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National Nuclear Laboratory Limited (Company number 3857752) Registered in England and Wales.

Registered office: Chadwick House Warrington Road Birchwood Park Warrington WA3 6AE

NNL Publications

Updated August 2020





Contents Introduction ...................................................................................................................................................................... 4

Journal & Review Articles - 2020 ...................................................................................................................................... 6

Journal & Review Articles - 2019 .................................................................................................................................... 10


Journal & Review Articles – 2017 .................................................................................................................................... 20











Conference Papers - 2020 ............................................................................................................................................... 48

Conference Papers – 2019 .............................................................................................................................................. 50

Conference Papers – 2018 .............................................................................................................................................. 52
















Introduction

This document details NNL authored publications as indexed by Scopus1 since 2007.

• Books

• Journal and Review Articles

• Conference Papers

Each reference is hyperlinked to the Scopus record. Open access manuscripts can be freely downloaded. Access to

digital copies of other manuscripts will depend on your access rights.

Books & Book Chapters [1] English, C.A., Hyde, J.M., Robert Odette, G., Lucas, G.E., Tan, L., "Research tools: Microstructure, mechanical

properties, and computational thermodynamics", (2019) Structural Alloys for Nuclear Energy Applications, pp. 103-

161.

[2] Edwards, L., LeBlanc, D., Rodenburg, C., Uhlí, J., Dai, Z., Lauritzen, B., Allibert, M., Heuer, D., Laureau, A., Merle, E.,

Brovchenko, M., Delpech, S., Rineiski, A., Vijayan, P.K., Dulera, I.V., Rama Rao, A., Sinha, R.K., Waris, A., Luzzi, L.,

Cammi, A., Yoshioka, R., Kinoshita, M., Lee, D., Jeong, Y., Kloosterman, J.L., Disen, E., Ponomarev, L.I., Boyes, W.,

Pázsit, I., Krepel, J., Nichenko, S., Hombourger, B., Pautz, A., Prasser, M., Erbay, L.B., Scott, I., Hodgson, Z., Bakai, A.S.,

Lackowski, V., Kutsch, J., Greaves, E.D., Sajo-Bohus, L., "Worldwide activities", (2017) Molten Salt Reactors and

Thorium Energy, pp. 635-774.

[3] Denecke, M.A., Bryan, N., Kalmykov, S., Morris, K., Quinto, F., "Sources and Behaviour of Actinide Elements in the

Environment", (2016) Experimental and Theoretical Approaches to Actinide Chemistry: From Fundamental Systems

to Practical Applications, pp. 378-444.

[4] Taylor, R., "Reprocessing and Recycling of Spent Nuclear Fuel", (2015) Reprocessing and Recycling of Spent

Nuclear Fuel, pp. 1-658.

[5] Lewin, R.G., Harrison, M.T., "International developments in electrorefining technologies for pyrochemical

processing of spent nuclear fuels", (2015) Reprocessing and Recycling of Spent Nuclear Fuel, pp. 373-413.

[6] Maher, C.J., "Current headend technologies and future developments in the reprocessing of spent nuclear fuels",

(2015) Reprocessing and Recycling of Spent Nuclear Fuel, pp. 93-124.

[7] Sarsfield, M.J., "The coprecipitation and conversion of mixed actinide oxalates for aqueous-based reprocessing of

spent nuclear fuels", (2015) Reprocessing and Recycling of Spent Nuclear Fuel, pp. 325-351.

1 www.scopus.com

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[8] Hyde, J.M., English, C.A., "Microstructural characterisation techniques for the study of reactor pressure vessel

(RPV) embrittlement", (2015) Irradiation Embrittlement of Reactor Pressure Vessels (RPVs) in Nuclear Power Plants,

p. 211_294.

[9] Swift, P., Kinoshita, H., Collier, N.C., "The effect of supplementary pulverised fuel ash on calcium aluminate

phosphate cement for intermediate-level waste encapsulation", (2013) Cement-Based Materials for Nuclear Waste

Storage, pp. 215-224.

[10] Stewart, M.W.A., Moricca, S.A., Vance, E.R., Arthur Day, R., Maddrell, E.R., Scales, C.R., Hobbs, J., "Hot-isostatic

pressing of chlorine-containing plutonium residues and wastes", (2013) TMS 2013 142nd Annual Meeting and

Exhibition, Annual Meeting, pp. 675-682.

[11] English, C., Hyde, J., "Radiation damage of reactor pressure vessel steels", (2012) Comprehensive Nuclear

Materials, 4, pp. 151-180.

