Malzeme Biliminde Spektroskopi

Alshehawy, A. M., Mansour, D. E. A., Ghali, M., Lehtonen, M., & Darwish, M. M. (2021). Photoluminescence spectroscopy measurements for effective condition assessment of transformer insulating oil. Processes, 9(5), 732.

Andrade-Guel, M., Cabello-Alvarado, C. J., Cadenas-Pliego, G., & Ávila-Orta, C. A. (2022). PLA-ZnO/TiO2 nanocomposite obtained by ultrasound-assisted melt-extrusion for adsorption of methylene blue. Nanomaterials, 12(23), 4248.

Barchuk, M., Holý, V., Miljević, B., Krause, B., & Baumbach, T. (2011). Grazing-incidence x-ray diffraction from GaN epitaxial layers with threading dislocations. Applied Physics Letters, 98(2).

Barmore, L. M., Jesenovec, J., McCloy, J. S., & McCluskey, M. D. (2023). Photoluminescence of Cr3+ in β-Ga2O3 and (Al0. 1Ga0. 9) 2O3 under pressure. Journal of Applied Physics, 133(17).

Barnscheidt, Y., Schmidt, J., & Osten, H. J. (2020). Grazing-incidence X-ray diffraction investigation of the coincidence site lattice of the Ge/Si (001) system. Applied Crystallography, 53(5), 1212-1216.

Beaucage, G. (1995). Approximations leading to a unified exponential/power-law approach to small-angle scattering. Applied Crystallography, 28(6), 717-728.

Bish, D. L., & Howard, S. A. (1988). Quantitative phase analysis using the Rietveld method. Applied Crystallography, 21(2), 86-91.

Briggs, D., & Grant, J. T. (2003). Surface analysis by Auger and X-ray photoelectron spectroscopy.

Bunker, G. (2010). Introduction to XAFS: a practical guide to X-ray absorption fine structure spectroscopy. Cambridge University Press.

Cockings, H. L., Griffiths, J., Russell, J., & Underhill, R. (2023). Inclusion analysis in a dual-phase automotive strip steel. Ironmaking & Steelmaking, 50(9), 1205-1214.

Coelho, A. A. (2018). TOPAS and TOPAS-Academic: an optimization program integrating computer algebra and crystallographic objects written in C++. Applied Crystallography, 51(1), 210-218.

Cui, Y., Liao, Y., Sun, Y., Wang, W., Wu, J., Dai, W., & Huang, T. (2024). Advanced XPS-based techniques in the characterization of catalytic materials: A mini-review. Catalysts, 14(9), 595.

David, T., Aznan, N. K. N., Garside, K., & Penfold, T. (2023). Towards the automated extraction of structural information from X-ray absorption spectra. Digital Discovery, 2(5), 1461-1470.

De Groot, F., & Kotani, A. (2008). Core level spectroscopy of solids. CRC press.

De Wolf, I. (1996). Micro-Raman spectroscopy to study local mechanical stress in silicon integrated circuits. Semiconductor science and technology, 11(2), 139.

Dev, S., Wang, Y., Kim, K., Zamiri, M., Kadlec, C., Goldflam, M., ... & Wasserman, D. (2019). Measurement of carrier lifetime in micron-scaled materials using resonant microwave circuits. Nature communications, 10(1), 1625.

Doddapaneni, S., Kumar, S., Sharma, S., Shankar, G., Shettar, M., Kumar, N., ... & Ahmad, S. M. (2025). Advancements in EBSD Techniques: A Comprehensive Review on Characterization of Composites and Metals, Sample Preparation, and Operational Parameters. Journal of Composites Science, 9(3), 132.

Dollase, W. A. (1986). Correction of intensities for preferred orientation in powder diffractometry: application of the March model. Applied Crystallography, 19(4), 267-272.

Engler, O., Zaefferer, S., & Randle, V. (2024). Introduction to texture analysis: macrotexture, microtexture, and orientation mapping. CRC press.

Feigin, L. A., & Svergun, D. I. (1987). Structure analysis by small-angle X-ray and neutron scattering (Vol. 1, pp. 14-15). New York: Plenum press.

Ferrari, A. C., & Basko, D. M. (2013). Raman spectroscopy as a versatile tool for studying the properties of graphene. Nature nanotechnology, 8(4), 235-246.

