Kristalizacija (Serbian Wikipedia)
Analysis of information sources in references of the Wikipedia article "Kristalizacija" in Serbian language version.
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archive.org
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arxiv.org
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. doi:10.1007/s00466-012-0728-4. - Hanaor, Dorian A.H.; Xu, Wanqiang; Ferry, Michael; Sorrell, Charles C.; Sorrell, Charles C. (2012). „Abnormal grain growth of rutile TiO2 induced by ZrSiO4”. Journal of Crystal Growth. 359: 83—91. Bibcode:2012JCrGr.359...83H. S2CID 94096447. arXiv:1303.2761 . doi:10.1016/j.jcrysgro.2012.08.015.
biologists.org
jeb.biologists.org
- Treberg, J. R.; Wilson, C. E.; Richards, R. C.; Ewart, K. V.; Driedzic, W. R. (2002). „The freeze-avoidance response of smelt Osmerus mordax: initiation and subsequent suppression 6353”. The Journal of Experimental Biology. 205 (Pt 10): 1419—1427. PMID 11976353. doi:10.1242/jeb.205.10.1419.
books.google.com
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caltech.edu
resolver.caltech.edu
- Palfey, W.R.; Rossman, G.R.; Goddard, W.A. III (2021). „Structure, Energetics, and Spectra for the Oxygen Vacancy in Rutile: Prominence of the Ti–HO–Ti Bond”. The Journal of Physical Chemistry. 12 (41): 10175—10181. PMID 34644100. S2CID 238860345. doi:10.1021/acs.jpclett.1c02850.
cambridge.org
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chemengonline.com
chemicalprocessing.com
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doi.org
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- Chayen, Blow (1992). „Microbatch crystallization under oil — a new technique allowing many small-volume crystallization trials”. Journal of Crystal Growth. 122 (1-4): 176—180. Bibcode:1992JCrGr.122..176C. doi:10.1016/0022-0248(92)90241-A.
- Benvenuti, Mangani (2007). „Crystallization of soluble proteins in vapor diffusion for x-ray crystallography”. Nature Protocols. 2: 1663. doi:10.1038/nprot.2007.198 .
- Wang, Zhi; Chen, Chunlin; Ketov, Sergey V.; Akagi, Kazuto; Tsarkov, Andrey A.; Ikuhara, Yuichi; Louzguine-Luzgin, Dmitri V. (октобар 2018). „Local chemical ordering within the incubation period as a trigger for nanocrystallization of a highly supercooled Ti-based liquid”. Materials & Design (на језику: енглески). 156: 504—513. doi:10.1016/j.matdes.2018.07.013.
- Fokin, Vladimir M.; Zanotto, Edgar D.; Yuritsyn, Nikolay S.; Schmelzer, Jürn W.P. (август 2006). „Homogeneous crystal nucleation in silicate glasses: A 40 years perspective”. Journal of Non-Crystalline Solids (на језику: енглески). 352 (26–27): 2681—2714. Bibcode:2006JNCS..352.2681F. doi:10.1016/j.jnoncrysol.2006.02.074.
- Markov, Ivan (2016). Crystal Growth For Beginners: Fundamentals Of Nucleation, Crystal Growth And Epitaxy (Third изд.). Singapore: World Scientific. ISBN 978-981-3143-85-2. doi:10.1142/10127.
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- Nguyen, Thai; Khan, Azeem; Bruce, Layla; Forbes, Clarissa; o'Leary, Richard; Price, Chris (2017). „The effect of ultrasound on the crystallisation of paracetamol in the presence of structurally similar impurities”. Crystals. 7 (10): 294. doi:10.3390/cryst7100294 .
- Tomlinson, Charles (1868-01-01). „On Supersaturated Saline Solutions”. Philosophical Transactions of the Royal Society of London. 158: 659—673. ISSN 0261-0523. S2CID 110079029. doi:10.1098/rstl.1868.0028.
- Linnikov, O. D. (2014). „Mechanism of precipitate formation during spontaneous crystallization from supersaturated aqueous solutions”. Russian Chemical Reviews. 83 (4): 343—364. Bibcode:2014RuCRv..83..343L. S2CID 95096197. doi:10.1070/rc2014v083n04abeh004399.
- Coquerel, Gérard (2014-03-10). „Crystallization of molecular systems from solution: phase diagrams, supersaturation and other basic concepts”. Chemical Society Reviews. 43 (7): 2286—2300. PMID 24457270. S2CID 205855877. doi:10.1039/c3cs60359h.
