatile and powerful analytical technique used in various scientific disciplines. This review provides a comprehensive overview of spectroscopy, covering its principles, instrumentation, techniques, applications, and recent advancements. Spectroscopy encompasses a wide range of methods, each offering unique insights into the structure, composition, dynamics, and properties of materials. At its core, spectroscopy relies on the measurement of the intensity and wavelength (or frequency) of electromagnetic radiation absorbed, emitted, or scattered by a sample. The interaction between light and matter can reveal valuable information about the chemical, physical, and electronic properties of substances, including molecular structure, electronic transitions, vibrational modes, and magnetic interactions. Thus, spectroscopy remains a cornerstone of scientific research and technological innovation, offering unparalleled capabilities for understanding the properties and behavior of matter across the electromagnetic spectrum. Continued advancements in spectroscopic instrumentation, techniques, and applications promise to further enhance our ability to explore and exploit the mysteries of the universe at the molecular and atomic levels.

AB - Spectroscopy, the study of the interaction between electromagnetic radiation and matter, is a versatile and powerful analytical technique used in various scientific disciplines. This review provides a comprehensive overview of spectroscopy, covering its principles, instrumentation, techniques, applications, and recent advancements. Spectroscopy encompasses a wide range of methods, each offering unique insights into the structure, composition, dynamics, and properties of materials. At its core, spectroscopy relies on the measurement of the intensity and wavelength (or frequency) of electromagnetic radiation absorbed, emitted, or scattered by a sample. The interaction between light and matter can reveal valuable information about the chemical, physical, and electronic properties of substances, including molecular structure, electronic transitions, vibrational modes, and magnetic interactions. Thus, spectroscopy remains a cornerstone of scientific research and technological innovation, offering unparalleled capabilities for understanding the properties and behavior of matter across the electromagnetic spectrum. Continued advancements in spectroscopic instrumentation, techniques, and applications promise to further enhance our ability to explore and exploit the mysteries of the universe at the molecular and atomic levels.

KW - Electron spectroscopy

KW - Magnetic resonance spectroscopy

KW - Mass spectroscopy

KW - Optical spectroscopy

KW - Spectroscopy

UR - https://www.scopus.com/pages/publications/105007181974

U2 - 10.30919/esee1264

DO - 10.30919/esee1264

M3 - Review article

AN - SCOPUS:105007181974

SN - 2578-0646

VL - 27

SP - 1

EP - 71

JO - ES Energy and Environment

JF - ES Energy and Environment

M1 - 1264

ER -

A Review on Spectroscopic Techniques for Analysis of Nanomaterials and Biomaterials

Abstract

Keywords

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