糖心原创

Contact

• workRoom C56 Coates Building
  University Park
  Nottingham
  NG7 2RD
  UK
• work011574 84674
• Emma.Barney@nottingham.ac.uk

Biography

Dr Emma Barney is an associate professor in the Department of Mechanical, Materials and Manufacturing Engineering at the 糖心原创. She is currently the Deputy Director for Education and Student Experience for the department. In addition to this, she teaches Statics to 1st year Aerospace undergraduates on the Statics and Dynamics module, which she also convenes, and runs ~four final year research projects every year.

Background: Emma completed her PhD in Physics at the University of Warwick in 2008, with a thesis entitled "The Structural Role of Lone-Pair Ions in Glass". This studentship focused on the interaction of heavy metal ions, such as lead and tellurium, with traditional network glasses such as borates and aluminates. The research was part-funded by the Science and Technology Facilities Council (STFC) and, upon completion, Emma was employed by STFC as an instrument scientist for the GeM diffractometer at the ISIS Pulsed Neutron and Muon Source, Rutherford Appleton Laboratory (2008-2011).

Whilst working at ISIS, Emma developed a strong research programme, investigating complex heavy metal oxide glasses, while also forming collaborations to study bio-active glasses, metallic glasses, metal-organic frameworks and cyanides. She was also responsible for commissioning the instrumentation, and developing new data analysis methods for, the first commercially supplied silver-source Panalytical X-ray diffractometer. The data obtained from this instrument are suitable for total scattering analysis and, when combined with neutron data, has proven to be a powerful method for determining the structure of complex disordered materials that are intractable using one diffraction technique to maximise the value of neutron diffraction experiments. The first paper published from this work was in the high-profile Physical Review Letters journal, winning the inaugural Panalytical award for outstanding research using laboratory X-rays.

In 2011 Emma was awarded the 2-year Nottingham Advanced Research (NAR) Fellowship at the 糖心原创. The focus of this Fellowship was to apply her understanding of lone pair ions in glasses to technologically relevant arsenic based mid-infrared (mid-IR) optical glasses. Following the completion of the fellowship, Emma was awarded a lectureship and has been an aca

Emma is a fellow of the Society of Glass Technology, and is active in supporting the society. She is also a member of the Neutron Scattering Committee for the Institute of Physics.

Emma is part of the Advanced Materials Research Group.

Expertise Summary

Neutron diffraction

X-ray diffraction

Materials characterization

Oxide glass melting

Chalcogenide glass melting

EXAFS

Nuclear Magnetic Resonance

Raman Spectroscopy

Teaching Summary

Dr Barney teaches the first year Aerospace module "Aerospace Statics and Dynamics" with Dr Mikhail Matveev. This module covers the basics of Newtons laws, equilibrium, pin jointed structures, stress… read more

Research Summary

Dr Barney has a long standing interest in the structure of glass and disordered materials, with a particular focus on understanding structure-property relationships. Her primary research tool is… read more

Selected Publications

• TOWEY JJ and BARNEY E R, 2016. JOURNAL OF PHYSICAL CHEMISTRY B. 120, 13169-13183
• BARNEY ER, ABDEL-MONEIM NS, TOWEY JJ, TITMAN J, MCCARTHY JE, BOOKEY HT, KAR A, FURNISS D, SEDDON AB, 2015. Physical Chemistry Chemical Physics.
• BARNEY ER, HANNON AC, HOLLAND D, UMESAKI N, TATSUMISAGO M, 2015. Journal of Non-Crystalline Solids.
• BARNEY, ER, TANG, Z, SEDDON, AB, FURNISS, D, SUJECKI, S, BENSON, T, NEATE, N and GIANOLIO, D, 2014. RSC Advances. 4, 42364

