Research output per year
Research output per year
Personal profile
Biography
- B.A. in Natural Sciences – University of Cambridge (1990)
- PhD – University of Cambridge (1994)
- Fellow of the Royal Society of Chemistry, CChem
- Fellow of the Institute of Chemical Engineers, CEng
- Elected Member of the Royal Irish Academy
Overview
Chris Hardacre is Vice Dean and Head of the School of Natural Sciences at the University of Manchester.
Chris Hardacre is Head of the School of Natural Sciences at the University of Manchester and a Professor of Chemical Engineering. He obtained a PhD from Cambridge University in 1994 and moved to Queen’s University, Belfast in 1995 and was appointed as Professor of Physical Chemistry in 2003. In 2016, he moved to the University of Manchester. He was awarded the Royal Society of Chemistry Encouraging Innovation Award with Merck Chemicals Ltd and was part of the team to win the Queen’s Anniversary Prize for Further and Higher Education, in 2013 was the inaugural winner of the IChemE’s Andrew Medal for catalysis, in 2022 won the Tilden prize from the RSC and in 2024 won the RB Anderson Prize from the Canadian Institute of Chemistry. His group has strong research interests in catalysis and ionic liquids. He is a co-PI of the UK Catalysis Hub and is an elected member of the Royal Irish Academy.
He has published over 520 papers, 14 patents, 11 book chapters and has an h-index = 100.
Research interests
Catalysis and Ionic Liquids
We have strong research interests in catalysis and ionic liquids. Current catalytic projects range from water gas shift and emission control catalysis using thermal and plasma activation to the use of transients to determine gas and liquid phase reaction mechanisms to liquid phase hydrogenations under batch and flow conditions to biomass conversion, CO2 utilisation, polymer conversion and clean energy conversion. In addition, our research in ionic liquids includes their use in modifying the properties of heterogeneous catalysts, structural determination of ionic liquids and species dissolved therein, process intensification for sustainability including CO2 utilisation and waste polymer valorisation, and prediction of physical properties of ionic liquids. In both aspects of the research, the group has developed a number of state-of-the-art techniques both within the University as well as using synchrotron and neutron central facilities. Much of the work is collaborative and industrially related involving a combination of modelling and experimental studies.
Expertise related to UN Sustainable Development Goals
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. This person’s work contributes towards the following SDG(s):
Areas of expertise
- QD Chemistry
- Catalysis
- Ionic Liquids
- Synchrotron
- Neutron
- Heterogeneous Catalysis
- In-situ method development
- Neutron Scattering
- Structure-reactivity correlations
Research Beacons, Institutes and Platforms
- Sustainable Futures
- Digital Futures
- Photon Science Institute
- Dalton Nuclear Institute
- Manchester Environmental Research Institute
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- 1 Similar Profiles
Collaborations and top research areas from the last five years
Recent external collaboration on country/territory level. Dive into details by clicking on the dots or
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Boosting NH3-SCR of NOx performance through sustainable and economical synthesis of Cu-SAPO-34 zeolites from attapulgite
Wang, Y., Liu, Z., Feng, Y., Hardacre, C., Chansai, S. & Liu, Z., 1 May 2025, (E-pub ahead of print) In: Green Chemistry. 27, 21, p. 6293-6305Research output: Contribution to journal › Article › peer-review
Open AccessFile4 Downloads (Pure) -
Cationic cellulose nanocrystals assisted synthesis of mesoporous Silicalite-1 zeolites with fewer silanol defects
Zou, R., Lyu, L., Chansai, S., Hurd, J., Xin, R., Wong, J. A. C., Lee, D., Hardacre, C., Jiao, Y., Fan, X. & Ou, X., 15 Feb 2025, In: Microporous and Mesoporous Materials. 384, 113448.Research output: Contribution to journal › Article › peer-review
Open Access -
Enhancing Hydrogen Production from Bioenergy Crops via Photoreforming
Aljohani, M., Lan, L., Daly, H., Verdía Barbará, P., Hu, M., Nisar, S., Ding, S., Hallett, J., Watkins, N., Macalpine, W., Rowe, R., Brandt-Talbot, A., Sanford, G., Ralph, J., Mansfield, S., D'Agostino, C., Fan, X. & Hardacre, C., 8 Aug 2025, In: Journal of the American Chemical Society.Research output: Contribution to journal › Article › peer-review
