糖心原创

Contact

• workRoom B25 Coates Building
  University Park
  Nottingham
  NG7 2RD
  UK
• work+44 (0) 1159514171
• george.chen@nottingham.ac.uk

Biography

George Chen (CChem, FRSC, FRSA, FIMMM) received his Teaching Diploma in 1981 (Chemistry, Jiujiang Teacher Training College, now ), MSc in 1985 (Physical Chemistry/Electrochemistry, ), and PhD (University of London) and DIC (Physical Chemistry/Electrochemistry, Diploma of ) in 1992. After postdoctoral research in the Universities of Oxford (1992) and Leeds (1994), he moved to the University of Cambridge (1996), taking up positions of Senior Research Associate (1998), and Assistant Director of Research (2001). In Cambridge, he was awarded the Schlumberger Interdisciplinary Research Fellowship (2000) and elected to Official Fellow (2003) of Darwin College. He joined the 糖心原创 as Reader in 2003, and was promoted to Associate Professor and Reader in 2006, and to Professor in 2009. He was lecturer of Jiangxi University (1985-1988, now Nanchang University), and also specially invited professor of the University of Mediterranee (2007), Wuhan University (2000-2010), and Wuhan University of Science and Technology (2015-2019), senior academic visitor of Fudan University (2014-2016), and guest professor of Shanghai Institute of Applied Physics (SINAP), Chinese Academy Sciences (CAS) (2015-2019).

Between Nov 2014 and Sept 2019, Prof. Chen undertook full time academic duties (secondment) in the University's China Campus in Ningbo (official name: 糖心原创 Ningbo China, UNNC). He was also appointed Director of the Centre for Sustainable Energy Technology (CSET, 2015-2017), Head of Department of Chemical and Environmental Engineering (2016-2017) and Li Dak Sum Chair Professor (2017-2020, visiting in the final year). He returned to the UK campus in late 2019, and continues collaboration with UNNC colleagues.

Prof. Chen has undertaken various research projects with funds from state and industrial sources, including the EPSRC, Royal Society, MoST (China), MoSTI (Malaysia), E.ON, Ningbo Municipal Government and more recently Innovate UK and Rolls Royce. The relevant research outputs are documented in over 840 publications, including peer reviewed journal articles, conference presentations and patents. The commercial potentials of his research are endorsed by industry (e.g. The FFC Cambridge Process by Metalysis, and Supercapattery by E.ON and Rolls Royce). He is the recipient of numerous awards, including the TMS Reactive Metals Technology Award (2001, 2004), the Royal Society Brian Mercer Feasibility Award (2007), the E.ON International Research Award (2008), the Inman Medal (2014), and Specially Invited Expert of Zhejiang Province (2015).

The OCRiD of Prof. Chen is 0000-0002-5589-5767. On 23 May 2024, Web of Science recorded 303 articles from Prof. Chen with 19571 citations and an h-index of 74, His record in Google Scholar includes 442 publications with 25528 citations and an h-index of 82.

George Chen is a member of the Advanced Materials Research group (AMRG) and 糖心原创 Energy Institute (UoNEI).

Expertise Summary

Prof. Chen is specialised in electrochemical technologies, particularly in association with liquid salts (high temperature molten salts and room temperature ionic liquids). His research aims to bring about technology innovations for materials, energy and environment. More specifically, his current work focuses on (a) nano-materials and liquid salts based energy storage devices and processes, including supercapacitor, rechargeable battery, supercapattery (supercapacitor + battery) and redox flow cell (a type of rechargeable fuel cells), (b) production, processing and recycling of structural and functional materials, particularly titanium, silicon and polymer composites (e.g. thermochromic films, electron and/or ion conducting membranes), and (c) liquid salts supported (1) carbon capture and utilisation (CCU) or conversion (CCC), (2) solar heat transfer and storage, and (3) regenerative fuels or regefuels (e.g. nano-powders of Si and Fe) for high density energy storage storage.

For teaching at undergraduate levels, Prof. Chen's interests are related with chemical thermodynamics, structural and functional materials, rheology and process engineering. He also supervises postgraduate students at both master (MSc or MEng), and doctorate (PhD) levels on research topics of, but not limited to, fundamental and materials electrochemistry, electrochemical technologies and engineering, liquid salts based processes and materials, energy conversion and storage, and CO₂ capture and reclamation, conversion and utilisation.

Teaching Summary

Prof. Chen is engaged in teaching chemical engineering related subjects at both the undergraduate and postgraduate levels. He has often been appointed as an internal examiner, and also an external… read more

Research Summary

• Prof. George Chen has established and led the Electrochemical Technologies Group (ETG) in the 糖心原创 since October 2003, undertaking research programmes on the theme of Electrochemical and Liquid Salts Innovation for Materials, Energy and Environment. His ORCID, Web of Science ResearcherID and Scopus Author ID are respectively , , and .
• Between Nov 2014 and Sept 2019, he undertook academic duties in the University's China Campus, namely the 糖心原创 Ningbo China (UNNC). He was also associated with the International Academy of Marine Economy and Technology (IAMET), Energy Engineering Research Group (EERG, before 2018) and Natural Resources and Environment Research Group (NRE) in the UNNC, and the Energy Technology Research Institute (ETRI) and the Advanced Materials Research Group (AMRG) in the UK campus (Nottingham). From July 2017 to September 2020, he was appointed Li Dak Sum Chair Professor of Electrochemical Technologies in the UNNC. Since October 2019, Prof. Chen has returned to Nottingham but is still collaborating with colleagues in the UNNC.

His recent and ongoing research is summarised below.

1. Electrochemical science, engineering and technologies for materials, energy and environment

Clean technologies are the necessity of the 21st century and beyond. Fuel cells, batteries and electrochemical capacitors are clean for the energy consumption of human activities. Electrolysis, electro-synthesis, and electrochemical machining are clean for the production of materials and devices supporting human activities. The efficient use of these clean techniques, however, rely strongly on materials that enable and accommodate the relevant electrochemistry and also on innovations that further improve these techniques.

In the electrochemical technologies group (ETG) led by Prof. Chen in both the UK and China campuses of Nottingham University, methods are being developed for (1) the electrochemical production of engineering and functional materials (metals, ceramics, polymers, nano-materials, supramolecules and composites) and (2) the applications of novel materials in electrochemical devices, including fuel cells, supercapacitors, supercapatteries, rechargeable batteries, sensors, switchable membranes and etc.

In particular, a core topic in Prof. Chen's research is further understanding, improvement and application of the Fray-Farthing-Chen (FFC) Cambridge Process. The electro-extraction of reactive, refractory and rare earths metals (pure or alloyed forms of Si, Ti, Zr, Nb, Ta, Cr, Mo, W, Nd, Sm and etc.) via the FFC Cambridge Process is being investigated in parallel with specialty devices or their components for medical and electrochemical applications. Another core research area is the indirect electro-reduction of carbon dioxide in molten salts to produce fuels and materials with the process design for utilisation of solar energy.

Carbon based advanced materials, such as carbon nanotubes, electrically conducting polymers, and their composites, are another direction of Prof. Chen's research. Currently, composites of carbon nanotubes and functional materials (e.g. polypyrrole, manganese oxide, titanium dioxide) are being researched. In particular, the composites are and will be used to fabricate a new type of energy storage device, supercapattery, that combines the merits of supercapacitor and rechargeable battery. Collaboration with experts of power electronics is ongoing to develop intelligent interfaces between for example the electric power grid and banks of supercapatteries. Prof. Chen is also researching on the preparation of other organic and inorganic materials based nano-composites (or hybrids) and their applications for energy efficiency and environment cleanup. More recent work has succeeded in efficient photo-electro-catalytic degradation of organic pollutants in water and simultaneous removal of heavy metals or production of hydrogen gas.

2. Liquid salts innovations

Liquid salts refer to "liquids of ions or ionic matters" disregarding temperatures, and hence include the traditional high temperature molten salts and the relatively new room temperature ionic liquids. By convention, molten is a state resulting from heating, and liquid is a condensed fluid under ambient conditions. The facts that both are salts in nature and work only in the liquid state have led the academic community to search for a common term for both, but such a term has not yet been universally accepted due to a number of reasons. Prof. Chen prefers the term of liquid salts because both words are well known to the general public.

Prof. Chen's research in ionic liquids (liquid salts at room temperatures) started in mid 2000, and has already made some meaningful progresses. Modulation of composition and structure in the composites of polymer and ionic liquid can lead to thermochromic behaviour in response to temperature variation. In Prof. Chen's recent work in collaboration with Wuhan University, China, these novel composites changed colour in the temperature range (e.g. 30 ~ 80^oC) that is readily achievable under direct or indirect sunlight, and hence termed as solar-thermochromic composites. This finding signifies applications in many areas, but particularly the built environment for improved energy efficiency. For example, these materials may be applied in truly smart windows that can, at high summer temperatures, automatically reduce light transmittance through windows and hence the energy consumption for air conditioning and refrigeration.

Prof. Chen has also ongoing investigation on using liquid salts for (1) carbon capture and reclamation (CCR), conversion (CCC) or utilisation (CCU), (2) solar heat transfer and storage, and (3) high voltage supercapacitors.

3. Basic science

Fundamental understanding of new electrochemical processes and devices is a long term research interest of Prof. Chen. In this aspect, his research team has been studying (1) charge transfer at the three-phase interlines (3PIs) which are the main reaction sites in many electrochemical processes involving three or more phases of solids and liquids, (2) ion conduction mechanisms in polymer-nanomaterial composite membranes, (3) reference electrodes for liquid salts applications, particularly at elevated temperatures, and (4) materials based photo-electrochemical, thermo-electrochemical, piezo -electrochemical, and photo-thermochemical phenomena.