- Kareiva, Aivaras; Yang, Jen-Chang; Yang, Thomas Chung-Kuang; Yang, Sung-Wei; Gross, Karlis-Agris; Garskaite, Edita (2014-04-15). „Effect of processing conditions on the crystallinity and structure of carbonated calcium hydroxyapatite (CHAp)”. CrystEngComm. 16 (19): 3950—3959. doi:10.1039/c4ce00119b.
- Mullin, J. (1976). Mullin, J. W, ур. Industrial Crystallization. Springer. ISBN 978-1-4615-7260-2. doi:10.1007/978-1-4615-7258-9.
- Takiyama, Hiroshi (мај 2012). „Supersaturation operation for quality control of crystalline particles in solution crystallization”. Advanced Powder Technology. 23 (3): 273—278. doi:10.1016/j.apt.2012.04.009.
- Warr, L.N. (2021). „IMA–CNMNC approved mineral symbols”. Mineralogical Magazine. 85 (3): 291—320. Bibcode:2021MinM...85..291W. S2CID 235729616. doi:10.1180/mgm.2021.43 .
- Wang, Rong; Hashimoto, Kazuhito; Fujishima, Akira; Chikuni, Makota; Kojima, Eiichi; Kitamura, Atsushi; Shimohigoshi, Mitsuhide; Watanabe, Toshiya (јул 1997). „Light-induced amphiphilic surfaces”. Nature. 388 (6641): 431—432. Bibcode:1997Natur.388..431W. S2CID 4417645. doi:10.1038/41233 .
- Hanaor, D. A. H.; Assadi, M. H. N.; Li, S.; Yu, A.; Sorrell, C. C. (2012). „Ab initio study of phase stability in doped TiO2”. Computational Mechanics. 50 (2): 185—94. Bibcode:2012CompM..50..185H. S2CID 95958719. arXiv:1210.7555 . doi:10.1007/s00466-012-0728-4.
- Hanaor, Dorian A.H.; Xu, Wanqiang; Ferry, Michael; Sorrell, Charles C.; Sorrell, Charles C. (2012). „Abnormal grain growth of rutile TiO2 induced by ZrSiO4”. Journal of Crystal Growth. 359: 83—91. Bibcode:2012JCrGr.359...83H. S2CID 94096447. arXiv:1303.2761 . doi:10.1016/j.jcrysgro.2012.08.015.
- Palfey, W.R.; Rossman, G.R.; Goddard, W.A. III (2021). „Structure, Energetics, and Spectra for the Oxygen Vacancy in Rutile: Prominence of the Ti–HO–Ti Bond”. The Journal of Physical Chemistry. 12 (41): 10175—10181. PMID 34644100. S2CID 238860345. doi:10.1021/acs.jpclett.1c02850.
- Cohen, K.M.; Finney, S.C.; Gibbard, P.L.; Fan, J.-X. (2013-09-01). „The ICS International Chronostratigraphic Chart”. Episodes (на језику: енглески) (updated изд.). 36 (3): 199—204. ISSN 0705-3797. S2CID 51819600. doi:10.18814/epiiugs/2013/v36i3/002 .
- Lin, Yibin (2008). „An Extensive Study of Protein Phase Diagram Modification:Increasing Macromolecular Crystallizability by Temperature Screening”. Crystal Growth & Design. 8 (12): 4277. doi:10.1021/cg800698p.
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- Chayen, Blow (1992). „Microbatch crystallization under oil – a new technique allowing many small-volume crystallization trials”. Journal of Crystal Growth. 122 (1–4): 176—180. Bibcode:1992JCrGr.122..176C. doi:10.1016/0022-0248(92)90241-A.
- Benvenuti, Mangani (2007). „Crystallization of soluble proteins in vapor diffusion for x-ray crystallography”. Nature Protocols. 2 (7): 1633—1651. PMID 17641629. doi:10.1038/nprot.2007.198 .
- Yiqing Claire Liu; Davis Dunn; Mary Lipari; Alastair Barton; Paul Firth; Jonathon Speed; Dan Wood; Zoltan K. Nagy (2019). „A comparative study of continuous operation between a dynamic baffle crystallizer and a stirred tank crystallizer”. Chemical Engineering Journal. 367 (1): 278—294. doi:10.1016/j.cej.2019.02.129.
- Beck, Ralf; Häkkinen, Antti; Malthe-Sørenssen, Didrik; Andreassen, Jens-Petter (2009-05-07). „The effect of crystallization conditions, crystal morphology and size on pressure filtration of l-glutamic acid and an aromatic amine”. Separation and Purification Technology. 66 (3): 549—558. ISSN 1383-5866. doi:10.1016/j.seppur.2009.01.018.