Open AccessFile -
Enhancing the reaction of CO2 and H2O using catalysts within a non-thermal plasma
Chawdhury, P., Chansai, S., Conway, M., Parker, J., Lindley, M., Stere, C., Sankar, M., Haigh, S., Dennis-Smither, B., Filip, S. V., Poulston, S., Hinde, P., Hardacre, C. & Hawkins, C., 3 Apr 2025, (Accepted/In press) In: ACS Catalysis.Research output: Contribution to journal › Article › peer-review
Open AccessFile37 Downloads (Pure) -
Glycerol oxi-dehydration to acrylic acid experimental assessment: Effect of catalyst properties, reaction parameters, and bed configurations
Bansod, Y., Pawanipagar, P., Abubakar, U., Hu, M., Alhassawi, H., Ghasemzadeh, K., Forster, L., Chansai, S., Hardacre, C., Spallina, V. & D'Agostino, C., 1 Nov 2025, In: Chemical Engineering Journal. 523, 167723.Research output: Contribution to journal › Article › peer-review
Open Access
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Engineering biology for critical metal recovery from industrial wastestreams
Lloyd, J. (PI), Cavet, J. (CoI), Coker, V. (CoI), Gallego Schmid, A. (CoI), Haigh, S. (CoI) & Hardacre, C. (CoI)
14/02/24 → 13/02/26
Project: Research
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RE3 - Rethinking Resources and Recycling
Li, L. (PI), Azapagic, A. (CoI), Boons, F. (CoI), Browne, A. L. (CoI), Evans, J. (CoI), Garforth, A. (CoI), Hardacre, C. (CoI), Hoolohan, C. (CoI), Mativenga, P. (CoI), Raveendran Nair, R. (CoI), Sampson, W. (CoI), Sharmina, M. (CoI), Shaver, M. (CoI) & Turner, N. (CoI)
1/01/19 → 31/12/20
Project: Research
Activities
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International Conference on Environmental Catalysis
Hardacre, C. (Chair), Garforth, A. (Co-Chair) & Fan, X. (Co-Chair)
6 Sept 2020 → 9 Sept 2020Activity: Participating in or organising event(s) › Organising a conference, workshop, exhibition, performance, inquiry, course etc › Research
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International Conference on Environmental Catalysis
Hardacre, C. (Chair)
2018 → 2020Activity: Participating in or organising event(s) › Organising a conference, workshop, exhibition, performance, inquiry, course etc › Research
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UK Catalysis Conference
Hardacre, C. (Chair)
2 Jan 2015 → 10 Jan 2019Activity: Participating in or organising event(s) › Organising a conference, workshop, exhibition, performance, inquiry, course etc › Research
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Royal Irish Academy (External organisation)
Hardacre, C. (Academic expert member)
2013 → …Activity: Membership › Membership of professional association › Research
Impacts
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Driving the industrial biotechnology revolution: cheaper and more sustainable chemical manufacturing through enzyme discovery, engineering and scale-up
Turner, N. (Participant), Flitsch, S. (Participant), Scrutton, N. (Participant), Micklefield, J. (Participant), Greaney, M. (Participant), Weise, N. (Participant), Hardacre, C. (Participant), Lovelock, S. (Participant) & Green, A. (Participant)
Impact: Economic, Technological, Policy, Awareness and understanding
Datasets
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Kinetics of Water Gas Shift Reaction on Au/CeZrO4: A Comparison between Conventional Heating and Dielectric Barrier Discharge (DBD) Plasma Activation
Wangkawong, K. (Creator), Phanichphant, S. (Creator), Inceesungvorn, B. (Creator), Stere, C. (Creator), Chansai, S. (Creator), Hardacre, C. (Creator) & Goguet, A. (Creator), figshare , 2020
DOI: 10.6084/m9.figshare.11903052
Dataset
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A design of a fixed bed plasma DRIFTS cell for studying the NTP-assisted heterogeneously catalysed reactions
Stere, C. (Creator), Chansai, S. (Creator), Gholami-Shahrestani, R. (Creator), Wangkawong, K. (Creator), Singhania, A. (Creator), Goguet, A. (Creator), Inceesungvorn, B. (Creator) & Hardacre, C. (Creator), figshare , 31 Jan 2020
DOI: 10.6084/m9.figshare.11778762, https://doi.org/10.6084/m9.figshare.11778762.v1
Dataset
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Effect of Mass Transport on the Electrochemical Oxidation of Alcohols over Electrodeposited film and Carbon- Supported Pt electrodes