[12] Boothby, R.M., "Radiation effects in nickel-based alloys", (2012) Comprehensive Nuclear Materials, 4, pp. 123-

150.

[13] Hesketh, K., "Burnable poison-doped fuel", (2012) Comprehensive Nuclear Materials, 2, pp. 423-438.

[14] Rossiter, G., "Understanding and modelling fuel behaviour under irradiation", (2012) Nuclear Fuel Cycle Science

and Engineering, pp. 396-424.

[15] Squire, J., Maddrell, E.R., Hyatt, N.C., Stennett, M.C., "Developing the Plutonium Disposition Option: Ceramic

Processing Concerns", (2011) Advances in Materials Science for Environmental and Nuclear Technology II, 227, pp.

241-249.

[16] Whillock, G.O.H., Worthington, S.E., "Corrosion in nitric acid", (2010) Shreir's Corrosion, pp. 1250-1269.

[17] Whillock, G.O.H., "Corrosion in radiolysis induced environments", (2010) Shreir's Corrosion, pp. 1330-1339.

[18] Burrows, R., Harris, S., "Electrochemical Corrosion Study of Magnox Al80 and Natural Uranium", (2007)

Electrochemistry in Light Water Reactors: Reference Electrodes, Measurement, Corrosion and Tribocorrosion Issues,

pp. 156-163.

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Journal & Review Articles - 2020

[1] Clark, R.N., Searle, J., Martin, T.L., Walters, W.S., Williams, G., "The role of niobium carbides in the localised corrosion initiation of 20Cr-25Ni-Nb advanced gas-cooled reactor fuel cladding", (2020) Corrosion Science, 165, art. no. 108365.

[2] Castin, N., Bonny, G., Bakaev, A., Bergner, F., Domain, C., Hyde, J.M., Messina, L., Radiguet, B., Malerba, L., "The

dominant mechanisms for the formation of solute-rich clusters in low-Cu steels under irradiation", (2020) Materials

Today Energy, 17, art. no. 100472.

[3] Plompen, A.J.M., Cabellos, O., De Saint Jean, C., Fleming, M., Algora, A., Angelone, M., Archier, P., Bauge, E.,

Bersillon, O., Blokhin, A., Cantargi, F., Chebboubi, A., Diez, C., Duarte, H., Dupont, E., Dyrda, J., Erasmus, B., Fiorito, L.,

Fischer, U., Flammini, D., Foligno, D., Gilbert, M.R., Granada, J.R., Haeck, W., Hambsch, F.-J., Helgesson, P., Hilaire, S.,

Hill, I., Hursin, M., Ichou, R., Jacqmin, R., Jansky, B., Jouanne, C., Kellett, M.A., Kim, D.H., Kim, H.I., Kodeli, I., Koning,

A.J., Konobeyev, A.Y., Kopecky, S., Kos, B., Krása, A., Leal, L.C., Leclaire, N., Leconte, P., Lee, Y.O., Leeb, H., Litaize, O.,

Majerle, M., Márquez Damián, J.I., Michel-Sendis, F., Mills, R.W., Morillon, B., Noguère, G., Pecchia, M., Pelloni, S.,

Pereslavtsev, P., Perry, R.J., Rochman, D., Röhrmoser, A., Romain, P., Romojaro, P., Roubtsov, D., Sauvan, P.,

Schillebeeckx, P., Schmidt, K.H., Serot, O., Simakov, S., Sirakov, I., Sjöstrand, H., Stankovskiy, A., Sublet, J.C.,

Tamagno, P., Trkov, A., van der Marck, S., Álvarez-Velarde, F., Villari, R., Ware, T.C., Yokoyama, K., Žerovnik, G., "The

joint evaluated fission and fusion nuclear data library, JEFF-3.3", (2020) European Physical Journal A, 56 (7), art. no.

181.

[4] Blackburn, L.R., Sun, S., Gardner, L.J., Maddrell, E.R., Stennett, M.C., Hyatt, N.C., "A systematic investigation of the

phase assemblage and microstructure of the zirconolite CaZr1-xCexTi2O7 system", (2020) Journal of Nuclear

Materials, 535, art. no. 152137.

[5] Dodds, J.M., Rawcliffe, J., "Radionuclide distribution during ytterbium doped fibre laser cutting for nuclear

decommissioning", (2020) Progress in Nuclear Energy, 118, art. no. 103122.