• View all publications

Find me on Twitter: @emmabarney1 14^th-26^th July 2015, Visiting Student from Coe College, Iowa, USA A student from Professor Steve Feller's research group is visiting my for two weeks to make some AE tellurite glasses and get involved with extruding chalcogenide glasses. 鈥�11^th July 2015, Harwell Campus Open Day, Rutherford Appleton Laboratory, Oxfordshire Not strictly work, but this weekend, I took my Husband, my parents, and a visiting undergraduate student from Coe College (Iowa, USA) to the Harwell Open day to look around ISIS and Diamond. It was extremely well organised, the weather was fabulous, and a good time was had by all. It was especially nice to show my parents what I spend a lot of my time doing! 鈥�25^th June 2015, Rutherford Appleton Laboratory, Oxfordshire The first meeting of the local organising committee for the 2017 Borates and Phosphates glass conferences was held. Lots of logistical issues to consider, so fortunately we have a very enthusiastic team involved! 20^th-21^th May 2015, Neutron and Muon User Meeting, Hinkley I gave an invited presentation about my research on chalcogenide and tellurite glasses for the functional materials session. It was a lovely opportunity to catch up with other researchers, find out how access to neutrons will change over the the next few years, and discuss as a community what improvments to facilities and support could be made 29^th January 2015: Paper accepted for publication Alkali environments in tellurite glasses, J. Non-Cryst. Solids, 2015,414, 33-41 23^rd January 2015: Paper accepted for publication Correlating structure with non-linear optical properties in xAs₄₀Se₆₀路(1 鈭�x)As₄₀S₆₀ glasses, Phys. Chem. Chem. Phys., 2015,17, 6314-6327 6^th-7^th January 2015, ISIS Disordered Materials User Group Meeting, Abingdon, Oxfordshire This week I was at the ISIS Disordered Materials user group meeting, with Dr James Towey presented the work he has been doing with me to model the structure of Arsenic-Selenium-Sulfide glasses. 10^th-11^th November 2014, ISIS Crystallography User Group Meeting, Abingdon, Oxfordshire

This week I was at the ISIS crystallography User group meeting to find out what new developments are underway at ISIS. The crystallography meeting is not my usual meeting, but I felt justified in attending, having put in my first proposal (with Prof. David Grant) to use the High Resolution Powder Diffractometer this year. It was lovely to meet some new people and listen to some interesting new (for me) science. The highlight was the demonstration of the piezoelectric effect during Prof. Mike Glazer's talk - Learned academics giggling as they gave themselves mild electric shocks!

21^st-24^th September 2014, , Parma, Italy

My final conference for 2014 was funded by the Society of Glass Technology and I attended to receive the . I again got to shake hands with Russell when he presented the award to me and posed for photos. It was also very nice to see Professor Julian Jones again, who received the .

This was my first time at an ESG conference and I was impressed by both the size of the conference and the diversity of topics discussed. My invited talk was long enough for me to discuss a significant amount of my recent research on tellurite glasses, including , alkali tellurites, aluminium tellurites and . The talk was well received and there was a lot of discussion afterwards.

10^th-12^th September 2014, , Durham UK.

This conference is the annual meeting of the SGT. The theme of this conference was "ancient glasses/new techniques" leading to an interesting and diverse symposium. Topics ranged from glasses along the silk road (Julian Henderson: Nottingham) through Nuclear Magnetic Resonance (John Hanna:Warwick) to Aero-levitated glasses (Mario Affatigato: Coe College). My attendance was funded through the 's publicity fund and I spoke about recent results I obtained on aluminium tellurite glasses.

The conference dinner was very special for me for two reasons. Firstly Fernando Barrera-Betanzos was awarded the for best undergraduate project report. Fernando was my first project student at Nottingham and did an excellent project with me, topped off by a very professional and interesting talk at the conference. Secondly, I was made a Fellow of the society by the President, Professor Russell Hand. Following the formal part of the evening, I had a chance to look thorough the book of fellows and see some well recognized names in there.

21^st鈥�-28^th鈥� August 2014: , Jeju, South Korea.

I attended this conference with my PDRA, James Towey, and several members of the Novel Optical Glasses group. I presented recent work using , while James discussed the validity of using EPSR to model chalcogenide glasses. Both papers were well received and the conference was an excellent opportunity to meet other researchers working on optical glasses. The Korean food was also a highlight, including raw fish, black pork and the ubiquitous kimchi.

