This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Agnihotri R, Kumar R, Prasad M, Sharma C, Bhatia S and Arya B, 2014. Experimental setup and standardization of a continuous flow stable isotope mass spectrometer for measuring stable isotopes of carbon, nitrogen and sulfur in environmental samples. Mapan 29: 195–205.AgnihotriRKumarRPrasadMSharmaCBhatiaSAryaB2014Experimental setup and standardization of a continuous flow stable isotope mass spectrometer for measuring stable isotopes of carbon, nitrogen and sulfur in environmental samplesMapan29195205Search in Google Scholar
ANRPC, (n.d.). Monthly nr statistical report. WEB site: <http://www.Anrpc.Org/html/news-secretariat-details.Aspx?Id=9&pid=39&nid=9690>. Accessed 2023 June 20.ANRPC(n.d.).Monthly nr statistical reportWEB site: <http://www.Anrpc.Org/html/news-secretariat-details.Aspx?Id=9&pid=39&nid=9690>. Accessed 2023 June 20.Search in Google Scholar
ASTM:D1506-15, 2020. Standard test methods for carbon black—ash content. WEB site: <https://www.Astm.Org/d1506-15r20.Html>. Accessed 2024 January 19.ASTM:D1506-152020Standard test methods for carbon black—ash contentWEB site: <https://www.Astm.Org/d1506-15r20.Html>. Accessed 2024 January 19.Search in Google Scholar
ASTM:D1765-17, (n.d.). Standard classification system for carbon blacks used in rubber products. WEB site: <https://www.Astm.Org/d1765-17.Html>. Accessed 2023 March 08.ASTM:D1765-17(n.d.).Standard classification system for carbon blacks used in rubber productsWEB site: <https://www.Astm.Org/d1765-17.Html>. Accessed 2023 March 08.Search in Google Scholar
CIO, 2022. Reference radiocarbon values for 100% biogenic carbon (14Cbio) based on atmospheric 14CO2, WEB site: <https://www.Rug.Nl/research/centre-for-isotope-research/customers/tools/reference-radiocarbon-values-palstra-andmeijer?Lang=en>. Accessed 2022 June 12.CIO2022Reference radiocarbon values for 100% biogenic carbon (14Cbio) based on atmospheric 14CO2WEB site: <https://www.Rug.Nl/research/centre-for-isotope-research/customers/tools/reference-radiocarbon-values-palstra-andmeijer?Lang=en>. Accessed 2022 June 12.Search in Google Scholar
Contec, (n.d.). Carbon black tire grades: Sustainable opportunities for the manufacturing industry. WEB site: <https://contec.Tech/carbon-black-grades-sustainable-alternatives/>. Accessed 2023 March 08.Contec(n.d.).Carbon black tire grades: Sustainable opportunities for the manufacturing industryWEB site: <https://contec.Tech/carbon-black-grades-sustainable-alternatives/>. Accessed 2023 March 08.Search in Google Scholar
Donnet JB, 2017. Carbon Black: Science and Technology. New York, https://doi.org/10.1201/9781315138763.DonnetJB2017Carbon Black: Science and TechnologyNew Yorkhttps://doi.org/10.1201/9781315138763.Search in Google Scholar
EN16640, 2017. Bio-based products - bio-based carbon content - determination of the bio-based carbon content using the radiocarbon method. WEB site: <https://standards.Iteh.Ai/catalog/standards/sist/c5b5c847-51e4-448f-8d96-236190a4a145/sist-en-16640-2017>. Accessed 2023 November 22.EN166402017Bio-based products - bio-based carbon content - determination of the bio-based carbon content using the radiocarbon methodWEB site: <https://standards.Iteh.Ai/catalog/standards/sist/c5b5c847-51e4-448f-8d96-236190a4a145/sist-en-16640-2017>. Accessed 2023 November 22.Search in Google Scholar
Fan Y, Fowler GD and Zhao M, 2020. The past, present and future of carbon black as a rubber reinforcing filler–a review. Journal of Cleaner Production 247: 119115.FanYFowlerGDZhaoM2020The past, present and future of carbon black as a rubber reinforcing filler–a reviewJournal of Cleaner Production247119115Search in Google Scholar