Selected Publications

• AL-SHARA, N. K., SHER, F.*, IQBAL, S. Z., CURNICK, O. and CHEN, G. Z., 2021. JOURNAL OF ENERGY CHEMISTRY. 52, 421-427
• CHEN, Y.* and CHEN, G. Z.*, 2020. ACTA PHYSICO-CHIMICA SINICA. 36(2), 1904025
• CHEN, G. Z. and FRAY, D. J., 2020. . In: FANG, Z. Z., FROES, H. S. and ZHANG, Y., eds., Extractive Metallurgy of Titanium: Conventional and recent advances in extraction and production of titanium metal Elsevier. 227-286
• JIANG, T. T.*, XU, X. Y. and CHEN, G. Z.*, 2020. JOURNAL OF ENERGY CHEMISTRY. 47, 46-61

• View all publications

The world is small. 世界很小。

Prof. Chen is engaged in teaching chemical engineering related subjects at both the undergraduate and postgraduate levels. He has often been appointed as an internal examiner, and also an external examiner by other universities in the UK and abroad, for assessment of PhD and MSc theses, and MSc taught courses.

Since returning to Nottingham in October 2019, he has shared lecturing a Yr2 module, Materials and Sustainable Processes (CHEE2047), and a Yr4/MSc module, Advance Rheology & Materials (CHEE4005). He was/is in charge of the Yr2 Practical Laboratories on Wetted Sphere Column (MT1, 2020), Wetted Disc Column (MT2, 2020), Fluidised Bed with Air (FM6, 2021), and Fluidised Bed with Water (FM7, 2021), and Yr1 Practical Laboratories on Heat and Mass balances around a recycle loop (UO26, 2021), Sequentially Controlled Batch Plant (UO27, 2021) and Heating liquids in tanks (HT4, 2021). He has taken over the convenor role of the module CHEE4005 Advanced Rheology and Materials since Autumn 2020. He was also tutor of an MSc group for the module of Accelerated Design Training (CHEE4018), and has been co-supervisor of the Design and Research Projects for MSc (CHEE4-15) and MEng (CHEE4013) courses.

Between 2014 and 2019 in the UNNC, he was convenor of a Yr4 module, Project Management (H83PRM, 2015-2017), a Yr3 module, (Engineering Materials, CHEE2028, 2018-2019) and a Yr2 module (Process Engineering Fundamentals, H81PEF, 2015-2017), and shared lecturing of two other modules, Engineering Materials (H82ENM, 2015-2017) for Yr3 and Industrial Process Assessment (H83IPA, 2015-2017) for Yr4, in the Department of Chemical and Environmental Engineering. (UNNC Yr4 = UNUK Yr3, and so on)

Before July 2014, Prof. Chen lectured Engineering Materials (H82ENM) to Yr 2 Chemical and Environmental Engineering students at the UNUK (2003-2014), and was one of the staff members demonstrating Yr 3 Chemical Engineering laboratory (2013-1014). He also taught Process Engineering Fundamentals (H81PEF) to Yr 1 Chemical Engineering students (2005-2009). He was MSc Course Director in the Department of Chemical and Environmental Engineering between July 2009 and July 2014. He supervised over 80 postgraduate projects at both MSc and PhD levels. For postgraduate teaching, he was module convenor and lectured on Energy Storage (H84ENS, MSc/MEng, 2012-2014) and Materials Electrochemistry (PhD).

Prof. Chen has continued his learning of new knowledge and skills from the past till today using different methods and is of the opinion that the most rewarding learning is to answer those unprecedented questions from students.

Past Research

The outcomes from Prof. Chen's past research have been been documented in various publications (840+), including patents (40+), refereed research and review articles in journals and book chapters (300+), invited and contributed presentations at seminars and conferences (410+), plus postgraduate theses (120+). His research publications have been well recognised by international colleagues. The OCRiD of Prof. Chen is 0000-0002-5589-5767. On 22 March 2024, Web of Science recorded 303 articles from Prof. Chen with 19571 citations and an h-index of 74, His record in Google Scholar includes 442 publications with 25528 citations and an h-index of 82.

Future Research

Prof. Chen's future research will continue from his current work on electrochemical science, engineering and technologies for materials, energy and environment, focusing on liquid salts assisted innovations. National and international collaboration will play a key role to progress his research into greater width and depth. For updated information about Prof Chen and his research activities, see