Ferrari, A. C., Meyer, J. C., Scardaci, V., Casiraghi, C., Lazzeri, M., Mauri, F., ... & Geim, A. K. (2006). The Raman fingerprint of graphene. arXiv preprint cond-mat/0606284.

Fonoberov, V. A., Alim, K. A., Balandin, A. A., Xiu, F., & Liu, J. (2006). Photoluminescence investigation of the carrier recombination processes in ZnO quantum dots and nanocrystals. Physical Review B—Condensed Matter and Materials Physics, 73(16), 165317.

Girsang, G. C. S., Khoerunnisa, F., & Anwar, B. (2024). The Effect of PVP on The Molecular Interaction, Crystallinity, and Morphology of Biopolymer Film: A Review. Journal of Fibers and Polymer Composites, 3(2), 101-118.

Glatter, O. (1982). Small angle X-ray scattering. (No Title).

Goldstein, J. I., Newbury, D. E., Michael, J. R., Ritchie, N. W., Scott, J. H. J., & Joy, D. C. (2017). Scanning electron microscopy and X-ray microanalysis. Springer.

Gong, Y., Chen, X., & Wu, W. (2024). Application of fourier transform infrared (FTIR) spectroscopy in sample preparation: Material characterization and mechanism investigation. Advances in Sample Preparation, 11, 100122.

Groppo, E., Rojas-Buzo, S., & Bordiga, S. (2023). The role of in situ/operando IR spectroscopy in unraveling adsorbate-induced structural changes in heterogeneous catalysis. Chemical Reviews, 123(21), 12135-12169.

Guinier, A., Fournet, G., Walker, C. B., & Yudowitch, K. L. (1955). Small-angle Scattering of X-rays. New York: Wiley.

Gür, B., Ayhan, M. E., Türkhan, A., Gür, F., & Kaya, E. D. (2019). A facile immobilization of polyphenol oxidase enzyme on graphene oxide and reduced graphene oxide thin films: an insight into in-vitro activity measurements and characterization. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 562, 179-185.

Gür, B., Gülhan, B., Akkaş, Ö., Akgöz, M., Vejselova Sezer, C., Cengiz, M., Kutlu, H. M., & Alma, M. H. (2025). Cobalt oxide nanoparticles as a promising antifungal agent for Candida species: Eco-friendly synthesis from Platanus orientalis L. leaf extract and its applications. Journal of Industrial and Engineering Chemistry. https://doi.org/https://doi.org/10.1016/j.jiec.2025.07.043

Hager, P., & Zou, X. (2025). Automated serial (rotation) electron diffraction for high-throughput structure determination and phase analysis of complex polycrystalline samples. Structural Dynamics, 12(2_Supplement), A106-A106.

Hammersley, A. P. (1997). FIT2D: an introduction and overview.

He, B., Wang, C., Li, J., Su, Z., Xing, G., Gao, X., & Chen, S. (2023). In situ and operando characterization techniques in stability study of perovskite-based devices. Nanomaterials, 13(13), 1983.

Henderson, E. J., Helwig, K., Read, S., & Rosendahl, S. M. (2019). Infrared chemical mapping of degradation products in cross-sections from paintings and painted objects. Heritage Science, 7(1).

Hoffman, A. S., Debefve, L. M., Bendjeriou-Sedjerari, A., Ould-Chikh, S., Bare, S. R., Basset, J. M., & Gates, B. C. (2016). Transmission and fluorescence X-ray absorption spectroscopy cell/flow reactor for powder samples under vacuum or in reactive atmospheres. Review of Scientific Instruments, 87(7).

Julien, C. M., & Mauger, A. (2018). In situ Raman analyses of electrode materials for Li-ion batteries. AIMS Materials Science, 5(4), 650-698.

Kargarzadeh, H., Huang, J., Lin, N., Ahmad, I., Mariano, M., Dufresne, A., ... & Gałęski, A. (2018). Recent developments in nanocellulose-based biodegradable polymers, thermoplastic polymers, and porous nanocomposites. Progress in Polymer Science, 87, 197-227.

Klug, H. P., & Alexander, L. E. (1974). X-ray diffraction procedures: for polycrystalline and amorphous materials (p. 992).