Gill KA, Michczyńska DJ, Michczyński A, Piotrowska N, Kłusek M, Końska K, Wróblewski K, Nadeau MJ and Seiler M, 2022. Study of bio-based carbon fractions in tires and their pyrolysis products. Radiocarbon 64(6): 1457–1469.GillKAMichczyńskaDJMichczyńskiAPiotrowskaNKłusekMKońskaKWróblewskiKNadeauMJSeilerM2022Study of bio-based carbon fractions in tires and their pyrolysis productsRadiocarbon64614571469Search in Google Scholar
Haverly MR, Fenwick SR, Patterson FP and Slade DA, 2019. Bio-based carbon content quantification through AMS radiocarbon analysis of liquid fuels. Fuel 237: 1108–1111.HaverlyMRFenwickSRPattersonFPSladeDA2019Bio-based carbon content quantification through AMS radiocarbon analysis of liquid fuelsFuel23711081111Search in Google Scholar
Hua Q, Turnbull JC, Santos GM, Rakowski AZ, Ancapichún S, De Pol-Holz R, Hammer S, Lehman SJ, Levin I and Miller JB, 2021. Atmospheric radiocarbon for the period 1950–2019. Radiocarbon 64(4): 723–745.HuaQTurnbullJCSantosGMRakowskiAZAncapichúnSDe Pol-HolzRHammerSLehmanSJLevinIMillerJB2021Atmospheric radiocarbon for the period 1950–2019Radiocarbon644723745Search in Google Scholar
IAEA-CH-6, (n.d.). Reference products for environment and trade. WEB site: <https://nucleus.Iaea.Org/sites/referencematerials/pages/iaea-ch-6.Aspx>. Accessed 2023 June 26.IAEA-CH-6(n.d.).Reference products for environment and tradeWEB site: <https://nucleus.Iaea.Org/sites/referencematerials/pages/iaea-ch-6.Aspx>. Accessed 2023 June 26.Search in Google Scholar
IAEA-NBS, (n.d.). Reference material for δ13C and δ2H. WEB site: <https://nucleus.Iaea.Org/sites/referencematerials/shared%20documents/referencematerials/stableisotopes/nbs-22/rs-nbs22.Pdf>. Accessed 2023 June 26.IAEA-NBS(n.d.).Reference material for δ13C and δ2HWEB site: <https://nucleus.Iaea.Org/sites/referencematerials/shared%20documents/referencematerials/stableisotopes/nbs-22/rs-nbs22.Pdf>. Accessed 2023 June 26.Search in Google Scholar
Intharapat P, Kongnoo A and Kateungngan K, 2013. The potential of chicken eggshell waste as a bio-filler filled epoxidized natural rubber (enr) composite and its properties. Journal of Polymers and the Environment 21: 245–258.IntharapatPKongnooAKateungnganK2013The potential of chicken eggshell waste as a bio-filler filled epoxidized natural rubber (enr) composite and its propertiesJournal of Polymers and the Environment21245258Search in Google Scholar
Khodabakhshi S, Fulvio PF and Andreoli E, 2020. Carbon black re-born: Structure and chemistry for renewable energy harnessing. Carbon 162: 604–649.KhodabakhshiSFulvioPFAndreoliE2020Carbon black re-born: Structure and chemistry for renewable energy harnessingCarbon162604649Search in Google Scholar
Kunioka M, Taguchi K, Ninomiya F, Nakajima M, Saito A and Araki S, 2014. Biobased contents of natural rubber model compound and its separated constituents. Polymers 6(2): 423–442.KuniokaMTaguchiKNinomiyaFNakajimaMSaitoAArakiS2014Biobased contents of natural rubber model compound and its separated constituentsPolymers62423442Search in Google Scholar
Kutschera W, 2019. The half-life of 14C—why is it so long? Radiocarbon 61(5): 1135–1142.KutscheraW2019The half-life of 14C—why is it so long?Radiocarbon61511351142Search in Google Scholar
Multiflow I, 2012. Multiflow user guide. V1.1. WEB site: <http://support.Isoprime.Co.Uk/resolve/index.Php?/knowledgebase/article/view/35/26/multiflow-user-guide>. Accessed 2023 November 2.MultiflowI2012Multiflow user guide. V1.1WEB site: <http://support.Isoprime.Co.Uk/resolve/index.Php?/knowledgebase/article/view/35/26/multiflow-user-guide>. Accessed 2023 November 2.Search in Google Scholar