• MURINDABABISHA, D., WANG, Z. S., XIAO, Z. Y., YUSUF, A., CHEN, G. Z., LI, J. R.* and HE, J.*, 2025. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGIEERING. 13, 115781
• SHI, Z. P., HAO, P., HE, Y. C., ZHANG, Y. B., HU, S. L., SHEN, Y. B., GU, Q. W., ZHANG, L., CHEN, G. Z., HU, D.*, LIU, Z. P.* and QIU, B.*, 2025. ADVANCED MATERIALS. 2419377
• HALL, M., RIGBY, S. P. and CHEN, G. Z.*, 2025. RSC SUSTAINABILITY. 3, 341?351
• WANG, Z.P., O'YOUNG, L., MAHMOOD, S., CHEN, G.Z., ZHENG, Y.T. and HU, B.J.*, 2025. RSC ADVANCES. 7181?7190
• EGUN, I.L., AKINWOLEMIWA, B., HE, H.Y.*, MA, M.C., CHEN, Z.F.*, CHEN, G.Z. and HU, D.*, 2025. RSC ADVANCES. 509, 161386
• MURINDABABISHA, D., YUSUF, A., KNOW, K.-W., SUN, Y., PAN, R., REN, Y., CHEN, G.Z., LI, J.R., WANG, C.J.*, and HE, J.*, 2025. PROCESS SAFETY AND ENVIRONMENTAL PROTECTION. 197, 107005
• GUO, Q., FAN, P.Y., ZHANG, Y.H., GUAN, L., WANG, H., CROFT, A.* and CHEN, G.Z.*, 2024. RSC SUSTAINABILITY. 2, 101-124
• CHEN, Y.*, XU, Z.B. and CHEN, G.Z., 2024. MATERIALS. 17(1), 199 (28 pages)
• XIAO, Z.Y., DO, H.N., YUSUF, A.*, JIA, H.P., MA, H.L., JIANG, S.S., LI, J.R., SUN, Y., WANG, C.J., REN, Y., CHEN, G.Z. and HE, J.*, 2024. JOURNAL OF HAZARDOUS MATERIALS. 462, 132744 (15 pages)
• LIU, M.H., FU, Y.B., BI, S., YANG, S., YANG, X.B., LI, X.W., CHEN, G.Z., HE, J.*, XU, Q.* and ZENG, G.F.*, 2024. CHEMICAL ENGINEERING JOUNAL. 479, 147682 (9 pages)
• LIU, M.H., JIANG, D., FU, Y.B., CHEN, G.Z., BI, S., DING, X.S.*, HE, J., HAN, B.-H., XU, Q.* and ZENG, G.F.*, 2024. ANGEWANDTE CHEMIE INTERNATIONAL EDITION. 63, e2023170 (11 pages)
• CHEN, Y. and CHEN, G. Z.*, 2024. NEXT SUSTAINABILITY. 3, 100029 (15 pages)
• YU, Y., ZHANG, Y. H., WANG, H. and CHEN, G. Z.*, 2024. ELECTROCHEMISTRY. 92(4), 043003 (17 pages)
• LI, Z.D., CHEN, G.Z., HU, D.*, YAO, X.Y.* and PENG, Z.*, 2024. A hierarchical host microstructure enables regulated inner Li deposition for stable Li metal electrodes MICROSTRUCTURES. In press
• CHIKU, M.*,, ABDOLLAHIFAR, M., BROUSSE, T., CHEN, G. Z., CROSNIER, O., DUNN, B., FIC, K., HU, C.-C., JE?OWSKI, P., MA?KOWIAK, A., NAOI, K., OGIHARA, N., OKITA, N,, OKUBO, M., SUGIMOTO, W. and WU, N.-L., 2024. ELECTROCHEMISTRY. 92(7), 074002
• JIANG, T. T.* and CHEN, G. Z.*, 2024. JOURNAL OF CHEMICAL EDUCATION. 101, 4995?5002
• EGUN, E. L., AKINWOLEMIWA, B., YIN, B., TIAN, H., HE, H. Y.*, FOW, K. L., ZHANG, H. L., CHEN, G. Z. and HU, D.*, 2024. BIORESOURCE TECHNOLOGY. 409, 131251
• XIAO, Z. Y., YUSUF, A., REN, Y.*, CHEN, G. Z., WANG, C. J. and HE, J.*, 2024. CHEMICAL ENGINEERING JOURNAL. 497, 154487
• XIAO, Z. Y., REN, Y., CHEN, G. Z., SUN, Y., WANG, C. J. and HE, J.*, 2024. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGIEERING. 12(5), 113470
• CHANG, X. S., LIU, G. Z., WU, M., CHANG, M. Y., ZHAO, X. L., CHEN, G. Z., FOW, K. L.* and YAO, X. Y.*, 2023. BATTERY ENERGY. 2, 20220051 (10 pages)
• LIU, M. H., LIU, S. J., XU, Q.*, MIAO, Q. Y., YANG, S., HANSON, S., CHEN, G. Z., HE, J.*, JIANG, Z. and ZENG G. F.*, 2023. CARBON ENERGY. 5, e300 (12 pages)
• WANG, Z. P., HU, B. J.*, YU, H. B. and CHEN, G. Z., 2023. POLYMERS. 15(4), 810 (17 pages)
• CHANG, X. S., WENG, W., LI, M. Q., WU, M., CHEN, G. Z., FOW, K. L.* and YAO, X. Y.*, 2023. ACS APPLIED MATERIALS & INTERFACES. 15, 21179–21186
• JIANG, T., XIONG, Q. L., YANG, H. and CHEN, G. Z.*, 2023. JOURNAL OF PHYSICS: ENERGY. 5, 014020 (15 pages)
• WANG, W. L., BIE, J., ABUBAKAR, Y., LIU, Y. Q., WANG, X. F., WANG, C. J., CHEN, G. Z., LI, J. R., JI, D. S., XIAO, H., SUN, Y. and HE, J.*, 2023. ENERGY CONVERSION AND MANAGEMENT. 286, 117050 (12 pages)
• LIU, M. H., KONG, H.-Y., BI, S., DING, X. S., CHEN, G. Z., HE, J., XU, Q.*, HAN, B.-H.* and ZENG, G. F.*, 2023. ADVANCED FUNCTIONAL MATERIALS. 33(33), 2302637 (9 pages)
• CHEN, Y. and CHEN, G. Z.*, 2023. ACS APPLIED ENERGY MATERIALS. 6, 6104-6110
• JIANG, T.*, WANG, Y. C. and CHEN, G. Z.*, 2023. SMALL METHODS. 7(8), 2201724 (21 pages)
• YU, Y., LI, M. and CHEN, G. Z., 2023. SCIENCE & TECHNOLOGY REVIEW. 41(６), 74-88 (in Chinese)
• LIU, M. H., YANG, S., YANG, X. B., CUI, C.-X.*, LIU, G. J., LI, X. W., HE, J., CHEN, G. Z., XU, Q.* and ZENG, G. F.*, 2023. NATURE COMMUNICATIONS. 14, 3800 (11 pages)
• GUO, Q., WANG, S. H., LI, Y. M., WANG, J., WU, Y., YU, Y. N., XIA, S. J., HU, D., HU, B. J., YE, Z. Y., ZHOU, X. F.*, CHEN, G. Z.* and LIU, Z. P.*, 2023. JOURNAL OF POWER SOURCES. 580, 233401 (12 pages)
• TAN, Y., XIONG, Q.L., JIANG, T.*, TANG, F.Q., ZHOU, Y.K.* and CHEN, G.Z.*, 2023. JOURNAL OF ENERGY STORAGE. 73, 108854 (11 pages)
• LIU, M.H., ZHAO, X.Y., YANG, S., YANG, X.B., LI, X.W., HE, J.*, CHEN, G.Z., XU, Q.* and ZENG, G.F.*, 2023. ACS APPLIED ENERGY & INTERFACES. 15(37), 44384?44393
• GAO, L., LI, M., WANG, L.M., CHEN, G.Z., YANG, H.X., HU, B.J.* and HUANG, Q.*, 2023. ADVANCED FUNCTIONAL MATERIALS. Online
• GUAN, L.*, CHEN, G. Z., CROFT, A. K. and GRANT, D. M., 2022. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 169, 030529
• WANG, Z. P., HU, B. J.* and CHEN, G. Z., 2022. JOURNAL OF SAUDI CHEMICAL SOCIETY. 26, 101446
• JIANG, T., YANG, H. and CHEN, G. Z.*, 2022. NANOENERGY ADVANCES. 2, 165–196
• EGUN, I. L., HE, H. Y., HU, D. and CHEN, G. Z.*, 2022. ADVANCED SUSTAINABLE SYSTEMS. 6(12), 2200294
• GUO, Q., YU, Y. N., XIA, S. J., SHEN, C., HU, D., DENG, W., DONG, D. J., ZHOU, X. F.*, CHEN, G. Z.* and LIU, Z. P.*, 2022. ACS APPLIED MATERIALS & INTERFACES. 14(40), 46043-46055
• GUO, X. T., HU, D., YU, L. P., XIA, L. and CHEN, G. Z.*, 2021. . In: ALSTON, M. and LAMBERT, T.N., eds., Energy – Sustainable Advanced Materials Springer. 153-169
• AL-SHARA, N. K., SHER, F.*, IQBAL, S. Z., CURNICK, O. and CHEN, G. Z., 2021. JOURNAL OF ENERGY CHEMISTRY. 52, 421-427
• JI, Q., XU, Z. J., GAO, X. W., CHENG, Y.-J.*, WANG, X. Y., ZUO, X. X., CHEN, G. Z., HU, B. J.*, ZHU, J., BRUCE, P. G. and XIA, Y. G.*, 2021. SCIENCE CHINA MATERIALS. 64, 1071-1086
• ZHANG, S. Y., YANG, Y., CHENG, L. W., SUN, J., WANG, X. M., NAN, P. F., XIE, C. M., YU, H. S., XIA, Y. H., GE, B. H., LIN, J., ZHANG, L. J., GUAN, C. Z., XIAO, G.P., PENG, C.*, CHEN, G. Z.* and WANG, J. Q.*, 2021. ENERGY STORAGE MATERIALS. 35, 142-147
• DOLGANOV, A., BISHOP, M. T., CHEN, G. Z. and HU, D.*, 2021. CERAMICS INTERNATINOAL. 47(9), 12020-12027
• TAN, Y., JIANG, T.* and CHEN, G. Z.*, 2021. FRONTIERS ENERGY IN RESEARCH. 9, 651386
• XIA, L.*, MIAO, H., ZHANG, C. F., CHEN, G. Z.* and YUAN, J. L.*, 2021. ENERGY STORAGE MATERIALS. 38, 542–570
• GAO, Y. M.*, HUANG, Z. B., HE, L., CHEN, G. Z., QIN, Q. W. and LI, G. Q., 2021. METALLURGICAL AND MATERIALS TRANSACTION B. 52, 1708–1715
• HU, Y., CHEN, G. Z., ZHUANG, L., WANG, Z. Y. and JIN, X. B.*, 2021. CELL REPORTS PHISCIAL SCIENCE. 2, 199425
• LI, Y. S., SUN, Z. S., ZHANG, L., ZOU, Y. S., YAO, N. M., LEI, W., JIANG, T. T., CHEN, Y.* and CHEN, G. Z., 2021. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 168, 060521