Krishna, D. N. G., & Philip, J. (2022). Review on surface-characterization applications of X-ray photoelectron spectroscopy (XPS): Recent developments and challenges. Applied Surface Science Advances, 12, 100332.

Langford, J. I., & Wilson, A. J. C. (1978). Scherrer after sixty years: a survey and some new results in the determination of crystallite size. Applied Crystallography, 11(2), 102-113.

Le Bail, A., Duroy, H., & Fourquet, J. L. (1988). Ab-initio structure determination of LiSbWO6 by X-ray powder diffraction. Materials Research Bulletin, 23(3), 447-452.

Lee, P. A., Citrin, P. H., Eisenberger, P. T., & Kincaid, B. M. (1981). Extended x-ray absorption fine structure—its strengths and limitations as a structural tool. Reviews of Modern Physics, 53(4), 769.

Li, W., Pang, H., Zhang, Z., Cheng, L., Wang, Y., Zhang, X., ... & Zhang, X. (2025). Core–shell SiC w@ TiC composite whisker-reinforced Al 2 O 3 ceramics: Preparation, properties, and toughening mechanisms. Journal of Advanced Ceramics.

Lin, Y., Chen, W., Meng, L., Wang, D., & Li, L. (2020). Recent advances in post-stretching processing of polymer films with in situ synchrotron radiation X-ray scattering. Soft Matter, 16(15), 3599-3612.

Liu, F., Zou, X., Yue, N., Zhang, W., & Zheng, W. (2023). Correlative Raman imaging and scanning electron microscopy for advanced functional materials characterization. Cell Reports Physical Science, 4(10).

Liu, G. L., & Kazarian, S. G. (2022). Recent advances and applications to cultural heritage using ATR-FTIR spectroscopy and ATR-FTIR spectroscopic imaging. Analyst, 147(9), 1777-1797.

Liu, Y., Zhang, K., Tian, X., Zhou, L., Liu, J., & Liu, B. (2021). Quantitative single-particle fluorescence imaging elucidates semiconductor shell influence on Ag@ TiO2 photocatalysis. ACS Applied Materials & Interfaces, 13(6), 7680-7687.

Llewellyn, A. V., Matruglio, A., Brett, D. J., Jervis, R., & Shearing, P. R. (2020). Using in-situ laboratory and synchrotron-based x-ray diffraction for lithium-ion batteries characterization: A review on recent developments. Condensed Matter, 5(4), 75.

Madsen, I. C., & Scarlett, N. V. (2008). Quantitative phase analysis.

Malpani, M., Shekhawat, K., Chattopadhyay, S., Misra, R. D. K., & Misra, K. P. (2025). Defects induced photoluminescence and alteration of band gap and morphology in Ca doped sol-gel co-precipitated ZnO nanoparticles. Discover Applied Sciences, 7(11), 1303.

McCusker, L. B., Von Dreele, R. B., Cox, D. E., Louër, D., & Scardi, P. (1999). Rietveld refinement guidelines. Applied Crystallography, 32(1), 36-50.

Michler, G. H., & Lebek, W. (2016). Electron microscopy of polymers. Polymer Morphology: Principles, Characterization, and Processing, 37-53.

Mittemeijer, E. J., & Scardi, P. (Eds.). (2013). Diffraction analysis of the microstructure of materials (Vol. 68). Springer Science & Business Media.

Moskovits, M. (2012). How the localized surface plasmon became linked with surface-enhanced Raman spectroscopy. Notes and Records of the Royal Society, 66(2), 195-203.

Mouri, S., Miyauchi, Y., & Matsuda, K. (2013). Tunable photoluminescence of monolayer MoS2 via chemical doping. Nano letters, 13(12), 5944-5948.

Muhammad, S., Yao, B., Zhou, A., Huang, Z., Khan, S., Wei, F., ... & Yang, X. (2025). Unveiling dynamic surface transformations: Mo-doped Fe-based MOFs as next-generation oxygen evolution catalysts. Green Chemistry, 27(19), 5554-5566.

Nemova, D. V., Vybhavi, G. Y., Kumar, P., Kapoor, T., Bhardwaj, N., & Kaur, G. (2024). In-Situ EBSD Study of Phase Transformation in Additively Manufactured Titanium Alloy. In E3S Web of Conferences (Vol. 588, p. 03008). EDP Sciences.