19^th August 2014: Paper accepted for publication

The local environment of Dy³⁺ in selenium-rich chalcogenide glasses, RSC Adv., 2014,4, 42364-42371

29^th June - 5^th July 2014: , Pardubice, Czech Republic.

I presented work carried out with Dr Ifty Ahmed and Nusrat Sharmin on boron doped calcium phosphate glasses. While there, I successfully presented the bid to host the 2017 conference, on behalf of the Society of Glass Technology. The next conference will be held in Oxford at St Anne's College.

Dr Barney teaches the first year Aerospace module "Aerospace Statics and Dynamics" with Dr Mikhail Matveev. This module covers the basics of Newtons laws, equilibrium, pin jointed structures, stress and strain, beam bending, displacement, velocity and acceleration for linear and angular motion, momentum, inertia, work, energy and power. There are two labs with the module that give hand-on experience of beam bending, balancing rotating systems, and inertia.

Emma runs a number of final year projects for undergraduates. These are generally focused towards the manufacture of glasses and understanding their structure and properties.

Current Research

Dr Barney has a long standing interest in the structure of glass and disordered materials, with a particular focus on understanding structure-property relationships. Her primary research tool is neutron and X-ray diffraction, which yields quantitative information about the short and intermediate range order in glass. These results are used in conjunction with physical and optical property measurements, Raman spectroscopy and Nuclear Magnetic Resonance to develop a detailed picture of the glass structure and related properties.

Currently Emma is studying working with chalcogenide and heavy metal oxide glasses of optical applications with , and with .

Past Research

Some highlights of recent papers:

The local environment of Dy³⁺ in selenium-rich chalcogenide glasses

• E.R. Barney, Z. Tang, A.B. Seddon, D. Furniss, S. Sujecki, T. Benson, N. Neate, D. Gianolio, RSC Adv., 4 (2014) 42364. []

The environment of Dy³⁺ is investigated when added as DyCl₃ or Dy foil into two base glasses, Ge_16.5As_19-xGa_xSe_64.5, where x= 3 or 10 at.%, at doping levels between 0 and 3000 parts per million by weight (ppmw) Dy³⁺. Extended X-ray Absorption Fine Structure demonstrates the glasses doped with Dy foil, or less than 1000 ppmw Dy³⁺ as DyCl₃, contain Dy ions that are fully incorporated into the glass network and are coordinated by 7-8 Se atoms. However, when the DyCl₃ dopant is present in concentrations [greater-than-or-equal] 1000 ppmw Dy³⁺ the environment is dominated by Dy-Cl bonds. Furthermore, these Dy-Cl environments are nanocrystalline, retaining chemical order beyond the first coordination shell. By comparison with XRD and FTIR results, we report that the presence of [small alpha]-Ga₂Se₃ crystallites in the glass, and the increased optical scattering in the fibres, are both related to the presence of DyCl3 crystallites.

Terminal Oxygens in Amorphous TeO₂

• E.R. Barney, A.C. Hannon, D. Holland, N. Umesaki, M. Tatsumisago, R.G. Orman, S. Feller, J. Phys. Chem. Lett., 4 (2013) 2312. []

Understanding the structure of single-component glasses is essential for developing structural models of more complex multicomponent glasses. Currently, such models for tellurite systems are purely qualitative. This study presents neutron diffraction and Raman spectroscopy measurements of the structure of pure amorphous TeO₂, showing that it is formed from a combination of two-thirds [TeO₄] pseudo-trigonal bipyramids and one-third [TeO₃] trigonal pyramids with a terminal oxygen. This is in contrast to all crystalline polymorphs of TeO₂, which are formed solely from the four-coordinated units. Using this result, a quantitative model has been developed that successfully predicts the average Te-O coordination number, n_TeO, for a series of potassium tellurite glasses, xK₂翱路(100-虫)罢别翱₂. The observed n_TeO is constant up to 15 mol % K₂O due to the presence of terminal oxygen atoms in the tellurite network.