[6] Blackburn, L.R., Sun, S.-K., Lawson, S.M., Gardner, L.J., Ding, H., Corkhill, C.L., Maddrell, E.R., Stennett, M.C.,

Hyatt, N.C., "Synthesis and characterisation of Ca1-xCexZrTi2-2xCr2xO7: Analogue zirconolite wasteform for the

immobilisation of stockpiled UK plutonium", (2020) Journal of the European Ceramic Society, 40 (15), pp. 5909-5919.

[7] Foster, L., Boothman, C., Ruiz-Lopez, S., Boshoff, G., Jenkinson, P., Sigee, D., Pittman, J.K., Morris, K., Lloyd, J.R.,

"Microbial bloom formation in a high pH spent nuclear fuel pond", (2020) Science of the Total Environment, 720, art.

no. 137515.

[8] Pardi, T., Ortenzi, V., Fairbairn, C., Pipe, T., Esfahani, A.M.G., Stolkin, R., "Planning Maximum-Manipulability

Cutting Paths", (2020) IEEE Robotics and Automation Letters, 5 (2), art. no. 8978478, pp. 1999-2006.

[9] Lillington, J.N.P., Goût, T.L., Harrison, M.T., Farnan, I., "Predicting radioactive waste glass dissolution with

machine learning", (2020) Journal of Non-Crystalline Solids, 533, art. no. 119852.

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https://www.scopus.com/inward/record.uri?eid=2-s2.0-85089028841&doi=10.1063%2f1.5127662&partnerID=40&md5=e0fc06bf5e5f52882d5bfab5f4227636https://www.scopus.com/inward/record.uri?eid=2-s2.0-85089028841&doi=10.1063%2f1.5127662&partnerID=40&md5=e0fc06bf5e5f52882d5bfab5f4227636https://www.scopus.com/inward/record.uri?eid=2-s2.0-85089028841&doi=10.1063%2f1.5127662&partnerID=40&md5=e0fc06bf5e5f52882d5bfab5f4227636https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084735695&doi=10.1016%2fj.radphyschem.2020.108924&partnerID=40&md5=3d2aa20ffa397155a886bf1079e7d91ehttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85084735695&doi=10.1016%2fj.radphyschem.2020.108924&partnerID=40&md5=3d2aa20ffa397155a886bf1079e7d91ehttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85084509976&doi=10.1016%2fj.jenvrad.2020.106296&partnerID=40&md5=cf6f52c4cc14dc8229ac9ca985b759a8https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084509976&doi=10.1016%2fj.jenvrad.2020.106296&partnerID=40&md5=cf6f52c4cc14dc8229ac9ca985b759a8https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084509976&doi=10.1016%2fj.jenvrad.2020.106296&partnerID=40&md5=cf6f52c4cc14dc8229ac9ca985b759a8https://www.scopus.com/inward/record.uri?eid=2-s2.0-85082840315&doi=10.1016%2fj.net.2020.03.004&partnerID=40&md5=378d386e6c2729e52a4c356423f77c4chttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85082840315&doi=10.1016%2fj.net.2020.03.004&partnerID=40&md5=378d386e6c2729e52a4c356423f77c4chttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85082840315&doi=10.1016%2fj.net.2020.03.004&partnerID=40&md5=378d386e6c2729e52a4c356423f77c4chttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85084947691&doi=10.1016%2fj.jmps.2020.103956&partnerID=40&md5=b45f36741a79f5169bfe991f45a20129https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084947691&doi=10.1016%2fj.jmps.2020.103956&partnerID=40&md5=b45f36741a79f5169bfe991f45a20129https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084947691&doi=10.1016%2fj.jmps.2020.103956&partnerID=40&md5=b45f36741a79f5169bfe991f45a20129https://www.scopus.com/inward/record.uri?eid=2-s2.0-85087528266&doi=10.1093%2ffemsec%2ffiaa102&partnerID=40&md5=aa06c0279487421a95616e27393f7c68https://www.scopus.com/inward/record.uri?eid=2-s2.0-85087528266&doi=10.1093%2ffemsec%2ffiaa102&partnerID=40&md5=aa06c0279487421a95616e27393f7c68https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085515626&doi=10.1016%2fj.jappgeo.2020.104084&partnerID=40&md5=c684f8dbd05d23d5c4d15042918dcdbdhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85085515626&doi=10.1016%2fj.jappgeo.2020.104084&partnerID=40&md5=c684f8dbd05d23d5c4d15042918dcdbdhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85085515626&doi=10.1016%2fj.jappgeo.2020.104084&partnerID=40&md5=c684f8dbd05d23d5c4d15042918dcdbdhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85085515626&doi=10.1016%2fj.jappgeo.2020.104084&partnerID=40&md5=c684f8dbd05d23d5c4d15042918dcdbdhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85083855755&doi=10.1016%2fj.corsci.2020.108596&partnerID=40&md5=eb9601f9cd9445514f903964f7da1faehttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85083855755&doi=10.1016%2fj.corsci.2020.108596&partnerID=40&md5=eb9601f9cd9445514f903964f7da1faehttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85083855755&doi=10.1016%2fj.corsci.2020.108596&partnerID=40&md5=eb9601f9cd9445514f903964f7da1faehttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85083562423&doi=10.1016%2fj.pnucene.2020.103340&partnerID=40&md5=6d04d6defce957afa98c11d3be134faahttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85083562423&doi=10.1016%2fj.pnucene.2020.103340&partnerID=40&md5=6d04d6defce957afa98c11d3be134faahttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85085753490&doi=10.1016%2fj.mtla.2020.100717&partnerID=40&md5=a67e3e36de732de58ac351ce33e6ac31https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085753490&doi=10.1016%2fj.mtla.2020.100717&partnerID=40&md5=a67e3e36de732de58ac351ce33e6ac31https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085753490&doi=10.1016%2fj.mtla.2020.100717&partnerID=40&md5=a67e3e36de732de58ac351ce33e6ac31https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085841003&doi=10.3390%2fen13102573&partnerID=40&md5=102de59c7ad1175ac4d29df1737b9057https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085841003&doi=10.3390%2fen13102573&partnerID=40&md5=102de59c7ad1175ac4d29df1737b9057https://www.scopus.com/inward/record.uri?eid=2-s2.0-85079865887&doi=10.1016%2fj.jnucmat.2020.152054&partnerID=40&md5=00df62a7fdbfeba667dff1a10f888f2dhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85079865887&doi=10.1016%2fj.jnucmat.2020.152054&partnerID=40&md5=00df62a7fdbfeba667dff1a10f888f2dhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85079707730&doi=10.1080%2f01490451.2020.1728442&partnerID=40&md5=2a11a320b4bd29c6a5873817bbb6c9dehttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85079707730&doi=10.1080%2f01490451.2020.1728442&partnerID=40&md5=2a11a320b4bd29c6a5873817bbb6c9dehttps://www.scopus.com/inwa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[35] Paulillo, A., Clift, R., Dodds, J., Milliken, A., Palethorpe, S., Lettieri, P., "Radiological impacts in Life Cycle