Němec M, Wacker L and Gäggeler H, 2010. Optimization of the graphitization process at age-1. Radiocarbon 52(3): 1380–1393.NěmecMWackerLGäggelerH2010Optimization of the graphitization process at age-1Radiocarbon52313801393Search in Google Scholar
Pawlyta J, Pazdur A, Rakowski AZ, Miller BF and Harkness DD, 1997. Commissioning of a Quantulus 1220™ liquid scintillation beta spectrometer for measuring 14C and 3H at natural abundance levels. Radiocarbon 40(1): 201–209.PawlytaJPazdurARakowskiAZMillerBFHarknessDD1997Commissioning of a Quantulus 1220™ liquid scintillation beta spectrometer for measuring 14C and 3H at natural abundance levelsRadiocarbon401201209Search in Google Scholar
Pazdur A, Fogtman M, Michczyński A and Pawlyta J, 2003. Precision of 14C dating in Gliwice radiocarbon laboratory. Firi programme. Geochronometria 22(1): 27–40.PazdurAFogtmanMMichczyńskiAPawlytaJ2003Precision of 14C dating in Gliwice radiocarbon laboratory. Firi programmeGeochronometria2212740Search in Google Scholar
Pehlken A and Essadiqi E, 2005. Scrap tire recycling in Canada. CANMET Materials Technology Laboratory Report MTL 8: 1–62.PehlkenAEssadiqiE2005Scrap tire recycling in CanadaCANMET Materials Technology Laboratory Report MTL8162Search in Google Scholar
Piotrowska N, 2013. Status report of AMS sample preparation laboratory at GADAM centre, Gliwice, Poland. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 294: 176–181.PiotrowskaN2013Status report of AMS sample preparation laboratory at GADAM centre, Gliwice, PolandNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms294176181Search in Google Scholar
Robertson CG and Hardman NJ, 2021. Nature of carbon black reinforcement of rubber: Perspective on the original polymer nanocomposite. Polymers 13(4): 538.RobertsonCGHardmanNJ2021Nature of carbon black reinforcement of rubber: Perspective on the original polymer nanocompositePolymers134538Search in Google Scholar
Stuiver M and Polach HA, 1977. Discussion reporting of 14C data. Radiocarbon 19(3): 355–363.StuiverMPolachHA1977Discussion reporting of 14C dataRadiocarbon193355363Search in Google Scholar
Synal HA, Stocker M and Suter M, 2007. MICADAS: A new compact radiocarbon AMS system. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 259(1): 7–13.SynalHAStockerMSuterM2007MICADAS: A new compact radiocarbon AMS systemNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms2591713Search in Google Scholar
Ustrzycka A, 2020. Spektrometria mas lekkich izotopów stabilnych w badaniach ekosystemu jeziornego (light isotope mass spectrometry for lake ecosystem studies). Phd thesis, Silesian University of Technology, Institute of Physics - CSE: 90pp (in Polish).UstrzyckaA2020Spektrometria mas lekkich izotopów stabilnych w badaniach ekosystemu jeziornego (light isotope mass spectrometry for lake ecosystem studies)Phd thesis,Silesian University of Technology, Institute of Physics - CSE90(in Polish).Search in Google Scholar
Wacker L, Christl M and Synal HA, 2010a. BATS: A new tool for AMS data reduction. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 268(7–8): 976–979.WackerLChristlMSynalHA2010aBATS: A new tool for AMS data reductionNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms2687–8976979Search in Google Scholar
Wacker L, Němec M and Bourquin J, 2010b. A revolutionary graphitisation system: Fully automated, compact and simple. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 268(7–8): 931–934.WackerLNěmecMBourquinJ2010bA revolutionary graphitisation system: Fully automated, compact and simpleNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms2687–8931934Search in Google Scholar