Short-Range Order and Dynamics in Crystalline alpha-TeO₂

• E.R. Barney, A.C. Hannon, D. Holland, J. Phys. Chem. C, 116 (2012) 3707. []

The short-range order and dynamics in crystalline alpha-TeO₂ have been investigated by neutron and X-ray total scattering and by Rietveld refinement of neutron diffraction data. The true lengths of the two bonds in a Te-O-Te bridge are 1.882(1) and 2.117(1) angstrom, and the high valence, 1.293, of the strong, short bond is balanced by the low valence, 0.686, of the weak, long bond. The root-mean-square (rms) thermal variation, 0.083(1) angstrom, in the long bond length is nearly twice the rms thermal variation, 0.048(1) angstrom, in the short bond length because the largest motion of both Te and O atoms is perpendicular to the short bonds. A bond-valence model for the thermal variation in bond lengths, in which both the average and the instantaneous positions of the atoms conform to bond-valence requirements, accounts closely for the observed distribution of Te-O distances in alpha-TeO₂. This has important implications for the interpretation of diffraction experiments on tellurite glasses.

Future Research

I welcome enquiries from potential PhD candidates from Home, EU and international countries who are interested in the following research areas: Structure of glass and disordered materials, with a particular focus on understanding structure-property relationships.

• ITOH, K., SAIDA, J., BARNEY, E. R. and HANNON, A. C., 2023. Journal of Alloys and Compounds. 961,
• SEDDON, A. B., S脫JKA, L., FURNISS, D., TANG, Z., CRANE, R., NUNES, J., PHANG, S., BARNEY, E., FARRIES, M., BENSON, T. M. and SUJECKI, S., 2021.
• NUNES, J. J., SOJKA, 艁, CRANE, R. W., FURNISS, D., TANG, Z. Q., MABWA, D., XIAO, B., BENSON, T. M., FARRIES, M., KALFAGIANNIS, N., BARNEY, E., PHANG, S., SEDDON, A. B. and SUJECKI, S., 2021. Optics Letters. 46(15), 3504-3507
• SEDDON, A. B., SOJKA, L., SHEN, M., TANG, Z. Q., FURNISS, D., BARNEY, E., SAKR, H., JAYASURIYA, D., PARNELL, H., BUTTERWORTH, J., CRANE, R. W., NUNES, J. J., MABWA, D. P., FARRIES, M., PHANG, S., BENSON, T. M. and SUJECKI, S., 2021. . In: MID-INFRARED FIBER PHOTONICS: Glass Materials, Fiber Fabrication and Processing, Laser and Nonlinear Sources Elsevier. 401-502
• VAISHNAV, S., HANNON, A. C., BARNEY, E. R. and BINGHAM, P. A., 2020. Neutron Diffraction and Raman Studies of the Incorporation of Sulfate in Silicate Glasses: Journal of Physical Chemistry C Journal of Physical Chemistry C. 124(9), 5409-5424
• CRANE, R. W., S脫JKA, 艁, FURNISS, D., NUNES, J., BARNEY, E., FARRIES, M. C., BENSON, T. M., SUJECKI, S. and SEDDON, A. B., 2020. Optics Express. 28(8), 12373-12384