Assessment – Part II: Comparison of methodologies", (2020) Science of the Total Environment, 708, art. no. 134712.

[36] Paulillo, A., Clift, R., Dodds, J.M., Milliken, A., Palethorpe, S.J., Lettieri, P., "Radiological impacts in Life Cycle

Assessment. Part I: General framework and two practical methodologies", (2020) Science of the Total Environment,

708, art. no. 135179.

[37] Clark, R.N., Burrows, R., Patel, R., Moore, S., Hallam, K.R., Flewitt, P.E.J., "Nanometre to micrometre length-scale

techniques for characterising environmentally-assisted cracking: An appraisal", (2020) Heliyon, 6 (3), art. no. e03448.

[38] Simpson, A., Clarkson, A., Gardner, S., Al Jebali, R., Kaiser, R., Mahon, D., Roe, J., Ryan, M., Shearer, C., Yang, G.,

"Muon tomography for the analysis of in-container vitrified products", (2020) Applied Radiation and Isotopes, 157,

art. no. 109033.

[39] Kearney, S.A., McLuckie, B., Webb, K., Orr, R., Vatter, I.A., Yorkshire, A.S., Corkhill, C.L., Hayes, M., Angus, M.J.,

Provis, J.L., "Effects of plutonium dioxide encapsulation on the physico-chemical development of Portland cement

blended grouts", (2020) Journal of Nuclear Materials, 530, art. no. 151960.

[40] Joyce, M.J., Sarwar, R., Astromskas, V., Chebboubi, A., Croft, S., Litaize, O., Vogt, R., Zimmerman, C.H., "High-

order angular correlation of californium-252 fission neutrons and the effect of detector cross-talk", (2020) Nuclear

Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated

Equipment, 954, art. no. 161866.

