Lead selenide (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "Lead selenide" in English language version.

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9doi.org

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4harvard.edu

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4nih.gov

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1zenodo.org

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1mit.edu

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1handle.net

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1osti.gov

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doi.org

"Lead selenide (PbSe) crystal structure, lattice parameters, thermal expansion". Non-Tetrahedrally Bonded Elements and Binary Compounds I. Vol. 41C. 1998. pp. 1–4. doi:10.1007/10681727_903. ISBN 978-3-540-64583-2. {{cite book}}: |journal= ignored (help)
Ekuma, C. E.; Singh, D. J.; Moreno, J.; Jarrell, M. (2012). "Optical properties of PbTe and PbSe". Physical Review B. 85 (8): 085205. Bibcode:2012PhRvB..85h5205E. doi:10.1103/PhysRevB.85.085205.
Lawson, W. D. (1951). "A Method of Growing Single Crystals of Lead Telluride and Lead Selenide". Journal of Applied Physics. 22 (12): 1444–1447. Bibcode:1951JAP....22.1444L. doi:10.1063/1.1699890.
Parker, D.; Singh, D. J. (2010). "High-temperature thermoelectric performance of heavily doped PbSe". Physical Review B. 82 (3): 035204. Bibcode:2010PhRvB..82c5204P. doi:10.1103/PhysRevB.82.035204.
Wang, H.; Pei, Y.; Lalonde, A. D.; Snyder, G. J. (2011). "Heavily Doped p-Type PbSe with High Thermoelectric Performance: An Alternative for PbTe". Advanced Materials. 23 (11): 1366–1370. doi:10.1002/adma.201004200. PMID 21400597.
Androulakis, J.; Todorov, I.; He, J.; Chung, D. Y.; Dravid, V.; Kanatzidis, M. (2011). "Thermoelectrics from Abundant Chemical Elements: High-Performance Nanostructured PbSe–PbS". Journal of the American Chemical Society. 133 (28): 10920–10927. doi:10.1021/ja203022c. PMID 21650209.
Zhang, Q.; Cao, F.; Lukas, K.; Liu, W.; Esfarjani, K.; Opeil, C.; Broido, D.; Parker, D.; Singh, D. J.; Chen, G.; Ren, Z. (2012). "Study of the Thermoelectric Properties of Lead Selenide Doped with Boron, Gallium, Indium, or Thallium" (PDF). Journal of the American Chemical Society. 134 (42): 17731–17738. doi:10.1021/ja307910u. hdl:1721.1/86904. OSTI 1382354. PMID 23025440.
Pietryga, Jeffrey M.; Hollingsworth, Jennifer A. (2014). "Mid-Infrared Emitting Lead Selenide Nanocrystal Quantum Dots". Inorganic Syntheses: Volume 36. Vol. 36. pp. 198–202. doi:10.1002/9781118744994.ch37. ISBN 9781118744994.
Shuklov, I.A.; Razumov, V.F. (2020). "Lead chalcogenide quantum dots for photoelectric devices". Russian Chemical Reviews. 89 (3): 379–391. Bibcode:2020RuCRv..89..379S. doi:10.1070/RCR4917. PMID 21650209. S2CID 212957425.

handle.net

hdl.handle.net

Zhang, Q.; Cao, F.; Lukas, K.; Liu, W.; Esfarjani, K.; Opeil, C.; Broido, D.; Parker, D.; Singh, D. J.; Chen, G.; Ren, Z. (2012). "Study of the Thermoelectric Properties of Lead Selenide Doped with Boron, Gallium, Indium, or Thallium" (PDF). Journal of the American Chemical Society. 134 (42): 17731–17738. doi:10.1021/ja307910u. hdl:1721.1/86904. OSTI 1382354. PMID 23025440.