• CRANE, R. W., S脫JKA, 艁, FURNISS, D., NUNES, J., BARNEY, E., FARRIES, M. C., BENSON, T. M., SUJECKI, S. and SEDDON, A. B., 2020. Optics Express. 28(8), 12373-12384
• BARNEY, E., LAORODPHAN, N., MOHD-NOOR, F., HOLLAND, D., KEMP, T., IUGA, D. and DUPREE, R., 2020. Toward a Structural Model for the Aluminum Tellurite Glass System: Journal of Physical Chemistry C Journal of Physical Chemistry C. 124(37), 20516-20529
• ARAFAT, A., SAMAD, S. A., TITMAN, J. J., LEWIS, A. L., BARNEY, E. R. and AHMED, I., 2020. Biomedical Glasses. 6(1), 34-49
• SEDDON, A. B., SUJECKI, S., SOJKA, L., FURNISS, D., TANG, Z., MABWA, D., NUNES, J., CRANE, R., PARNELL, H., JAYASURIYA, D., SHEN, M., FANG, Y., PHANG, S., BERE艢-PAWLIK, E., BARNEY, E., FARRIES, M. and BENSON, T., 2020.
• AL-HASNI, B. M., MOUNTJOY, G. and BARNEY, E., 2020. International Journal of Applied Glass Science.
• ITOH, K., YOSHIOKA, Y., BARNEY, E. R. and HANNON, A. C., 2019. Journal of Alloys and Compounds. 770, 350-355
• SUJECKI, S., SOJKA, L., BERES-PAWLIK, E., ANDERS, K., PIRAMIDOWICZ, R., TANG, Z., FURNISS, D., BARNEY, E., BENSON, T. and SEDDON, A., 2019. Journal of Luminescence. 209, 14-20
• PATEL, U., MACRI-PELLIZZERI, L., ZAKIR HOSSAIN, K. M., SCAMMELL, B. E., GRANT, D. M., SCOTCHFORD, C. A., HANNON, A. C., KENNEDY, A. R., BARNEY, E. R., AHMED, I. and SOTTILE, V., 2019. Journal of Tissue Engineering and Regenerative Medicine.
• SEDDON, A. B., TANG, Z., FURNISS, D., BARNEY, E., SOJKA, L., BENSON, T. M. and SUJECKI, S., 2019.
• SUJECKI, S., SOJKA, L., JAYASURIYA, D., SHEN, M., TANG, Z., BARNEY, E., FURNISS, D., BENSON, T. M. and SEDDON, A. B., 2019.
• ABUL ARAFAT, SABRIN A. SAMAD, MATTHEW D. WADGE, MD TOWHIDUL ISLAM, ANDREW L. LEWIS, EMMA R. BARNEY and IFTY AHMED, 2019. International Journal of Applied Glass Science.
• SUJECKI, S., SOJKA, L., PAWLIK, E., ANDERS, K., PIRAMIDOWICZ, R., TANG, Z. Q., FURNISS, D., BARNEY, E., BENSON, T. and SEDDON, A., 2018. Numerical analysis of spontaneous mid-infrared light emission from terbium ion doped multimode chalcogenide fibers: Journal of Luminescence Journal of Luminescence. 199, 112-115
• TANG, Z. Q., SOJKA, L., FURNISS, D., NUNES, J., SAKR, H., BARNEY, E., SUJECKI, S., BENSON, T. M. and SEDDON, A. B., 2018. Comparative study of praseodymium additives in active selenide chalcogenide optical fibers: Optical Materials Express Optical Materials Express. 8(12), 3910-3926
• SUJECKI, S., SOJKA, L., SEDDON, A. B., BENSON, T. M., BARNEY, E., FALCONI, M. C., PRUDENZANO, F., MARCINIAK, M., BAGHDASARYAN, H., PETERKA, P. and TACCHEO, S., 2018. Photonics. 5(4),