- Totis, Niccolò; Nieto, César; Küper, Armin; Vargas-García, César; Singh, Abhyudai; Waldherr, Steffen (април 2021). „A Population-Based Approach to Study the Effects of Growth and Division Rates on the Dynamics of Cell Size Statistics”. IEEE Control Systems Letters. 5 (2): 725—730. ISSN 2475-1456. S2CID 220606401. doi:10.1109/LCSYS.2020.3005069.
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- Bortot Coelho, Fabrício Eduardo; Balarini, Julio Cézar; Araújo, Estêvão Magno Rodrigues; Miranda, Tânia Lúcia Santos; Peres, Antônio Eduardo Clark; Martins, Afonso Henriques; Salum, Adriane (јун 2020). „A population balance approach to predict the performance of continuous leaching reactors: Model validation in a pilot plant using a roasted zinc concentrate”. Hydrometallurgy. 194: 105301. Bibcode:2020HydMe.19405301B. S2CID 216301270. doi:10.1016/j.hydromet.2020.105301.
- Coelho, Fabrício Eduardo Bortot; Balarini, Julio Cézar; Araújo, Estêvão Magno Rodrigues; Miranda, Tânia Lúcia Santos; Peres, Antônio Eduardo Clark; Martins, Afonso Henriques; Salum, Adriane (јануар 2018). „Roasted zinc concentrate leaching: Population balance modeling and validation”. Hydrometallurgy. 175: 208—217. Bibcode:2018HydMe.175..208C. doi:10.1016/j.hydromet.2017.11.013.
- Bisang J.M., Colli A.N. (2022). „Current and Potential Distribution in Two-Phase (Gas Evolving) Electrochemical Reactors by the Finite Volume Method”. Journal of the Electrochemical Society. 169 (3): 034524. Bibcode:2022JElS..169c4524C. S2CID 247463029. doi:10.1149/1945-7111/ac5d90.
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- Solomon, Theodros (2001). „The definition and unit of ionic strength”. Journal of Chemical Education. 78 (12): 1691. Bibcode:2001JChEd..78.1691S. doi:10.1021/ed078p1691.
- Sastre de Vicente, Manuel E. (2004). „The concept of ionic strength eighty years after its introduction in chemistry”. Journal of Chemical Education. 81 (5): 750. Bibcode:2004JChEd..81..750S. doi:10.1021/ed081p750.
- Treberg, J. R.; Wilson, C. E.; Richards, R. C.; Ewart, K. V.; Driedzic, W. R. (2002). „The freeze-avoidance response of smelt Osmerus mordax: initiation and subsequent suppression 6353”. The Journal of Experimental Biology. 205 (Pt 10): 1419—1427. PMID 11976353. doi:10.1242/jeb.205.10.1419.
- Rivkin, A.S.; Howell, E.S.; Vilas, F.; Lebofsky, L.A. (2002). „Hydrated Minerals on Asteroids: The Astronomical Record” (PDF). Asteroids III. ISBN 9780816522811. doi:10.2307/j.ctv1v7zdn4.23. Приступљено 2018-03-10. „Hydrated minerals include both silicates and nonsilicates in the scope of this review. Phyllosilicates (or “clay minerals”) are commonly found on Earth as weathering products of rocks or in hydrothermal systems. Nonsilicate hydrated minerals include such species as the oxides brucite and goethite, the carbonate hydromagnesite, and the sulfide tochilinite, each of which is known in the meteorite collection (Rubin, 1996). Although a full discussion of the petrogenesis and classification of hydrated minerals is beyond the scope of this paper, we note that formation of hydrated minerals, particularly clay minerals, occurs rapidly and easily in environments where anhydrous rock and water are together.”
- Snellings, R.; Mertens G.; Elsen J. (2012). „Supplementary cementitious materials”. Reviews in Mineralogy and Geochemistry. 74 (1): 211—278. Bibcode:2012RvMG...74..211S. doi:10.2138/rmg.2012.74.6.
elsevier.com
linkinghub.elsevier.com
- Wang, Zhi; Chen, Chunlin; Ketov, Sergey V.; Akagi, Kazuto; Tsarkov, Andrey A.; Ikuhara, Yuichi; Louzguine-Luzgin, Dmitri V. (октобар 2018). „Local chemical ordering within the incubation period as a trigger for nanocrystallization of a highly supercooled Ti-based liquid”. Materials & Design (на језику: енглески). 156: 504—513. doi:10.1016/j.matdes.2018.07.013.