[41] Geist, A., Adnet, J.-M., Bourg, S., Ekberg, C., Galán, H., Guilbaud, P., Miguirditchian, M., Modolo, G., Rhodes, C.,

Taylor, R., "An overview of solvent extraction processes developed in Europe for advanced nuclear fuel recycling,

part 1 — heterogeneous recycling", (2020) Separation Science and Technology (Philadelphia).

[42] Whillock, G.O.H., Summers, K.A., Jackson, A., "The effect of ruthenium on the corrosion of stainless steel in nitric

acid liquors", (2020) Corrosion, 76 (1), pp. 93-102.

[43] Galvin, T., Hyatt, N.C., Rainforth, W.M., Reaney, I.M., Shepherd, D., "Slipcasting of MAX phase tubes for nuclear

fuel cladding applications", (2020) Nuclear Materials and Energy, 22, art. no. 100725.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075524532&doi=10.1016%2fj.scitotenv.2019.134712&partnerID=40&md5=e553612ab5e54fd799149b33d8a66316https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075524532&doi=10.1016%2fj.scitotenv.2019.134712&partnerID=40&md5=e553612ab5e54fd799149b33d8a66316https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075504879&doi=10.1016%2fj.scitotenv.2019.135179&partnerID=40&md5=b408653f6b39846cf06bc5598ae42643https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075504879&doi=10.1016%2fj.scitotenv.2019.135179&partnerID=40&md5=b408653f6b39846cf06bc5598ae42643https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075504879&doi=10.1016%2fj.scitotenv.2019.135179&partnerID=40&md5=b408653f6b39846cf06bc5598ae42643https://www.scopus.com/inward/record.uri?eid=2-s2.0-85081039369&doi=10.1016%2fj.heliyon.2020.e03448&partnerID=40&md5=3aea6eab7a9c70cbb813432322c10e8dhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85081039369&doi=10.1016%2fj.heliyon.2020.e03448&partnerID=40&md5=3aea6eab7a9c70cbb813432322c10e8dhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85077948844&doi=10.1016%2fj.apradiso.2019.109033&partnerID=40&md5=431fc840c257d954f96f94cf5fb9d3bchttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85077948844&doi=10.1016%2fj.apradiso.2019.109033&partnerID=40&md5=431fc840c257d954f96f94cf5fb9d3bchttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85077948844&doi=10.1016%2fj.apradiso.2019.109033&partnerID=40&md5=431fc840c257d954f96f94cf5fb9d3bchttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85076715129&doi=10.1016%2fj.jnucmat.2019.151960&partnerID=40&md5=b0ef8d562de32509bcf36fbb7a457be5https://www.scopus.com/inward/record.uri?eid=2-s2.0-85076715129&doi=10.1016%2fj.jnucmat.2019.151960&partnerID=40&md5=b0ef8d562de32509bcf36fbb7a457be5https://www.scopus.com/inward/record.uri?eid=2-s2.0-85076715129&doi=10.1016%2fj.jnucmat.2019.151960&partnerID=40&md5=b0ef8d562de32509bcf36fbb7a457be5https://www.scopus.com/inward/record.uri?eid=2-s2.0-85061454617&doi=10.1016%2fj.nima.2019.01.092&partnerID=40&md5=b5744111bec9d977d703be1022857152https://www.scopus.com/inward/record.uri?eid=2-s2.0-85061454617&doi=10.1016%2fj.nima.2019.01.092&partnerID=40&md5=b5744111bec9d977d703be1022857152https://www.scopus.com/inward/record.uri?eid=2-s2.0-85061454617&doi=10.1016%2fj.nima.2019.01.092&partnerID=40&md5=b5744111bec9d977d703be1022857152https://www.scopus.com/inward/record.uri?eid=2-s2.0-85061454617&doi=10.1016%2fj.nima.2019.01.092&partnerID=40&md5=b5744111bec9d977d703be1022857152https://www.scopus.com/inward/record.uri?eid=2-s2.0-85088820637&doi=10.1080%2f01496395.2020.1795680&partnerID=40&md5=114d16106ecd2fc2ce4de98011175b67https://www.scopus.com/inward/record.uri?eid=2-s2.0-85088820637&doi=10.1080%2f01496395.2020.1795680&partnerID=40&md5=114d16106ecd2fc2ce4de98011175b67https://www.scopus.com/inward/record.uri?eid=2-s2.0-85088820637&doi=10.1080%2f01496395.2020.1795680&partnerID=40&md5=114d16106ecd2fc2ce4de98011175b67https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084836755&doi=10.5006%2f3402&partnerID=40&md5=c19e2c14cc06ceb493a2b2b66b76f428https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084836755&doi=10.5006%2f3402&partnerID=40&md5=c19e2c14cc06ceb493a2b2b66b76f428https://www.scopus.com/inward/record.uri?eid=2-s2.0-85079001332&doi=10.1016%2fj.nme.2020.100725&partnerID=40&md5=f48101960e20fe4446a07e5e800e281ehttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85079001332&doi=10.1016%2fj.nme.2020.100725&partnerID=40&md5=f48101960e20fe4446a07e5e800e281e