harvard.edu

ui.adsabs.harvard.edu

Ekuma, C. E.; Singh, D. J.; Moreno, J.; Jarrell, M. (2012). "Optical properties of PbTe and PbSe". Physical Review B. 85 (8): 085205. Bibcode:2012PhRvB..85h5205E. doi:10.1103/PhysRevB.85.085205.
Lawson, W. D. (1951). "A Method of Growing Single Crystals of Lead Telluride and Lead Selenide". Journal of Applied Physics. 22 (12): 1444–1447. Bibcode:1951JAP....22.1444L. doi:10.1063/1.1699890.
Parker, D.; Singh, D. J. (2010). "High-temperature thermoelectric performance of heavily doped PbSe". Physical Review B. 82 (3): 035204. Bibcode:2010PhRvB..82c5204P. doi:10.1103/PhysRevB.82.035204.
Shuklov, I.A.; Razumov, V.F. (2020). "Lead chalcogenide quantum dots for photoelectric devices". Russian Chemical Reviews. 89 (3): 379–391. Bibcode:2020RuCRv..89..379S. doi:10.1070/RCR4917. PMID 21650209. S2CID 212957425.

mit.edu

dspace.mit.edu

Zhang, Q.; Cao, F.; Lukas, K.; Liu, W.; Esfarjani, K.; Opeil, C.; Broido, D.; Parker, D.; Singh, D. J.; Chen, G.; Ren, Z. (2012). "Study of the Thermoelectric Properties of Lead Selenide Doped with Boron, Gallium, Indium, or Thallium" (PDF). Journal of the American Chemical Society. 134 (42): 17731–17738. doi:10.1021/ja307910u. hdl:1721.1/86904. OSTI 1382354. PMID 23025440.

nih.gov

pubmed.ncbi.nlm.nih.gov

Wang, H.; Pei, Y.; Lalonde, A. D.; Snyder, G. J. (2011). "Heavily Doped p-Type PbSe with High Thermoelectric Performance: An Alternative for PbTe". Advanced Materials. 23 (11): 1366–1370. doi:10.1002/adma.201004200. PMID 21400597.
Androulakis, J.; Todorov, I.; He, J.; Chung, D. Y.; Dravid, V.; Kanatzidis, M. (2011). "Thermoelectrics from Abundant Chemical Elements: High-Performance Nanostructured PbSe–PbS". Journal of the American Chemical Society. 133 (28): 10920–10927. doi:10.1021/ja203022c. PMID 21650209.
Zhang, Q.; Cao, F.; Lukas, K.; Liu, W.; Esfarjani, K.; Opeil, C.; Broido, D.; Parker, D.; Singh, D. J.; Chen, G.; Ren, Z. (2012). "Study of the Thermoelectric Properties of Lead Selenide Doped with Boron, Gallium, Indium, or Thallium" (PDF). Journal of the American Chemical Society. 134 (42): 17731–17738. doi:10.1021/ja307910u. hdl:1721.1/86904. OSTI 1382354. PMID 23025440.
Shuklov, I.A.; Razumov, V.F. (2020). "Lead chalcogenide quantum dots for photoelectric devices". Russian Chemical Reviews. 89 (3): 379–391. Bibcode:2020RuCRv..89..379S. doi:10.1070/RCR4917. PMID 21650209. S2CID 212957425.

osti.gov

Zhang, Q.; Cao, F.; Lukas, K.; Liu, W.; Esfarjani, K.; Opeil, C.; Broido, D.; Parker, D.; Singh, D. J.; Chen, G.; Ren, Z. (2012). "Study of the Thermoelectric Properties of Lead Selenide Doped with Boron, Gallium, Indium, or Thallium" (PDF). Journal of the American Chemical Society. 134 (42): 17731–17738. doi:10.1021/ja307910u. hdl:1721.1/86904. OSTI 1382354. PMID 23025440.

semanticscholar.org

api.semanticscholar.org

Shuklov, I.A.; Razumov, V.F. (2020). "Lead chalcogenide quantum dots for photoelectric devices". Russian Chemical Reviews. 89 (3): 379–391. Bibcode:2020RuCRv..89..379S. doi:10.1070/RCR4917. PMID 21650209. S2CID 212957425.

zenodo.org

Parker, D.; Singh, D. J. (2010). "High-temperature thermoelectric performance of heavily doped PbSe". Physical Review B. 82 (3): 035204. Bibcode:2010PhRvB..82c5204P. doi:10.1103/PhysRevB.82.035204.