- Fokin, Vladimir M.; Zanotto, Edgar D.; Yuritsyn, Nikolay S.; Schmelzer, Jürn W.P. (август 2006). „Homogeneous crystal nucleation in silicate glasses: A 40 years perspective”. Journal of Non-Crystalline Solids (на језику: енглески). 352 (26–27): 2681—2714. Bibcode:2006JNCS..352.2681F. doi:10.1016/j.jnoncrysol.2006.02.074.
- Beck, Ralf; Häkkinen, Antti; Malthe-Sørenssen, Didrik; Andreassen, Jens-Petter (2009-05-07). „The effect of crystallization conditions, crystal morphology and size on pressure filtration of l-glutamic acid and an aromatic amine”. Separation and Purification Technology. 66 (3): 549—558. ISSN 1383-5866. doi:10.1016/j.seppur.2009.01.018.
enciklopedija.hr
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hal.science
- Hanaor, Dorian A.H.; Xu, Wanqiang; Ferry, Michael; Sorrell, Charles C.; Sorrell, Charles C. (2012). „Abnormal grain growth of rutile TiO2 induced by ZrSiO4”. Journal of Crystal Growth. 359: 83—91. Bibcode:2012JCrGr.359...83H. S2CID 94096447. arXiv:1303.2761 . doi:10.1016/j.jcrysgro.2012.08.015.
harvard.edu
adsabs.harvard.edu
- Chayen, Blow (1992). „Microbatch crystallization under oil — a new technique allowing many small-volume crystallization trials”. Journal of Crystal Growth. 122 (1-4): 176—180. Bibcode:1992JCrGr.122..176C. doi:10.1016/0022-0248(92)90241-A.
- Fokin, Vladimir M.; Zanotto, Edgar D.; Yuritsyn, Nikolay S.; Schmelzer, Jürn W.P. (август 2006). „Homogeneous crystal nucleation in silicate glasses: A 40 years perspective”. Journal of Non-Crystalline Solids (на језику: енглески). 352 (26–27): 2681—2714. Bibcode:2006JNCS..352.2681F. doi:10.1016/j.jnoncrysol.2006.02.074.
- Linnikov, O. D. (2014). „Mechanism of precipitate formation during spontaneous crystallization from supersaturated aqueous solutions”. Russian Chemical Reviews. 83 (4): 343—364. Bibcode:2014RuCRv..83..343L. S2CID 95096197. doi:10.1070/rc2014v083n04abeh004399.
- Warr, L.N. (2021). „IMA–CNMNC approved mineral symbols”. Mineralogical Magazine. 85 (3): 291—320. Bibcode:2021MinM...85..291W. S2CID 235729616. doi:10.1180/mgm.2021.43 .
- Wang, Rong; Hashimoto, Kazuhito; Fujishima, Akira; Chikuni, Makota; Kojima, Eiichi; Kitamura, Atsushi; Shimohigoshi, Mitsuhide; Watanabe, Toshiya (јул 1997). „Light-induced amphiphilic surfaces”. Nature. 388 (6641): 431—432. Bibcode:1997Natur.388..431W. S2CID 4417645. doi:10.1038/41233 .
- Hanaor, D. A. H.; Assadi, M. H. N.; Li, S.; Yu, A.; Sorrell, C. C. (2012). „Ab initio study of phase stability in doped TiO2”. Computational Mechanics. 50 (2): 185—94. Bibcode:2012CompM..50..185H. S2CID 95958719. arXiv:1210.7555 . doi:10.1007/s00466-012-0728-4.
- Hanaor, Dorian A.H.; Xu, Wanqiang; Ferry, Michael; Sorrell, Charles C.; Sorrell, Charles C. (2012). „Abnormal grain growth of rutile TiO2 induced by ZrSiO4”. Journal of Crystal Growth. 359: 83—91. Bibcode:2012JCrGr.359...83H. S2CID 94096447. arXiv:1303.2761 . doi:10.1016/j.jcrysgro.2012.08.015.
- Chayen, Blow (1992). „Microbatch crystallization under oil – a new technique allowing many small-volume crystallization trials”. Journal of Crystal Growth. 122 (1–4): 176—180. Bibcode:1992JCrGr.122..176C. doi:10.1016/0022-0248(92)90241-A.
- Bortot Coelho, Fabrício Eduardo; Balarini, Julio Cézar; Araújo, Estêvão Magno Rodrigues; Miranda, Tânia Lúcia Santos; Peres, Antônio Eduardo Clark; Martins, Afonso Henriques; Salum, Adriane (јун 2020). „A population balance approach to predict the performance of continuous leaching reactors: Model validation in a pilot plant using a roasted zinc concentrate”. Hydrometallurgy. 194: 105301. Bibcode:2020HydMe.19405301B. S2CID 216301270. doi:10.1016/j.hydromet.2020.105301.