• GUO, Q., DENG, W., XIA, S. J., ZHANG, Z. B., ZHAO, F., HU, B. J., ZHANG, S. S., ZHOU, X. F.*, CHEN, G. Z.* and LIU, Z. P.*, 2021. NANO RESEARCH. 14(10), 3385-3597
• ZHANG, L., ZHANG, L. X., GU, H. Z., CHEN, Y.* and CHEN, G. Z., 2021. JOURNAL OF ALLOYS AND COMPOUNDS. 883, 160907
• MURINDABABISHA, D., YUSUF, A., SUN, Y.*, WANG, C. J.*, REN, Y., LV, J. G., XIAO, H., CHEN, G. Z. and HE, J*, 2021. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH. 28, 62030–62060
• SHI, Z. P., GU, Q. W., YUN, L., WEI, Z. N., HU, D., QIU, B.*, CHEN, G. Z.* and LIU, Z. P.*, 2021. JOURNAL OF MATERIALS CHEMISTRY A. 9, 24426-24437
• AL-SHIHABI AL-ANI, A., TOKAY, B.*, ZHU, W.* and CHEN, G. Z.*, 2021. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY. Online
• CHEN, G. Z.*, 2021. PROGRESS IN NATURAL SCIENCE: MATERIALS INTERNATIONAL. 31(6), 792-800
• CHEN, G. Z. and FRAY, D. J., 2020. . In: FANG, Z. Z., FROES, H. S. and ZHANG, Y., eds., Extractive Metallurgy of Titanium: Conventional and recent advances in extraction and production of titanium metal Elsevier. 227-286
• CHEN, Y.* and CHEN, G. Z.*, 2020. ACTA PHYSICO-CHIMICA SINICA. 36(2), 1904025
• JIANG, T. T.*, XU, X. Y. and CHEN, G. Z.*, 2020. JOURNAL OF ENERGY CHEMISTRY. 47, 46-61
• YU, L. P. and CHEN, G. Z.*, 2020. ELECTROCHEMICAL ENERGY REVIEW. 3(2), 271-285
• JIANG, T. T. and CHEN, G. Z.*, 2020. SCIENCE & TECHNOLOGY REVIEW. 38(1), 115-123
• AL-SHARA, N. K., SHER, F.*, IQBAL, S. Z., SAJID, Z. and CHEN, G. Z., 2020. JOURNAL OF ENERGY CHEMISTRY. 49, 33-41
• LIAN, Z., CHEN, Y., LUO, Y., YANG, X. G., KOH, S. K., WANG, J., CHEN, G. Z., REN, Y.* and HE, J.*, 2020. ELECTROPHORESIS. 41, 891-901
• XI, Y. K., ANGULAKSHMI, N., ZHANG B. Y., TIAN, X. H., TANG, Z. H., XIE, P. F., CHEN, G. Z. and ZHOU, Y. K.*, 2020. JOURNAL OF ALLOYS AND COMPOUNDS. 826, 154201
• ZHANG, L. X., CHI, Y. Q., SUN, X. L., GU, H. Z., ZHANG, H. J., LI, Z., CHEN, Y.* and CHEN, G. Z., 2020. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 167, 040524
• DOLGANOV, A., BISHOP, M. T., TOMATIS, M., CHEN, G. Z.* and HU, D.*, 2020. GREEN CHEMISTRY. 22, 1952-1967
• LIAN, Z., GAO, B., YANG, X. G., CHAN, Y., WANG, J., CHEN, G. Z., KOH, K. S., SHI ,Y., YAN, Y. Y., REN, Y.*, HE, J.* and LIU, F.*, 2020. RSC ADVANCES. 10, 9210-9225
• CHEN, G. Z.*, 2020. CURRENT OPINION IN ELECTROCHEMISTRY. 21, 358–367
• AL-JUBOORI, O., SHER, F.*, HAZAFA, A., KHAN, M. K. and CHEN, G. Z.*, 2020. JOURNAL OF CO2 UTILIZATION. 40, 101193
• CHEN, Y.*, HAO, X. and CHEN, G. Z.*, 2020. ENERGY & ENVIRONMENTAL MATERIALS. 3, 247-264
• SHER, F.*, AL-SHARA, N. K., IQBAL, S. Z., JAHAN, Z. and CHEN, G. Z.*, 2020. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY. 45(53), 28260-28271
• AL-JUBOORI, O., SHER, F.*, KHALID, U., NIAZI, M. B. K. and CHEN, G. Z.*, 2020. ACS SUSTAINABLE CHEMISTRY & ENGINEERING. 8(34), 12877-12890
• AKINWOLEMIWA, B., WEI, C. H., YANG, Q. H. and CHEN, G. Z.*, 2020. ENERGY & ENVIRONMENTAL MATERIALS. Online
• DONG, B., QIAN, H. L., XUE, C. Y., YANG, X. G.*, LI, G.* and CHEN, G. Z., 2020. ADVANCED POWDER TECHNOLOGY. 31(10), 4292-4300
• CHEN, G. Z.*, 2020. INTERNATIONAL JOURNAL OF MINERIALS, METALLURGY AND MATERIALS. 27(12), 1572-1585
• AL-JUBOORI, O., SHER, F.*, RAHMAN, S., RASHEED, T. and CHEN, G. Z.*, 2020. ACS SUSTAINABLE CHEMISTRY & ENGINEERING. 8, 19178-19188
• CHEN, J., ZHOU, Y. K.*, LI, R. Z., WANG, X. and CHEN, G. Z.*, 2019. APPLIED SURFACE SCIENCE. 464, 716-724
• WEI, C. H., AKINWOLEMIWA, B., YU, L. P., HU, D. and CHEN, G. Z.*, 2019. . In: MAJKA, T. and PIELICHOWSKI, K., eds., Polymer Composites with Functionalized Nanoparticles: Synthesis, Interactions, Properties and Applications Elsevier. 211-248
• WANG, T.-Q., HUANG, Y.-F., XUE, L.-S., JIN, S.*, LIU, S.-H., WU, D.-Y. and CHEN, G. Z., 2019. MOLECULES. 24(2), 238
• CHEN, G. Z., 2019. SCIENCE & TECHNOLOGY REVIEW. 37(3), 102-108
• BISHOP, M.T., TOMATIS, M., ZHANG, W.J., PENG, C.*, CHEN, G. Z., HE, J. and HU, D.*, 2019. SUSTAINABLE ENERGY & FUELS. 3, 948-955
• YU, L. P. and CHEN, G. Z.*, 2019. FRONTIERS IN CHEMISTRY: Green and Sustainable Chemistry. 7, 272
• XIA, L. and CHEN, G. Z.*, 2019. CHINESE JOURNAL OF CATALYSIS. 40(s1), 111-119
• XIA, L., LEE, S., JIANG, Y. B., LI, S. Q., LIU, Z. P., YU, L. P., HU, D., WANG, S. H., LIU, Y. T. and CHEN, G. Z.*, 2019. CHEMELECTROCHEM. 6, 3747–3755
• WEI, C. H., AKINWOLEMIWA, B., WANG, Q. F., GUAN, L., XIA, L., HU, D., TANG, B. C., YU, L. P.* and CHEN, G. Z.*, 2019. ADVANCED SUSTAINABLE SYSTEMS. 3, 1900065
• JI, Q., GAO, X. W., ZHANG, Q. J., JIN, L. Y., WANG D, XIA, Y. G.*, YIN, S. S., XIA, S. L., HOHN, N., ZUO, X. X., WANG, X. Y., XIE, S., XU, Z. J., MA, L. J., CHEN, L., CHEN, G. Z., ZHU, J.*, HU, B. J.*, MULLER-BUSCHBAUM, P., BRUCE, P. T. and CHENG, Y. J.*, 2019. ADVANCED FUNCTIONAL MATERIALS. 29, 1904961
• LU, J. M., TIAN, X. H., ZHOU, Y. K.*, ZHU, Y. B., TANG, Z. H., MA, B., WU, G., JIANG, T. T., TU, X. F. and CHEN, G. Z., 2019. ELECTROCHIMICA ACTA. 320, 134566
• ZHU, Y. B., ZHOU, Y. K.*, TIAN, X. H., HUANG, X., YU, R.Q., WU, G. and CHEN, G.Z., 2019. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 166(14), A3162-A3167
• BISHOP, M. T., ZHANG, L., DOLGANOV, A., CHEN, G. Z., PENG, C.* and HU, D.*, 2019. THIN SOLID FILMS. 690, 137530
• AL-SHARA, N. K.*, SHER, F.*, YAQOOB, A. and CHEN, G. Z., 2019. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY. 44(50), 27224-27236
• CHEN, Y. and CHEN, G. Z.*, 2018. . In: RAJAGOPALAN, R. and BALAKRISHNAN, A., eds., Innovations in Engineered Porous Materials for Energy Generation and Storage Applications: (Invited Contribution) Science Publishers - CRC Press/Taylor & Francis Group. 86-108
• HU, D.*, DOLGANOV, A., MA. M. C., BHATTACHARYA, B., BISHOP, M. and CHEN, G. Z.*, 2018. JOM-The Journal of The Minerals, Metals & Materials Society. 70(2), 129–137
• DONG, B., YANG, X. G.*, LI, G., XIA, L. and CHEN, G. Z., 2018. ULTRASONICS SONOCHEMISTRY. 42, 452-463
• AKINWOLEMIWA, B. and CHEN, G. Z.*, 2018. JOURNAL OF THE BRAZILIAN CHEMICAL SOCIETY. 29(5), 960-972
• XIA, L.*, JIANG, Y. B., PAN, Y. Y., LI, S. Q., WANG, J., HE, Y. T., XIA, Y. G.*, LIU, Z. P. and CHEN, G. Z., 2018. CHEMISTRYSELECT. 3(7), 1954–1960
• ZHANG, L. X., GU, H. Z., SUN, H. B., GAO, F. F., CHEN, Y.* and CHEN, G. Z., 2018. CARBON. 132, 573-579
• PENG, C.*, GUAN, C. Z., LIN, J., ZHANG, S. Y., BAO, H. L., WANG, Y., XIAO, G. O., CHEN, G. Z.* and WANG, J. Q.*, 2018. CHEMSUSCHEM. 11(11), 1880-1886
• JIANG, T. T.* and CHEN, G. Z.*, 2018. . In: KURINEC, S., ed., Emerging Photovoltaic Materials: Silicon & Beyond Wiley-Scrivener Publishing LLC, USA. 23-60
• HU, H.B., GAO, Y.M.*, LAO, Y.G., QIN, Q.W., LI, G.Q. and CHEN, G.Z., 2018. MATERIALS AND METALLURGICAL TRANSACTIONS B. 49(5), 2794-2808