• SUJECKI, S., SOJKA, L., TANG, Z., BARNEY, E., FURNISS, D., BENSON, T. M. and SEDDON, A. B., 2018. In: 2018 20th International Conference on Transparent Optical Networks (ICTON)(2018). 1-4
• SUJECKI, S., SOJKA, L., BERES-PAWLIK, E., PIRAMIDOWICZ, R., SAKR, H., TANG, Z., BARNEY, E., FURNISS, D., BENSON, T. M. and SEDDON, A. B., 2017.
• SUJECKI, S., SOJKA, L., BERES-PAWLIK, E., SAKR, H., TANG, Z., BARNEY, E., FURNISS, D., BENSON, T. M. and SEDDON, A. B., 2017. Optical and Quantum Electronics. 49(12),
• PATEL, U., MOSS, R. M., HOSSAIN, K. M. Z., KENNEDY, A. R., BARNEY, E. R., AHMED, I. and HANNON, A. C., 2017. Structural and physico-chemical analysis of calcium/strontium substituted, near-invert phosphate based glasses for biomedical applications: Acta Biomaterialia Acta Biomaterialia. 60, 109-127
• TANG, Z., FURNISS, D., NEATE, N. C., BARNEY, E., BENSON, T. M. and SEDDON, A. B., 2016. Journal of the American Ceramic Society.
• JAYASURIYA, D., WILSON, B., FURNISS, D., TANG, Z., BARNEY, E., BENSON, T. M. and SEDDON, A. B., 2016.
• JAYASURIYA D, WILSON B, FURNISS D, TANG Z, BARNEY E, BENSON TM and SEDDON A B, 2016. In: Optical Fibers and Sensors for Medical Diagnostics and Treatment Applications XVI; San Francisco; United States; 13 February 2016 through 14 February 2016; Code 121707.
• SOJKA L, FURNISS D, TANG Z, SAKR H, BARNEY E, BENSON T M, SEDDON A B, SUJECKI S, SCHOLLE K and LAMRINI S, 2016. In: 18th International Conference on Transparent Optical Networks, ICTON 2016; Trento; Italy; 10 July 2016 through 14 July 2016; Category numberCFP16485-ART; Code 123441.
• SOJKA, L., FURNISS, D., TANG, Z., SAKR, H., BARNEY, E., BENSON, T. M., SEDDON, A. B., SUJECKI, S., SCHOLLE, K., LAMRINI, S. and FUHRBERG, P., 2016.
• TOWEY JJ and BARNEY E R, 2016. JOURNAL OF PHYSICAL CHEMISTRY B. 120, 13169-13183
• BARNEY ER, ABDEL-MONEIM NS, TOWEY JJ, TITMAN J, MCCARTHY JE, BOOKEY HT, KAR A, FURNISS D, SEDDON AB, 2015. Physical Chemistry Chemical Physics.
• BARNEY ER, HANNON AC, HOLLAND D, UMESAKI N, TATSUMISAGO M, 2015. Journal of Non-Crystalline Solids.
• SUJECKI, S., OLADEJI, A., PHILLIPS, A., SEDDON, A. B., BENSON, T. M., SAKR, H., TANG, Z., BARNEY, E., FURNISS, D., SOJKA, L., BERES-PAWLIK, E., SCHOLLE, K., LAMRINI, S. and FURBERG, P., 2015. OPTICAL AND QUANTUM ELECTRONICS. 47(6), 1389-1395
• SOJKA, L., TANG, Z., SAKR, H., FURNISS, D., BENSON, T. M., SEDDON, A. B., BARNEY, E., BERES-PAWLIK, E. and SUJECKI, S., 2015.
• ROMANOVA, E. A., KONYUKHOV, A. I., KOCHUBEY, V. I., BENSON, T. M., BARNEY, E., ABDEL-MONEIM, N., FURNISS, D., SEDDON, A. B. and GUIZARD, S., 2015. Journal of Physics: Conference Series. 619(1),
• TANG, ZHUOQI, FURNISS, DAVID, FAY, MICHAEL, NEATE, NIGEL C., CHENG, YIN, BARNEY, EMMA, SOJKA, LUKASZ, SUJECKI, SLAWOMIR, BENSON, TREVOR M. and SEDDON, ANGELA B., 2014. JOURNAL OF THE AMERICAN CERAMIC SOCIETY. 97(2), 432-441