Newville, M. (2014). Fundamentals of XAFS. Rev. Mineral. Geochem, 78(1), 33-74.

Noyan, I. C., & Cohen, J. B. (2013). Residual stress: measurement by diffraction and interpretation. Springer.

Orthaber, D., Bergmann, A., & Glatter, O. (2000). SAXS experiments on absolute scale with Kratky systems using water as a secondary standard. Applied Crystallography, 33(2), 218-225.

Pauw, B. R. (2013). Everything SAXS: small-angle scattering pattern collection and correction. Journal of Physics: Condensed Matter, 25(38), 383201.

Pavia, D. L., Lampman, G. M., Kriz, G. S., & Vyvyan, J. R. (2009). Introduction to spectroscopy, 4th. Brooks/Cole, USA, 691-695.

Pawley, G. S. (1981). Unit-cell refinement from powder diffraction scans. Applied Crystallography, 14(6), 357-361.

Pecharsky, V. K., & Zavalij, P. Y. (2003). Fundamentals of powder diffraction and structural characterization of materials. Boston, MA: Springer US.

Pedersen, J. S. (1997). Analysis of small-angle scattering data from colloids and polymer solutions: modeling and least-squares fitting. Advances in colloid and interface science, 70, 171-210.

Pettinger, B., Schambach, P., Villagómez, C. J., & Scott, N. (2012). Tip-enhanced Raman spectroscopy: near-fields acting on a few molecules. Annual review of physical chemistry, 63(1), 379-399.

Porod, G. (1951). Die Röntgenkleinwinkelstreuung von dichtgepackten kolloiden systemen: I. Teil. Kolloid-Zeitschrift, 124(2), 83-114.

Prehal, C., von Mentlen, J. M., Drvarič Talian, S., Vizintin, A., Dominko, R., Amenitsch, H., ... & Wood, V. (2022). On the nanoscale structural evolution of solid discharge products in lithium-sulfur batteries using operando scattering. Nature communications, 13(1), 6326.

Rahman, S. S. M. M., Salomon, M., & Dembélé, S. (2025). EstimateNoiseSEM: A novel framework for deep learning based noise estimation of scanning electron microscopy images. Ultramicroscopy, 114192.

Ravel, B., & Newville, M. A. T. H. E. N. A. (2005). ATHENA, ARTEMIS, HEPHAESTUS: data analysis for X-ray absorption spectroscopy using IFEFFIT. Synchrotron Radiation, 12(4), 537-541.

Rehr, J. J., & Albers, R. C. (2000). Theoretical approaches to x-ray absorption fine structure. Reviews of modern physics, 72(3), 621.

Rehr, J. J., Kas, J. J., Vila, F. D., Prange, M. P., & Jorissen, K. (2010). Parameter-free calculations of X-ray spectra with FEFF9. Physical Chemistry Chemical Physics, 12(21), 5503-5513.

Reinhart, G., Browne, D. J., Kargl, F., García-Moreno, F., Becker, M., Sondermann, E., ... & Nguyen-Thi, H. (2023). In-situ X-ray monitoring of solidification and related processes of metal alloys. npj Microgravity, 9(1), 70.

Remiš, T., Bělský, P., Kovářík, T., Kadlec, J., Ghafouri Azar, M., Medlín, R., ... & Sadasivuni, K. K. (2021). Study on structure, thermal behavior, and viscoelastic properties of nanodiamond-reinforced poly (vinyl alcohol) nanocomposites. Polymers, 13(9), 1426.

Rietveld, H. M. (1969). A profile refinement method for nuclear and magnetic structures. Applied Crystallography, 2(2), 65-71.

Roy, D., Chowdhury, S. S., & De, S. (2024). Unveiling the mechanism of visible light-assisted peroxymonosulfate activation and carbamazepine degradation using NH 2-MIL-125 (Ti)@ MIL-53 (Fe/Co) heterojunction photocatalyst. Environmental Science: Nano, 11(1), 389-405.

Saito, R., Hofmann, M., Dresselhaus, G., Jorio, A., & Dresselhaus, M. S. (2011). Raman spectroscopy of graphene and carbon nanotubes. Advances in Physics, 60(3), 413-550.