• LIAN, Z., REN, Y.*, HE, J., CHEN, G. Z. and KOH, K. S., 2018. MICROFLUIDS AND NANOFLUIDS. 22, 145
• TANG, N., YOU, H. H., LI, M., CHEN, G. Z. and ZHANG, L.*, 2018. NANOSCALE. 10, 20526-20532
• AKINWOLEMIWA, B., WEI, C. H., YANG, Q. H., YU, L. P., XIA, L., HU, D., PENG, C.* and CHEN, G. Z.*, 2018. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 165(16), A4067-A4076
• HU, D. and CHEN, G. Z.*, 2017. . In: BREITKOPF, C. and LYONS, K.S., eds., Springer Handbook of Electrochemical Energy: (Invited contribution) Springer. 801-834
• LIEW, S. Y., WALSH, A. D.* and CHEN, G. Z.*, 2017. . In: KUMAR, V., SWART, H.C. and KALIA, S., eds., Polymer and Composite Materials – Conducting Polymer Hybrids: (Invited contribution) Springer. 269-304
• CHEN, G. Z., 2017. INTERNATIONAL MATERIALS REVIEW. 62(4), 173–202
• XIA, L., YU, L. P., HU, D. and CHEN, G. Z.*, 2017. MATERIALS CHEMISTRY FRONTIERS. 1, 584–618
• HU, M. L.*, QU, Z. F., BAI, C. G., HU, D. and CHEN, G. Z.*, 2017. MATERIALS TRANSACTIONS. 58(3), 322-325
• YAP, M. H., FOW, K. L.* and CHEN, G. Z.*, 2017. GREEN ENERGY & ENVIRONMENT. 2(3), 218–245
• GAO, Y. M.*, YANG, C. H., ZHANG, C. L., QIN, Q. W. and CHEN, G. Z., 2017. PHYSICAL CHEMISTRY CHEMICAL PHYSICS. 19, 15876-15890
• AKINWOLEMIWA, B., WEI, C. H. and CHEN, G. Z.*, 2017. ELECTROCHIMICA ACTA. 247, 344-357
• YUSUF, A., SNAPE, C., HE, J.*, XU, H. H., LIU, C. J., ZHAO, M.*, CHEN, G. Z., TANG B. C., WANG, C. J., WANG, J. W. and BEHERA, S. N., 2017. CATALYSIS REVIEWS - SCIENCE AND ENGINEERING. 59(3), 189–233
• DONG, B., HUANG, X. N., YANG, X. G.*, LI, G., XIA, L. and CHEN, G., 2017. ULTRASONICS SONOCHEMISTRY. 39, 816–826
• AKINWOLEMIWA, B. and CHEN, G. Z.*, 2017. CURRENT TOPICS IN ELECTROCHEMISTRY. 19, 47-65
• LI, J. F., O'SHEA, J., HOU, X. H. and CHEN, G. Z.*, 2017. CHEMICAL COMMUNICATIONS. 53, 189–233
• ZHANG, H. L.*, LUO, X., SHI, K. Q., WU, T., HE, F.*, ZHOU, S. B., CHEN, G. Z. and PENG, C., 2017. CHESUSCHEM. 10(17), 3352–3357
• YU, L. P. and CHEN, G. Z.*, 2017. JOURNAL OF ELECTROCHEMISTRY. 23(5), 533-547
• XIA, L., YU, L. P., HU, D. and CHEN, G. Z.*, 2017. ACTA CHIMICA SINICA. 75(12), 1183–1195
• XIA, L., TANG, B. C., YAO, L. B., WANG, K., CHERIS, A., PAN, Y. Y., LEE, S. X., XIA, Y. G.*, CHEN, G. Z.* and LIU, Z. P., 2017. CHEMISTRYSELECT. 2(24), 7353– 7361
• XIA, L., LEE, S., JIANG, Y. B., XIA, Y. G.*, CHEN, G. Z. and LIU, Z. P.*, 2017. ACS OMEGA. 2(12), 8741?8750
• IJIJE, H. V. and CHEN, G. Z.*, 2016. ADVANCES IN MANUFACTURING. 4(1), 23-32
• BAOHE CHONG, WEN ZHU, YONG LIU, LI GUAN and GEORGE Z CHEN, 2016. JOURNAL OF MATERIALS CHEMISTRY A. 4, 1336-1344
• YU, L. P. and CHEN, G. Z.*, 2016. FARADAY DISCUSSIONS: Liquid Salts for Energy and Materials. 190, 231-240
• ESHTAYA, M., EJIGU, A., STEPHENS, G., WALSH, D. A., CHEN, G. Z.* and CROFT, A. K.*, 2016. FARADAY DISCUSSIONS: Liquid Salts for Energy and Materials. 190, 127-145
• LIU, X. J., WU, T., DAI, Z. X., TAO, K., SHI, Y., PENG, C., ZHOU, X. H. and CHEN, G. Z., 2016. JOURNAL OF POWER SOURCES. 307, 208-213
• YUAN, Y. T., LI, W., CHEN, H. L., WANG, Z. Y., JIN, X. B.* and CHEN, G. Z., 2016. FARADAY DISCUSSIONS: Liquid Salts for Energy and Materials. 190, 85-96
• LI, Y., SHI, Y., MEHIO, N., TAN, M. S., WANG, Z. Y., HU, X. H., CHEN, G. Z., DAI, S. and JIN, X. B.*, 2016. APPLIED ENERGY. 175, 451-458
• GUAN, L., YU, L. P. and CHEN, G. Z.*, 2016. ELECTROCHIMICA ACTA. 206, 464–478
• ZHANG, H. L, LUO, X., LI, X, CHEN, G. Z., HE, F and WU, T., 2016. AUSTIN CHEMICAL ENGINEERING. 3(1), 1024-1029
• WU, Y. P., CONNELLY, K, LIU, Y. Z., GU, X. W., GAO, Y. F. and CHEN, G. Z., 2016. SOLAR ENERGY. 133, 111-118
• YU, L. P. and CHEN, G. Z., 2016. JOURNAL OF POWER SOURCES. 326, 604-612
• ZHANG, H.L., GAO, J.R., ZHAO, Z.D., CHEN, G.Z., WU, T. and HE, F., 2016. CATALYSIS SCIENCE & TECHNOLOGY. 6, 5590-5598
• ZHOU, Y.K., LU, J.M., DENG, C.J., ZHU, H.X., CHEN, G.Z. and ZHANG, S.W., 2016. JOURNAL OF MATERIALS CHEMISTRY A. 4, 12065-12072
• ZHU, W., CHONG, B.H., QIN, K., GUAN, L., HOU, X.H. and CHEN, G.Z., 2016. RSC ADVANCES. 6, 59160-59168
• YUN ZHAO, WEN ZHU, GEORGE Z CHEN and ELTON J CAIRNS, 2016. JOURNAL OF POWER SOURCES. 327, 447-456
• AKINWOLEMIWA, B., YU, L. P., HU, D., JIN, X. B., SLATTERY, J. M. and CHEN, G. Z.*, 2016. CHEMICAL COMMUNICATIONS. 52, 12538-12554
• STEVENSON, A. J., GROMADSKYI, D. G., HU, D., CHAE, J. H., GUAN, L., YU, L. P. and CHEN, G. Z., 2015. . In: XINLIANG FENG, ed., Nanocarbons for Advanced Energy Storage Vol 1. Wiley-VCH. 179-210
• WENG, Y.-T., PAN, H.-A., WU, N.-L. and CHEN, G. Z., 2015. JOURNAL OF POWER SOURCES. 274, 1118-1125
• AKINWOLEMIWA, B., PENG, C. and CHEN, G. Z., 2015. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 162(5), A5054-A5059
• PENG, J. J., HE, R., TAN, M. S., DOU, Y. P., WANG, Z. Y., CHEN, G. Z. and JIN, X. B., 2015. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 162(4), H271-H277
• SIAMBUN, N. J., JEWELL, D. A. and CHEN, G.Z., 2015. INTERNATIONAL JOURNAL OF CHEMICAL ENGINEERING AND APPLICATIONS. 6(5), 341-345
• DAI, Z. X., PENG, C., CHAE, J. H., NG, K. C. and CHEN, G. Z., 2015. SCIENTIFIC REPORTS. 5, 9854
• GAO, Y., QIN, Z. B., GUAN, L., WANG, X. M. and CHEN, G. Z., 2015. CHEMICAL COMMUNICATIONS. 51, 10819 – 10822
• GROMADSKYI, D.G., CHAE, J.H., NORMAN, S.A. and CHEN, G.Z., 2015. APPLIED ENERGY. 159, 39–50
• LI, W., YUAN, Y. T., JIN, X. B., CHEN, H. L. and CHEN, G. Z., 2015. PROGRESS IN NATURAL SCIENCE: MATERIALS INTERNATIONAL. 25, 650-653
• YU, L. P. and CHEN, G. Z., 2015. SCIENCE & TECHNOLOGY REVIEW. 33(24), 98-105
• CHEN, G. Z., 2015. PROGRESS IN NATURAL SCIENCE: MATERIALS INTERNATIONAL. 25, 525-526
• CHEN, G. Z., 2015. ResearchGate. Available at: <http://dx.doi.org/10.13140/RG.2.1.4461.0642>
• ZHANG, J.Y., WANG, Z.Y., HONG, Y.Z., LI, S.X., JIN, X.B. and CHEN, G.Z., 2014. ELECTROCHEMISTRY COMMUNICATIONS. 38, 36-39
• KIM, G., IGUNNU, E.T. and CHEN, G.Z., 2014. CHEMICAL ENGINEERING JOURNAL. 244, 411-421
• IJIJE, H.V., SUN, C.-G. and CHEN, G.Z., 2014. CARBON. 73, 163-174
• IJIJE HV, LAWRENCE RC, SIAMBUN, N. J., JEONG, S. M., JEWELL, D. A., HU, D. and CHEN, G. Z., 2014. FARADAY DISCUSSIONS: Carbon in Electrochemistry. 172, 105 – 116
• GAO, H. P., JIN, X. B., ZOU, S. W., LING, F. Z., PENG, J. J., WANG, Z. Y. and CHEN, G. Z., 2014. PHYSICAL CHEMISTRY CHEMICAL PHYSICS. 16(36), 19514 - 19521
• CHEN, H.-L., WANG, Z.-Y., JIN, X.-B. and CHEN, G. Z., 2014. JOURNAL OF ELECTROCHEMISTRY. 20(3), 266-271
• GAO, H. P., RONG, L. B., TAN, M. S., WANG, Z. Y., JIN, X. B. and CHEN, G. Z., 2014. SCIENTIA SINICA CHIMICA. 44(8), 1354-1361
• IJIJE, H. V., LAWRENCE, R. C. and CHEN, G. Z., 2014. RSC ADVANCES. 4(67), 35808-35817
• CHEN, G. Z., 2014. MINERAL PROCESSING AND EXTRACTIVE METALLURGY (Trans. Insti. Min. Metall. C). (Online)
• PENG, C., HU, D. and CHEN, G. Z., 2014. ENERGY & ENVIRONMENTAL SCIENCE. 7(3), 1018-1022