• PICKUP DM, NEWPORT RJ, BARNEY ER, KIM JY, VALAPPIL SP, KNOWLES JC, 2014. Journal of Biomedical Applications. 28(8), 1226-1234
• BUTTERWORTH, J.H, JAYASURIYA, D, LI, Q.Q., FURNISS, D, MONEIM, N.A., BARNEY E, SUJECKI S, BENSON TM, SANGHERA JS and SEDDON AB, 2014. In: Progress in Biomedical Optics and Imaging - Proceedings of SPIE.
• SAKR, H, TANG, Z, FURNISS, D, SOJKA, L., MONEIM, N.A, BARNEY, E, SUJECKI, S., BENSON, T.M and SEDDON, A.B, 2014. In: Progress in Biomedical Optics and Imaging - Proceedings of SPIE.
• BARNEY, ER, TANG, Z, SEDDON, AB, FURNISS, D, SUJECKI, S, BENSON, T, NEATE, N and GIANOLIO, D, 2014. RSC Advances. 4, 42364
• FURNISS, D., SAKR, H., TANG, Z., SOJKA, L., SUJECKI, S., BARNEY, E., BENSON, T. M. and SEDDON, A. B., 2014.
• SUJECKI, S. , OLADEJI, A., PHILLIPS, A., SEDDON, A.B., BENSON, T.M., SAKR, H., TANG, Z., BARNEY, E., FURNISS, D., S脫JKA, 艁., BERE艢-PAWLIK, E., SCHOLLE, K., LAMRINI, S., FURBERG, P., 2014. Optical and Quantum Electronics.
• SMITH, J.M., KING, S.P., BARNEY, E.R., HANNA, J.A., NEWPORT, R.J. and PICKUP, D.M., 2013. JOURNAL OF CHEMICAL PHYSICS. 138, 034501
• PLAYFORD, HELEN Y., HANNON, ALEX C., BARNEY, EMMA R. and WALTON, RICHARD I., 2013. CHEMISTRY-A EUROPEAN JOURNAL. 19(8), 2803-2813
• SARTBAEVA, A., REES, N.H., EDWARDS, P.P., RAMIREZ-CUESTA, A.J., BARNEY, E., 2013. Local probes show that framework modification in zeolites occurs on ammonium exchange without calcination Journal of Materials Chemistry A. 1(25), 7415-7421
• BARNEY E.R., HANNON A.C., HOLLAND D., UMESAKI N., TATSUMISAGO M., ORMAN R.G., FELLER S., 2013.
• AL-HASNI B.M., MOUNTJOY G., BARNEY E., GISMELSEED A., 2013.
• HIBBLE S.J., CHIPPINDALE A.M., MARELLI E., KROEKER S., MICHAELIS V.K., GREER B.J., AGUIAR P.M., BILBE E.J., BARNEY E.R., HANNON A.C., 2013.
• MOURAD, MAURICE C. D., MOKHTAR, MOHAMED, TUCKER, MATTHEW G., BARNEY, EMMA R., SMITH, RONALD I., ALYOUBI, ABDULRAHAMAN O., BASAHEL, SULAIMAN N., SHAFFER, MILO S. P. and SKIPPER, NEAL T., 2012. JOURNAL OF MATERIALS CHEMISTRY. 21(39), 15479-15485
• BINGHAM, P. A. and BARNEY, E. R., 2012. JOURNAL OF PHYSICS-CONDENSED MATTER. 24(17), 175403
• MARTIN, R. A., TWYMAN, H. L., REES, G. J., BARNEY, E. R., MOSS, R. M., SMITH, J. M., HILL, R. G., CIBIN, G., CHARPENTIER, T., SMITH, M. E., HANNA, J. V. and NEWPORT, R. J., 2012. JOURNAL OF MATERIALS CHEMISTRY. 22(41), 22212-22223
• SENKOV, O. N., CHENG, Y. Q., MIRACLE, D. B., BARNEY, E. R., HANNON, A. C. and WOODWARD, C. F., 2012. JOURNAL OF APPLIED PHYSICS. 111(12), 123515
• BARNEY, E.R., HANNON, A.C. and HOLLAND, D., 2012. Journal of Physical Chemistry C. 116(5), 3707-3718