Journal & Review Articles - 2019

[1] Odette, G.R., Yamamoto, T., Williams, T.J., Nanstad, R.K., English, C.A., "On the history and status of reactor pressure vessel steel ductile to brittle transition temperature shift prediction models", (2019) Journal of Nuclear Materials, 526, art. no. 151863.

[2] Jivkov, A.P., Burgos, D.S., Ruggieri, C., Beswick, J., Savioli, R., James, P., Sherry, A., "Use of local approaches to

calculate changes in cleavage fracture toughness due to pre-straining and constraint effects", (2019) Theoretical and

Applied Fracture Mechanics, 104, art. no. 102380.

[3] Neill, T.S., Morris, K., Pearce, C.I., Abrahamsen-Mills, L., Kovarik, L., Kellet, S., Rigby, B., Vitova, T., Schacherl, B.,

Shaw, S., "Silicate stabilisation of colloidal UO2 produced by uranium metal corrosion", (2019) Journal of Nuclear


[4] Smith, K.F., Morris, K., Law, G.T.W., Winstanley, E.H., Livens, F.R., Weatherill, J.S., Abrahamsen-Mills, L.G., Bryan,

N.D., Mosselmans, J.F.W., Cibin, G., Parry, S., Blackham, R., Law, K.A., Shaw, S., "Plutonium(IV) Sorption during

Ferrihydrite Nanoparticle Formation", (2019) ACS Earth and Space Chemistry, 3 (11), pp. 2437-2442.

[5] Goût, T.L., Harrison, M.T., Farnan, I., "Relating Magnox and international waste glasses", (2019) Journal of Non-

Crystalline Solids, 524, art. no. 119647.

[6] Peakman, A., Grove, C., Fitzgerald, K., Gregg, R., "Development of an equilibrium loading pattern and whole-core

fuel performance assessment in the Advanced Boiling Water Reactor (ABWR) with UO2 and U3Si2 fuels", (2019)

Progress in Nuclear Energy, 117, art. no. 103053.

[7] Davidson, E., Betzler, B., Gregg, R., Worrall, A., "Modeling a fast spectrum molten salt reactor in a systems

dynamics fuel cycles code", (2019) Annals of Nuclear Energy, 133, pp. 409-424.

[8] Metcalfe, M.P., Tzelepi, A., Copeland, G., "The release of carbon-14 from irradiated PGA graphite by thermal

treatment in air", (2019) Annals of Nuclear Energy, 133, pp. 110-121.

[9] Sayers, J., Lozano-Perez, S., Nicholls, R.J., Ortner, S., "A high-resolution characterization of the oxide-metal

interface in Zircaloy-4 and its relation to the oxidation and hydrogen pickup mechanisms", (2019) Journal of Nuclear

Materials, 525, pp. 72-82.

[10] Wright, T., Bennett, S., Heinitz, S., Köster, U., Mills, R., Soldner, T., Steier, P., Wallner, A., Wieninger, T.,

"Measurement of the 13C(n, γ) thermal cross section via neutron irradiation and AMS", (2019) European Physical

Journal A, 55 (11), art. no. 200.

[11] Ambrosi, R.M., Williams, H., Watkinson, E.J., Barco, A., Mesalam, R., Crawford, T., Bicknell, C., Samara-Ratna, P.,

Vernon, D., Bannister, N., Ross, D., Sykes, J., Perkinson, M.-C., Burgess, C., Stroud, C., Gibson, S., Godfrey, A., Slater,

R.G., Reece, M.J., Chen, K., Simpson, K., Tuley, R., Sarsfield, M., Tinsley, T.P., Stephenson, K., Freis, D., Vigier, J.-F.,

Konings, R.J.M., Fongarland, C., Libessart, M., Merrifield, J., Kramer, D.P., Byrne, J., Foxcroft, B., "European

Radioisotope Thermoelectric Generators (RTGs) and Radioisotope Heater Units (RHUs) for Space Science and

Exploration", (2019) Space Science Reviews, 215 (8), art. no. 55.

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