• IGUNNU, E. T. and CHEN, G. Z., 2014. INTERNATIONAL JOURNAL OF LOW-CARBON TECHNOLOGIES. 9(3), 157-177
• CHAE, J. H. and CHEN, G. Z., 2014. PARTICUOLOGY. 15, 9-17
• RONG, L. B., HE, R., WANG, Z. Y., PENG, J. J., JIN, X. B. and CHEN, G. Z., 2014. ELECTROCHIMICA ACTA. 147, 352-359
• YU, L. P. and CHEN, G. Z., 2014. RSC ADVANCES. 4(76), 40281 – 40285
• CHEN, H. L., JIN, X. B., YU, L. P. and CHEN, G. Z., 2014. JOURNAL OF SOLID STATE ELECTROCHEMISTRY. 18(12), 3317-3325
• STEVENSON, A., HU, D. and CHEN, G. Z., 2014. In: ECS Transactions / The 2014 ECS and SMEQ Joint International Meeting, Molten Salts and Ionic Liquids 19, Cancun, Mexico, 5-10 October 2014. 64. 333-350
• CHEN, G.Z., 2013. . In: CHANG, I. T. and ZHAO, Y. Y., eds., Advances in Powder Metallurgy: Properties, processing and applications Woodhead Publishing Limited. (Invited contribution) 19-39.
• YU, L.P., JIN, X.B. and CHEN, G.Z., 2013. JOURNAL OF ELECTROANALYTICAL CHEMISTRY. 688, 371-378
• CHEN, H.L., ZENG, Y., LI, W., PENG, J.J., JIN, X.B. and CHEN, G.Z., 2013. ELECTROCHEMISTRY COMMUNICATIONS. 26, 33-36
• CHEN, G.Z., 2013. PROGRESS IN NATURAL SCIENCE: MATERIALS INTERNATIONAL. 23, 245-255
• HU, D., XIAO, W. and CHEN, G.Z., 2013. METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE. 44(2), 272-282
• GAO, H.P., JIN, X.B., ZOU, S.W., LING, F.Z., PENG, J.J., WANG, Z.Y. and CHEN, G.Z., 2013. ELECTROCHIMICA ACTA. 107, 261-268
• XIAO, W., JIN, X.B. and CHEN, G.Z., 2013. JOURNAL OF MATERIALS CHEMISTRY A. 1, 10243-10250
• ZHOU, X.H., PENG, C. and CHEN, G.Z., 2012. AIChE JOURNAL. 58, 974-983
• CHAE, J.H., ZHOU, X.H. and CHEN, G.Z., 2012. GREEN: The International Journal of Sustainable Energy Conversion and Storage. 2, 41–54
• IGUNNU, E.T. and CHEN, G.Z., 2012. INTERNATIONAL JOURNAL OF LOW-CARBON TECHNOLOGIES. 0, 1-21
• WANG, H., SIAMBUN, N.J., YU, L.P. and CHEN, G.Z., 2012. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 159(9), H740-H746.
• CHAE, J.H. and CHEN, G.Z., 2012. ELECTROCHIMICA ACTA. 86, 248-254
• ZHOU, X.H. and CHEN, G.Z., 2012. JOURNAL OF ELECTROCHEMISTRY. 18(6), 1006-3471(2012)06-0548-18
• SHI, X.X., JIN, X.B., XIAO, W., HOU, X., CHEN, H.L. and CHEN, G.Z., 2011. CHEMISTRY - A EUROPEAN JOURNAL. 71(31), 8562-8567
• LI, F., CHENG, J., CHAI, X.H., JIN. S., WU, X.H., YU, G.A., LIU, S.H. and CHEN, G.Z., 2011. ORGANOMETALLICS. 30, 1830-1837
• XIAO, W., HU, D., PENG, C. and CHEN, G.Z., 2011. ACS APPLIED MATERIALS & INTERFACES. 3, 3120-3129
• PENG, C., HU, D. and CHEN, G.Z., 2011. CHEMICAL COMMUNICATIONS. 47, 4105-4107
• LI Z.Y., GAO B., CHEN G.Z., MOKAYA R., SOTIROPOULOUS S. and LI PUMA G., 2011. APPLIED CATALYSIS B: ENVIRONMENTAL. 110, 50-57
• WANG, T., GAO, H.P., JIN, X.B., CHEN, H.L., PENG, J.J. and CHEN, G.Z., 2011. ELECTROCHEMISTRY COMMUNICATIONS. 13, 1492-1495
• HUANG, Q., LI, Y., JIN, X.B, ZHAO, D. and CHEN, G.Z., 2011. ENERGY & ENVIRONMENTAL SCIENCE. 4, 2125-2133
• SIAMBUN, N.J., MOHAMED, H., HU, D., JEWELL, D., BENG, Y.K. and CHEN, G.Z., 2011. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 158, H1117-H1124
• BAYLY, S.R., BEER, P.D. and CHEN, G.Z., 2011. . In: WANG, B.H. and ANSLYN, E.V., eds., CHEMOSENSORS: PRINCIPLES, STRATEGIES, AND APPLICATIONS John Wiley & Sons. 297-328
• HU, D., PENG, C. and CHEN, G.Z., 2010. ACS NANO. 4(7), 4274-4282
• CHAE, J.H., NG, K.C. and CHEN, G.Z., 2010. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS, PART A, JOURNAL OF POWER AND ENERGY. 224(4), 479-503
• PENG, C., ZHANG, S., ZHOU, X. and CHEN, G.Z., 2010. Energy & Environmental Science. 3(10), 1499-1502
• PENG, J.J., LI, G.M,, CHEN, H.L., WANG, D.H., JIN, X.B. and CHEN, G.Z., 2010. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 157(1), F1-F9
• ZHAO, D., HUANG, Q., JIN, X.B., WEI, X.J. and CHEN, G.Z., 2010. ACTA PHYSICO-CHIMICA SINICA. 26, 1239-1248
• CHEN, G.Z., 2010. ANGEWANDTE CHEMIE INTERNATIONAL EDITION. 49(32), 5413-5415
• LI, W., JIN, X., HUANG, F. and CHEN, G.Z., 2010. Angewandte Chemie: International Edition. 49(18), 3203–3206
• XIAO, W., JIN, X.B., DENG, Y., WANG, D.H. and CHEN, G.Z., 2010. JOURNAL OF ELECTROANALYTICAL CHEMISTRY. 639, 130-140
• ZHANG, S.W., PENG, C., NG, K.C. and CHEN, G.Z., 2010. ELECTROCHIMICA ACTA. 55, 7447-7453
• NG, K.C., ZHANG, S.W., PENG, C. and CHEN, G.Z., 2009. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. 156, A846-A853
• GAO, B., CHEN, G.Z. and LI PUMA, G., 2009. APPLIED CATALYSIS B: ENVIROMENTAL. 89, 503-509
• PENG, J.J., DENG, Y., WANG, D.H., JIN, X.B. and CHEN, G.Z., 2009. JOURNAL OF ELECTROANALYTICAL CHEMISTRY. 627, 28-40
• LI, G.M., JIN, X.B., WANG, D.H. and CHEN, G.Z., 2009. JOURNAL OF ALLOYS AND COMPOUNDS. 428, 320-327
• PENG, J.J., ZHU, Y., WANG, D.H., JIN, X.B. and CHEN, G.Z., 2009. JOURNAL OF MATERIALS CHEMISTRY. 19, 2803-2809
• PENG, J.J., CHEN, H.L., WANG, T., JIN, X.B., WANG, D.H. and CHEN, G.Z., 2009. CHEMISTRY OF MATERIALS. 21, 5187-5195
• WEI, X., YU, L., JIN, X., WANG, D. and CHEN, G.Z., 2009. Advanced Materials. 21(7), 776-780
• FRAIGE, F.Y., LANGSTON, P.A. and CHEN, G.Z., 2008. Powder Technology. 186(3), 224-240
• GAO, B., PENG, C., CHEN, G.Z. and LI PUMA, G., 2008. APPLIED CATALYSIS B: ENVIRONMENTAL. 85, 17-23
• SNOOK, G. A. and CHEN, G. Z., 2008. JOURNAL OF ELECTROANALYTICAL CHEMISTRY. VOL 612(NUMBER 1), 140-146
• PENG, C., ZHANG, S., JEWELL, D. and CHEN, G.Z., 2008. PROGRESS IN NATURAL SCIENCE. 18, 777-788
• PENG, C., ZHOU, X., CHEN, G.Z., MOGGIA, F., FAGES, F., BRISSET, H. and RONCALI, J., 2008. Chemical Communications. 2008(48), 6606-6608
• O'CALLAGHAN, M.P., POWELL, A.S., TITMAN, J.J., CHEN, G.Z. and CUSSEN, E.J., 2008. CHEMISTRY OF MATERIALS. 20, 2360-2369
• QIU, G., WANG, D.H., JIN, X.B. and CHEN, G. Z., 2008. Preparation of Tb₂Fe₁₇ by direct electrochemical reduction of Tb₄O₇-Fe₂O₃ pellet in molten calcium chloride ACTA METALLURGICA SINICA. 44(7), 859-862 (in Chinese)
• WANG, K.L., JIANG, K., LU, J.T., ZHUANG, L., CHA, C., HU, X.H. and CHEN, G.Z., 2008. JOURNAL OF POWER SOURCES. 185, 892–894
• WANG, D.H., JIN, X.B. and CHEN, G.Z., 2008. ANNUAL REPORTS ON THE PROGRESS OF CHEMISTRY, SECTION C. 104, 189-234
• WU, T., XIAO, W., JIN, X.B., LIU, C., WANG, D.H. and CHEN, G.Z., 2008. PHYSICAL CHEMISTRY CHEMICAL PHYSICS. VOL 10(NUMBER 13), 1809-1818
• WEI, X.J., YU, L.P., WANG, D.H., JIN, X.B. and CHEN, G.Z., 2008. GREEN CHEMISTRY. 10, 296-305
• PENG, J.J., JIANG, K., XIAO, W., WANG, D.H., JIN, X.B. and CHEN, G.Z., 2008. CHEMISTRY OF MATERIALS. 20, 7274-7280
• BLEDA-MARTINEZ, M.J., PENG, C., ZHANG, S., CHEN, G.Z., MORALLON, E. and CAZORLA-AMOROS, D., 2008. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. VOL 155(NUMB 9), A672-A678
• ZHANG, S.W. and CHEN G.Z, 2008. ENERGY MATERIALS: MATERIALS SCIENCE AND ENGINEERING FOR ENERGY SYSTEMS. 3, 186-200