• SOPER, ALAN K. and BARNEY, EMMA R., 2012. JOURNAL OF APPLIED CRYSTALLOGRAPHY. 45, 1314-1317
• MARTIN, RICHARD A., TWYMAN, HELEN L., REES, GREGORY J., SMITH, JODIE M., BARNEY, EMMA R., SMITH, MARK E., HANNA, JOHN V. and NEWPORT, ROBERT J., 2012. PHYSICAL CHEMISTRY CHEMICAL PHYSICS. 14(35), 12105-12113
• BARNEY, E.R., HANNON, A.C., LAORODPHAN, N. and HOLLAND, D., 2011. Journal of Physical Chemistry C. 115(30), 14997-15007
• SOPER, A.K. and BARNEY, E.R., 2011. Journal of Applied Crystallography. 44(4), 714-726
• BARNEY, ER, HANNON, AC, SENKOV, ON, SCOTT, JM, MIRACLE, DB and MOSS, RM, 2011. Intermetallics. 19(7), 860-870
• BENNETT, TD, KEEN, DA, TAN, JC, BARNEY, ER, GOODWIN, AL and CHEETHAM, AK, 2011. Angewandte Chemie-International Edition. 50(13), 3067-3071
• PLAYFORD, HELEN Y., MODESHIA, DEENA R., BARNEY, EMMA R., HANNON, ALEX C., WRIGHT, CHRISTOPHER S., FISHER, JANET M., AMIEIRO-FONSECA, ALVARO, THOMPSETT, DAVID, O'DELL, LUKE A., REES, GREGORY J., SMITH, MARK E., HANNA, JOHN V. and WALTON, RICHARD I., 2011. CHEMISTRY OF MATERIALS. 23(24), 5464-5473
• SARDAR, K, PLAYFORD, HY, DARTON, RJ, BARNEY, ER, HANNON, AC, TOMPSETT, D, FISHER, J, KASHTIBAN, RJ, SLOAN, J, RAMOS, S, CIBIN, G and WALTON, RI, 2010. Chemistry Of Materials. 22(22), 6191-6201
• SENKOV, ON, MIRACLE, DB, BARNEY, ER, HANNON, AC, CHENG, YQ and MA, E, 2010. Physical Review B. 82(10), -
• PARKER, SF, REFSON, K, HANNON, AC, BARNEY, ER, ROBERTSON, SJ and ALBERS, P, 2010. Journal Of Physical Chemistry C. 114(33), 14164-14172
• MOSS, RM, ABOU NEEL, EA, PICKUP, DM, TWYMAN, HL, MARTIN, RA, HENSON, MD, BARNEY, ER, HANNON, AC, KNOWLES, JC and NEWPORT, RJ, 2010. Journal Of Non-Crystalline Solids. 356(25-27), 1319-1324
• BENNETT, TD, GOODWIN, AL, DOVE, MT, KEEN, DA, TUCKER, MG, BARNEY, ER, SOPER, AK, BITHELL, EG, TAN, JC and CHEETHAM, AK, 2010. Physical Review Letters. 104(11), 3067
• BARNEY, ER, HANNON, AC, LAORODPHAN, N, DUPREE, R and HOLLAND, D, 2010. JOURNAL OF NON-CRYSTALLINE SOLIDS. 356(44-49), 2517-2523
• BARNEY, ER, HANNON, AC and HOLLAND, D, 2009. A Multi-Technique Structural 糖心原创 Of The Tellurium Borate Glass System Phys. Chem. Glasses: Eur. J. Glass Sci. Technol. B. 50, 156-164
• HANNON, AC, BARNEY, ER and HOLLAND, D, 2009. The Structure Of Tin Borate Based Glasses Physics and Chemistry of Glasses-European Journal of Glass Science and Technology Part B. 50, 271-283
• HANNON, AC, BARNEY, ER, HOLLAND, D and KNIGHT, KS, 2008. Journal Of Solid State Chemistry. 181(5), 1087-1102
• BARNEY, ER, HANNON, AC, HOLLAND, D, WINSLOW, D, RIJAL, B, AFFATIGATO, M and FELLER, SA, 2007. JOURNAL OF NON-CRYSTALLINE SOLIDS. 353, 1741-1747