Schlücker, S. (2014). Surface‐enhanced Raman spectroscopy: concepts and chemical applications. Angewandte Chemie International Edition, 53(19), 4756-4795.

Schwartz, A. J., Kumar, M., Adams, B. L., & Field, D. P. (Eds.). (2009). Electron backscatter diffraction in materials science (Vol. 2, pp. 35-52). New York: Springer.

Smith, B. C. (2018). Infrared spectral interpretation: a systematic approach. CRC press.

Snyder, R. L., Fiala, J., & Bunge, H. J. (2000). Defect and microstructure analysis by diffraction. Oxford University Press.

Steele, J. A., Solano, E., Hardy, D., Dayton, D., Ladd, D., White, K., ... & Toney, M. F. (2023). How to GIWAXS: grazing incidence wide angle X‐ray scattering applied to metal halide perovskite thin films. Advanced Energy Materials, 13(27), 2300760.

Stephens, P. W. (1999). Phenomenological model of anisotropic peak broadening in powder diffraction. Applied Crystallography, 32(2), 281-289.

Stuart, B. H. (2004). Infrared spectroscopy: fundamentals and applications. John Wiley & Sons.

Svergun, D. I. (1992). Determination of the regularization parameter in indirect-transform methods using perceptual criteria. Applied Crystallography, 25(4), 495-503.

Svergun, D. I., & Koch, M. H. (2003). Small-angle scattering studies of biological macromolecules in solution. Reports on Progress in Physics, 66(10), 1735.

Tebyetekerwa, M., Zhang, J., Xu, Z., Truong, T. N., Yin, Z., Lu, Y., ... & Nguyen, H. T. (2020). Mechanisms and applications of steady-state photoluminescence spectroscopy in two-dimensional transition-metal dichalcogenides. ACS nano, 14(11), 14579-14604.

Tencé-Girault, S., Lebreton, S., Bunau, O., Dang, P., & Bargain, F. (2019). Simultaneous SAXS-WAXS experiments on semi-crystalline polymers: example of PA11 and its brill transition. Crystals, 9(5), 271.

Tian, X., Zhang, B., Song, L., Bao, J., Yang, J., Sun, L., ... & Song, C. (2025). New Trends in SERS Substrates With Micro‐and Nanostructures: Materials, Substrates, Preparation, and Applications. Battery Energy, 70023.

Toby, B. H. (2005). CMPR–a powder diffraction toolkit. Applied Crystallography, 38(6), 1040-1041.

Toby, B. H. (2006). R factors in Rietveld analysis: How good is good enough?. Powder diffraction, 21(1), 67-70.

Toby, B. H., & Von Dreele, R. B. (2013). GSAS-II: the genesis of a modern open-source all purpose crystallography software package. Applied Crystallography, 46(2), 544-549.

Von Suskil, C., Murray, M. J., Sanap, D. B., & Neal, S. L. (2023). Photoluminescence probes in data-enabled sensing. Annual Review of Analytical Chemistry, 16(1), 353-377.

Wignall, G. T., & Bates, F. S. (1987). Absolute calibration of small-angle neutron scattering data. Applied Crystallography, 20(1), 28-40.

Wilkinson, A. J., & Britton, T. B. (2012). Strains, planes, and EBSD in materials science. Materials today, 15(9), 366-376.

Williamson, G. K., & Hall, W. H. (1953). X-ray line broadening from filed aluminium and wolfram. Acta metallurgica, 1(1), 22-31.

Wright, S. I., & De Graef, M. (2022). Electron backscatter diffraction.

Wright, S. I., Nowell, M. M., & Field, D. P. (2011). A review of strain analysis using electron backscatter diffraction. Microscopy and microanalysis, 17(3), 316-329.

Young, R. A. (1993). The Rietveld Method (IUCr Monographs on Crystallography). Oxford Sci. Publ.

Zong, L., Li, C., Shi, J., Yue, J., & Wang, X. (2021). FTIR microspectroscopic study of biomacromolecular changes in As2O3 induced MGC803 cells apoptosis. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 263, 120220.

Zou, W., Liu, W., & Hu, C. (2023). Characterization of enteric-coated erythromycin tablets by Raman mapping and its pharmaceutical evaluation. Frontiers in Chemistry, 11, 1270737.