• BAYLY, S.R., BEER, P.D. and CHEN, G.Z., 2008. Ferrocenes - Ligands, Materials and Biomolecules. In: STEPNICKA P., ed., FERROCENE SENSORS John Wiley & Sons. 281-318
• SNOOK, G.A., PENG, C., FRAY, D.J. and CHEN, G.Z., 2007. ELECTROCHEMISTRY COMMUNICATIONS. 9, 83-88
• PENG, C., JIN, J. and CHEN, G.Z., 2007. ELECTROCHIMICA ACTA. 53, 525-537
• WU, T., JIN, X.B., XIAO, W., HU, X.H., WANG, D.H. and CHEN, G. Z., 2007. CHEMISTRY OF MATERIALS. 19, 153-160
• ZHU, Y., WANG, D.H., MA, M., HU, X.H., JIN, X.B. and CHEN, G. Z., 2007. CHEMICAL COMMUNICATIONS. 24, 2515-2517
• YU, L.P., SUN, H.J., HE, J., WANG, D.H., JIN, X.B., HU, X.H. and CHEN, G.Z., 2007. ELECTROCHEMISTRY COMMUNICATIONS. 9, 1374-1381
• XIAO, W., JIN, X., DENG, Y., WANG, D. and CHEN, G. Z., 2007. CHEMISTRY - A EUROPEAN JOURNAL. 13, 604-612
• CENTENO-S?NCHEZ, R. L., FRAY, D. J. and CHEN, G. Z., 2007. JOURNAL OF MATERIALS SCIENCE. VOL 42(NUMBER 17), 7494-7501
• QIU, G.H., JIANG, K., MA, M., WANG, D.H., JIN, X.B. and CHEN, G.Z., 2007. Z NATURFORSCH (ZEITSCHRIFT FUR NATURFORSCHUNG - A). 62(a), 292-302
• JIN, X.B., ZHOU, W.Z., ZHANG, S.W. and CHEN, G. Z., 2007. SMALL. VOL 3(NUMBER 9), 1513-1517
• LI, G.M., WANG, D.H., JIN, X.B. and CHEN, G. Z., 2007. ELECTROCHEMISTRY COMMUNICATIONS. VOL 9(NUMBER 8), 1951-1957
• WANG, D., QIU, G., JIN, X., HU, X. and CHEN, G.Z., 2006. Angewandte Chemie International Edition. 45(15), 2384-2388
• PENG, C., SNOOK, G.A., FRAY, D.J., SHAFFER, M.S.P. and CHEN, G.Z., 2006. Chemical Communications. 44, 4629-4631
• CHEN, G. Z. and FRAY, D. J., 2006. INSTITUTION OF MINING AND METALLURGY. TRANSACTIONS. SERIES C: MINERAL PROCESSING AND EXTRACTIVE METALLURGY. VOL 115(NUMB 1), 49-54
• QIU, G.H., WANG, D.H., JIN, X.B., HU, X.H. and CHEN, Z., 2006. Investigation of the direct electrochemical reduction of Cr₂O₃ powder in molten CaCl₂ by a metallic cavity electrode DIAN HUA XUE (ELECTROCHEMISTRY). 12(3), 304-309 (in Chinese)
• CASTELLERO, A., BOSSUYT, S., STOICA, M., DELEDDA, S., ECKERT, J., CHEN, G. Z., FRAY, D. J. and GREER, A. L., 2006. SCRIPTA MATERIALIA. VOL 55(NUMBER 1), 87-90
• ZHU, Y., MA, M., WANG, D.H., JIANG, K., HU, X.H., JIN, X.B. and CHEN, G. Z., 2006. CHINESE SCIENCE BULLETIN. 51(20), 2535-2540
• QIU, G.H., WANG, D.H., MA, M., JIN, X.B. and CHEN, G. Z., 2006. JOURNAL OF ELECTROANALYTICAL CHEMISTRY. VOL 589(NUMBER 1), 139-147
• JIANG, K., HU, X., MA, M., WANG, D., QIU, G., JIN, X. and CHEN, G.Z., 2006. Angewandte Chemie International Edition. 45(3), 428-432
• QIU, G.H., WANG, D.H., JIN, X.B. and CHEN, G. Z., 2006. ELECTROCHIMICA ACTA. VOL 51(NUMBER 26), 5785-5793
• XIAO, W., JIN, X.B., DENG, Y., WANG, D.H., HU, X.H. and CHEN, G. Z., 2006. CHEMPHYSCHEM. VOL 7(NUMBER 8), 1750-1758
• MA, M., WANG, D.H., WANG, W., HU, X.H., JIN, X.B. and CHEN, G. Z., 2006. JOURNAL OF ALLOYS AND COMPOUNDS. VOL 420(NUMBER 1-2), 37-45
• MA, M., WANG, D.H., HU, X.H., JIN, X.B. and CHEN, G. Z., 2006. CHEMISTRY - A EUROPEAN JOURNAL. VOL 12(NUMBER 19), 5075-5081
• O'CALLAGHAN, M. P., LYNHAM, D. R., CUSSEN, E. J. and CHEN, G. Z., 2006. CHEMISTRY OF MATERIALS. VOL 18(NUMB 19), 4681-4689
• SUN, H.J., YU, L.P., JIN, X.B., HU, X.H., WANG, D.H. and CHEN, G. Z., 2005. ELECTROCHEMISTRY COMMUNICATIONS. VOL 7(NUMBER 7), 685-691
• JIN, S., CHENG, G.Z., CHEN, G.Z. and JI, Z.P., 2005. JOURNAL OF PORPHYRINES AND PHTHALOCYANINES. 9, 32-39
• WANG, D.H, TANG, X., QIU, Y.Y., GAN, F.X. and CHEN, G.Z., 2005. CORROSION SCIENCE. VOL 47(NUMBER 9), 2157-2172
• GAO, P., JIN, X.B., WANG, D.H., HU, X.H. and CHEN, G.Z., 2005. Fabrication and studies of a novel Ag/AgCl reference electrode in high temperature molten chloride salts DIAN HUA XUE (ELECTROCHEMISTRY). 11(1), 7-11 (in Chinese)
• MA,M., JIANG,K., QIU,G.H., WANG,D.H., HU,X.H., JIN,X.B. and CHEN,G.Z., 2005. Fundamental study on electro-reduction of solid titania in molten calcium chloride JOURNAL OF RARE EARTHS. 23(Special Issue), 46-49
• WANG, D.H. and CHEN, G.Z., 2005. Innovation in molten salt electrochemistry (invited overview) DIAN HUA XUE (ELECTROCHEMISTRY). 11(2), 119-124 (in Chinese)
• CENTENO SANCHEZ, R. L., CHEN, G. Z. and FRAY, D. J., 2005. CHIANG MAI JOURNAL OF SCIENCE. 32(3), 367-371
• WU, M., SNOOK, G.A., GUPTA, V., SHAFFER, M., FRAY, D.J. and CHEN, G.Z., 2005. Journal of Materials Chemistry. 15(23), 2297-2303
• DENG, Y., WANG, D., XIAO, W., JIN, X., HU, X. and CHEN, G.Z., 2005. Journal of Physical Chemistry B. 109(29), 14043-14051
• QIU, G.H., MA, M., WANG, D.H., JIN, X.B., HU, X.H. and CHEN, G. Z., 2005. JOURNAL OF THE ELECTROCHEMICAL SOCIETY. VOL 152(NUMB 10), E328-E336
• GAO, P., JIN, X.B., WANG, D.H., HU, X.H. and CHEN, G. Z., 2005. JOURNAL OF ELECTROANALYTICAL CHEMISTRY. VOL 579(NUMBER 2), 321-328
• JIN, S., JIN, X.B., WANG, D.H., CHENG, G.Z., PENG, L. and CHEN, G. Z., 2005. JOURNAL OF PHYSICAL CHEMISTRY B. VOL 109(NUMB 21), 10658-10667
• JIN, X.B., GAO, P., WANG, D.H., HU, X.H. and CHEN, G.Z., 2004. Angewandte Chemie International Edition. 43(6), 733-736
• WU, M., SNOOK, G.A., CHEN, G.Z. and FRAY, D.J., 2004. Electrochemistry Communications. 6(5), 499-504
• SNOOK, G. A., CHEN, G. Z., FRAY, D. J., HUGHES, M. and SHAFFER, M., 2004. JOURNAL OF ELECTROANALYTICAL CHEMISTRY. VOL 568, 135-142
• JIANG, K., HU, X.H., SUN, H.J., WANG, D.H., JIN, X.B., REN, Y. and CHEN, G. Z., 2004. CHEMISTRY OF MATERIALS. VOL 16(NUMB 22), 4324-4329
• HUGHES, M., CHEN, G. Z., SHAFFER, M. S., FRAY, D. J. and WINDLE, A. H., 2004. COMPOSITES SCIENCE AND TECHNOLOGY. VOL 64(NUMBER 15), 2325-2331
• CHEN, Z., 2004. Carbon nanotube and conducting polymer composites and electrochemical energy storage CHINESE JOURNAL OF NONFERROUS METALS. VOL 14(SPI/3), 323-326
• BOSSUYT, S., MADGE, S. V., CHEN, G. Z., CASTELLERO, A., DELEDDA, S., ECKERT, J., FRAY, D. J. and GREER, A. L., 2004. MATERIALS SCIENCE AND ENGINEERING A: STRUCTURAL MATERIALS: PROPERTIES,MICROSTRUCTURES AND PROCESSING. VOL 375/377, 240-243
• HSU, W. K., KOTZEVA, V., WATTS, P. C. and CHEN, G. Z., 2004. CARBON. VOL 42(NUMBER 8-9), 1707-1712
• GORDO, E., CHEN, G. Z. and FRAY, D. J., 2004. ELECTROCHIMICA ACTA. VOL 49(NUMBER 13), 2195-2208
• FRAY, D. J. and CHEN, D. Z., 2004. MATERIALS SCIENCE AND TECHNOLOGY. VOL 20(PART 3), 295-300
• JIN, S., WANG, D., JIN, X. and CHEN, G.Z., 2004. ChemPhysChem. 5(10), 1623-1629
• CHEN, G.Z., GORDO, E. and FRAY, D.J., 2004. Metallurgical and Materials Transactions B: Process metallurgy and materials processing science. 35B(2), 223-233
• CHEN, G.Z. and FRAY, D.J., 2003. Recent development in electrolytic formation of carbon nanotubes in molten salts (invited review) JOURNAL OF MINING AND METALLURGY. SECTION B: METALLURGY. 39(1-2), 309-342
• WOOD, A. J. M., COPCUTT, R. C., CHEN, G. Z. and FRAY, D. J., 2003. ADVANCED ENGINEERING MATERIALS. VOL 5(PART 9), 650-653