- Coelho, Fabrício Eduardo Bortot; Balarini, Julio Cézar; Araújo, Estêvão Magno Rodrigues; Miranda, Tânia Lúcia Santos; Peres, Antônio Eduardo Clark; Martins, Afonso Henriques; Salum, Adriane (јануар 2018). „Roasted zinc concentrate leaching: Population balance modeling and validation”. Hydrometallurgy. 175: 208—217. Bibcode:2018HydMe.175..208C. doi:10.1016/j.hydromet.2017.11.013.
- Bisang J.M., Colli A.N. (2022). „Current and Potential Distribution in Two-Phase (Gas Evolving) Electrochemical Reactors by the Finite Volume Method”. Journal of the Electrochemical Society. 169 (3): 034524. Bibcode:2022JElS..169c4524C. S2CID 247463029. doi:10.1149/1945-7111/ac5d90.
- Solomon, Theodros (2001). „The definition and unit of ionic strength”. Journal of Chemical Education. 78 (12): 1691. Bibcode:2001JChEd..78.1691S. doi:10.1021/ed078p1691.
- Sastre de Vicente, Manuel E. (2004). „The concept of ionic strength eighty years after its introduction in chemistry”. Journal of Chemical Education. 81 (5): 750. Bibcode:2004JChEd..81..750S. doi:10.1021/ed081p750.
- Snellings, R.; Mertens G.; Elsen J. (2012). „Supplementary cementitious materials”. Reviews in Mineralogy and Geochemistry. 74 (1): 211—278. Bibcode:2012RvMG...74..211S. doi:10.2138/rmg.2012.74.6.
ieee.org
ieeexplore.ieee.org
- Totis, Niccolò; Nieto, César; Küper, Armin; Vargas-García, César; Singh, Abhyudai; Waldherr, Steffen (април 2021). „A Population-Based Approach to Study the Effects of Growth and Division Rates on the Dynamics of Cell Size Statistics”. IEEE Control Systems Letters. 5 (2): 725—730. ISSN 2475-1456. S2CID 220606401. doi:10.1109/LCSYS.2020.3005069.
leeds.ac.uk
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- Palfey, W.R.; Rossman, G.R.; Goddard, W.A. III (2021). „Structure, Energetics, and Spectra for the Oxygen Vacancy in Rutile: Prominence of the Ti–HO–Ti Bond”. The Journal of Physical Chemistry. 12 (41): 10175—10181. PMID 34644100. S2CID 238860345. doi:10.1021/acs.jpclett.1c02850.
- Benvenuti, Mangani (2007). „Crystallization of soluble proteins in vapor diffusion for x-ray crystallography”. Nature Protocols. 2 (7): 1633—1651. PMID 17641629. doi:10.1038/nprot.2007.198 .
- Treberg, J. R.; Wilson, C. E.; Richards, R. C.; Ewart, K. V.; Driedzic, W. R. (2002). „The freeze-avoidance response of smelt Osmerus mordax: initiation and subsequent suppression 6353”. The Journal of Experimental Biology. 205 (Pt 10): 1419—1427. PMID 11976353. doi:10.1242/jeb.205.10.1419.
pearsonhighered.com
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sciencedirect.com
- Yiqing Claire Liu; Davis Dunn; Mary Lipari; Alastair Barton; Paul Firth; Jonathon Speed; Dan Wood; Zoltan K. Nagy (2019). „A comparative study of continuous operation between a dynamic baffle crystallizer and a stirred tank crystallizer”. Chemical Engineering Journal. 367 (1): 278—294. doi:10.1016/j.cej.2019.02.129.
semanticscholar.org
api.semanticscholar.org
- Tomlinson, Charles (1868-01-01). „On Supersaturated Saline Solutions”. Philosophical Transactions of the Royal Society of London. 158: 659—673. ISSN 0261-0523. S2CID 110079029. doi:10.1098/rstl.1868.0028.
- Linnikov, O. D. (2014). „Mechanism of precipitate formation during spontaneous crystallization from supersaturated aqueous solutions”. Russian Chemical Reviews. 83 (4): 343—364. Bibcode:2014RuCRv..83..343L. S2CID 95096197. doi:10.1070/rc2014v083n04abeh004399.
- Coquerel, Gérard (2014-03-10). „Crystallization of molecular systems from solution: phase diagrams, supersaturation and other basic concepts”. Chemical Society Reviews. 43 (7): 2286—2300. PMID 24457270. S2CID 205855877. doi:10.1039/c3cs60359h.
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