• WEBBER, P. R. A., BEER, P. D., CHEN, G. Z., FELIX, V. and DREW, M. G. B., 2003. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY. VOL 125(PART 19), 5774-5785
• KINLOCH, I. A., CHEN, G. Z., HOWES, J., BOOTHROYD, C., SINGH, C., FRAY, D. J. and WINDLE, A. H., 2003. CARBON. VOL 41(NUMBER 6), 1127-1141
• GLOWACKI, B. A., FRAY, D. J., YAN, X.-Y. and CHEN, G., 2003. Physica C - Superconductivity. VOL 387(NO 1-2), 242-246
• WATTS, P. C. P., HSU, W. K., RANDALL, D. P., KOTZEVA, V. and CHEN, G. Z., 2002. Chemistry of Materials. VOL 14(PART 11), 4505-4508
• HUGHES, M., SHAFFER, M.S., RENOUF, A.C., SINGH, C., CHEN, G.Z., FRAY, D.J. and WINDLE, A.H., 2002. ADVANCED MATERIALS. 14(5), 382-385
• DIMITROV, A.T., CHEN, G.Z., KINLOCH, I.A. and FRAY, D.J., 2002. Electrochimica Acta. 48(1), 91-102
• XU, Q., SCHWANDT, C., CHEN, G. Z. and FRAY, D. J., 2002. Journal of Electroanalytical Chemistry. VOL 530(NUMBER 1-2), 16 - 22
• GLOWACKI, B. A., YAN, X.-Y., FRAY, D., CHEN, G., MAJOROS, M. and SHI, Y., 2002. Physica C - Superconductivity. VOL 372-376(PART 3), 1315-1320
• HUGHES, M., CHEN, G.Z., SHAFFER, M.S.P., FRAY, D.J. and WINDLE, A.H., 2002. Chemistry of Materials. 14(4), 1610-1613
• CHEN, G. Z. and FRAY, D. J., 2002. Journal of the Electrochemical Society. VOL 149(PART 11), E455-E467
• WATTS, P. C., HSU, W. K., KOTZEVA, V. and CHEN, G. Z., 2002. Chemical Physics Letters. VOL 366(NUMBER 1-2), 42-50
• GALE, P. A., BLEASDALE, E. R. and CHEN, G. Z., 2001. Supramolecular Chemistry. VOL 13(PART 4), 557-563
• WEBBER, P. R. A., CHEN, G. Z., DREW, M. G. B. and BEER, P. D., 2001. ANGEWANDTE CHEMIE INTERNATIONAL EDITION. VOL 40(PART 12), 2265-2268
• WATTS, P. C. P., HSU, W. K., CHEN, G. Z., FRAY, D. J., KROTO, H. W. and WALTON, D. R. M., 2001. Journal of Materials Chemistry. VOL 11(PART 10), 2482-2488
• CHEN, G. Z. and FRAY, D. J., 2001. Journal of Applied Electrochemistry. VOL 31(PART 2), 155-164
• CHEN, G. Z., FRAY, D. J. and FARTHING, T. W., 2001. Metallurgical and Materials Transactions B: Process metallurgy and materials processing science. VOL 32(PART 6), 1041-1052
• HSU, W. K., ZHU, Y. Q., BOOTHROYD, C. B., KINLOCH, I., TRASOBARES, S., TERRONES, H., GROBERT, N., TERRONES, M., ESCUDERO, R. and CHEN, G. Z., 2000. Chemistry of Materials. VOL 12(PART 12), 3541-3546
• CHEN, G. Z., SHAFFER, M. S., COLEBY, D., DIXON, G., ZHOU, W., FRAY, D. J. and WINDLE, A. H., 2000. Advanced Materials. VOL 12(PART 7), 522-526
• CHEN, G. Z., FRAY, D. J. and FARTHING, T. W., 2000. NATURE. ISSU 6802, 361-363
• ZHU,Y.Q., HSU,W.K., TERRONES,H., GROBER,N., CHANG,B.H., TERRONES,M., WEI,B.Q., KROTO,H.K., WALTON,D.R., BOOTHROYD,C., KINLOCH,I., CHEN,G.Z., WINDLE,A.H. and FRAY,D.J., 2000. Journal of Materials Chemistry. 10, 2570-2577
• BEER, P. D., GALE, P. A. and CHEN, G. Z., 1999. Coordination Chemistry Reviews. VOL 185/186, 3-36
• BEER, P.D., GALE, P.A. and CHEN, G.Z., 1999. Dalton Transactions. 1897-1916
• CHEN, Z., PILGRIM, A. J. and BEER, P. D., 1998. Journal of Electroanalytical Chemistry. VOL 444(ISSUE 2), 209-217
• CHEN, G. Z., FAN, X., LUGET, A., SHAFFER, M. S., FRAY, D. J. and WINDLE, A. H., 1998. Journal of Electroanalytical Chemistry. VOL 446(ISSUE 1-2), 1-6
• GALE, P. A., CHEN, Z., DREW, M. G. B., HEATH, J. A. and BEER, P. D., 1998. Polyhedron. VOL 17(NUMBER 4), 405-412
• BEER, P.D., GALE, P.A. and CHEN, G.Z., 1998. Electrochemical recognition of charged and neutral guest species by redox active receptor molecules (invited review). In: , ed., Advances in Physical Organic Chemistry 31. 1-90
• CHEN, G.Z., KINLOCH, I., SHAFFER, M.S., FRAY, D.J. and WINDLE, A.H., 1998. Electrochemical investigation of the formation of carbon nanotubes in molten salts High Temperature Material Processes. 2(4), 459-469
• BEER, P. D., GALE, P. A., CHEN, Z., DREW, M. G. B., HEATH, J. A., OGDEN, M. I. and POWELL, H. R., 1997. Inorganic Chemistry. VOL 36(NUMBER 25), 5880-5893
• BEER, P. D., CHEN, Z., DREW, M. G. B., JOHNSON, A. O. M., SMITH, D. K. and SPENCER, P., 1996. Inorganica Chimica Acta. VOL 246(NUMBER 1/2), 143-150
• BEER,P.D., GALE,P.A., CHEN,Z. and DREW,M.G., 1996. SUPRAMOLECULAR CHEMISTRY. 7, 241-255
• SZEMES, F., HESEK, D., CHEN, Z., DENT, S. W., DREW, M. G. B., GOULDEN, A. J., GRAYDON, A. R., GRIEVE, A., MORTIMER, R. J. and WEAR, T., 1996. Inorganic Chemistry. VOL 35(NUMBER 20), 5868-5879
• CHEN, Z., GRAYDON, A. R. and BEER, P. D., 1996. Journal of the Chemical Society. Faraday Transactions. VOL 92(NUMBER 1), 97-102
• BEER, P. D., CHEN, Z. and OGDEN, M. I., 1995. Journal of the Chemical Society. Faraday Transactions. VOL 91(NUMBER 2), 295
• CHEN, Z., PILGRIM, A. J. and BEER, P. D., 1995. Journal of the Chemical Society. Faraday Transactions. VOL 91(NUMBER 23), 4331-4333
• BEER, P. D., CHEN, Z., DREW, M. G. B. and GALE, P. A., 1995. Journal of the Chemical Society, Chemical Communications. NUMBER 18, 1851
• CHEN, G.Z., GALE, P.A. and BEER, P.D., 1995. Journal of Electroanalytical Chemistry. 393(1-2), 113-117
• CHEN, Z., FOX, J. M., GALE, P. A. and PILGRIM, A. J., 1995. Journal of Electroanalytical Chemistry. VOL 392(NUMBER 1/2), 101
• BEER, P. D., CHEN, Z., GRIEVE, A. and HAGGITT, J., 1994. Journal of the Chemical Society, Chemical Communications. NUMBER 20, 2413
• BEER, P. D., CHEN, Z., GOULDEN, A. J. and GRIEVE, A., 1994. Journal of the Chemical Society, Chemical Communications. NUMBER 10, 1269
• BEER, P. D., CHEN, Z., DREW, M. G. B. and PILGRIM, A. J., 1994. Inorganica Chimica Acta. VOL 225(NUMBER 1/2), 137
• BEER, P. D., CHEN, Z., DREW, M. G. B. and GALE, P. A., 1994. Journal of the Chemical Society, Chemical Communications. NUMBER 19, 2207
• CHEN, Z., GALE, P. A., HEATH, J. A. and BEER, P. D., 1994. Journal of the Chemical Society. Faraday Transactions. VOL 90(NUMBER 19), 2931
• BEER, P. D., CHEN, Z. and GALE, P. A., 1994. Tetrahedron. VOL 50(NUMBER 3), 931
• BEER, P.D., CHEN, Z., GALE, P.A., HEATH, J.A., KNUBLEY, R.J., OGDEN, M.I. and DREW, M.G., 1994. JOURNAL OF INCLUSION PHENOMENA AND MACROCYCLIC CHEMISTRY. 19(1-4), 343-359
• BEER, P. D., CHEN, Z., GOULDEN, A. J. and GRAYDON, A., 1993. Journal of the Chemical Society, Chemical Communications. NUMBER 24, 1834
• BEER, P. D., CHEN, Z., DREW, M. G. B. and KINGSTON, J., 1993. Journal of the Chemical Society, Chemical Communications. NUMBER 13, 1046
• ELLIOTT,C.M., KOPELOVE,A.B., ALBERY,W.J. and CHEN,Z., 1991. JOURNAL OF PHYSICAL CHEMISTRY. 95(4), 1743-1747
• ALBERY,W.J., CHEN,Z., HORROCKS,B.R., MOUNT,A.R., WILSON,P.J., BLOOR,D., MONKMAN,A.T. and ELLIOTT,C.M., 1989. FARADAY DISCUSSIONS OF THE CHEMICAL SOCIEITY. 88, 247-260
• CHEN,Z., CAI,L., ZHANG,X., HUANG,H. and XIONG,H., 1989. 糖心原创 of voltage recovery characteristics of FEMD (fibrous electrolytic manganese dioxide) during later stage intermittent discharge (in Chinese) DIAN CHI (BATTERY BIMONTHLY). 5(28), 28