Puthiyapura, V. K. (Contributor), Lin, W. F. (Contributor), Russell, A. (Contributor), Brett, D. (Contributor) & Hardacre, C. (Contributor), University of Manchester, 30 Jan 2018
DOI: 10.17632/tzdff9jvrj.3, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/b9ff20b7-016b-4269-9d27-3ba92614c954/Figure 1 a- methanol.ogg and 36 more links, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/ddca4f3c-5889-4a1d-9475-df93d5fa6fe4/Figure 1 b.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/2067df72-fab6-4d05-8e22-ef40dc7844a2/Figure 1.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/01bbb176-d7b1-4882-981c-0d1ad741a86f/Figure 1c.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/78912b66-9e62-4f01-8f73-436c1f12b476/Figure 1d.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/7959a61a-74a1-4437-8489-45dc9c063c72/Figure 2.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/874bce09-b74b-47ee-bd50-cea3af84dd91/Figure 2a.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/5f2f6b9c-efd8-4a68-8dd5-0da6ffd7296d/Figure 3.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/80659793-1506-494c-ac6f-a4aba95f323f/Figure 4.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/cba7f264-0ba7-4f7d-b442-273810067bea/Figure 4a.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/e37562c8-3223-49d6-bc2b-37607cf4c38f/Figure 4b.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/15187ae3-69bf-4426-a2fe-63e1e0c84fdb/Figure 4c.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/3720c5ea-65bd-4047-a308-3b77da8ea515/Figure 4d.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/6c910dd0-70cb-407e-8324-a792dd2b7405/Figure 5.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/0bdf747e-d289-48d5-bff5-cb62c717f84e/Figure 5a.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/1056af63-27ca-4695-9272-ed9d345618be/Figure 5b.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/b8c008fb-367e-4fae-8e3a-5d99c600fc41/Figure 5c.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/02a8c666-3f71-4031-98e3-5ac20cb4670a/Figure 5d.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/e59bc957-d8b2-418f-8577-5d1344e85347/Figure 6.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/16c14ed3-68ed-4fd3-a4c7-b6b4f9cf2d8c/Figure 6a.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/88287035-7389-42cf-b775-d5b9610cc420/Figure 6b.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/1c5a8b2a-b27d-4129-932a-b392c11d1a54/Figure 6c.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/ae5e8018-e82a-4a61-aad5-5cd853ead72a/Figure 6d.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/efeaaf12-1e95-48e8-9929-6ec58b595588/Figure S1.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/01f0adb6-7e57-46a7-8ede-bb69ffcab61b/Figure S2.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/0ffb2460-6ec9-4fab-9e8e-a77de2bce20c/Figure S3.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/b09a0796-d727-4014-b2a5-9684ef172c6b/Figure S4.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/169034d1-d22f-4a61-af8f-d52d6a5b0b84/Figure2b.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/32c24860-a1ce-42ad-9f98-5e297fda9c63/Figure2c.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/d139522d-fd04-467d-9263-d79fda212964/Figure2d.opj, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/05d5663b-bcd5-4110-bb39-52886b69a652/Scheme 1.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/1962b559-67bd-4767-8bda-f8a0801906e0/Scheme 2a.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/529537e1-b0a0-4cf7-a27d-741bac78db7f/Scheme 2b.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/1a9a3ee3-f910-48b5-8303-0c7ada658e04/Scheme 3a.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/678bb603-5c71-40cb-827a-46ff27532961/Scheme 3b.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/adebf615-acfa-4c89-939d-77ec289010b5/Scheme 4.tif, https://data.mendeley.com/datasets/tzdff9jvrj/3/files/10410194-e182-44e3-8b1e-f89d56b2f5d1/XRD.ogg (show fewer)
Dataset
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Preliminary investigation on the electrochemical activity of butanol isomers as potential fuel for direct alcohol fuel cell. ECS Transactions
Puthiyapura, V. K. (Contributor), Brett, D. (Contributor), Russell, A. E. (Contributor), Lin, W. F. (Contributor) & Hardacre, C. (Contributor), University of Manchester, 10 Aug 2017
DOI: 10.17632/77fmkyb773.2, http://ecst.ecsdl.org/content/69/17/809.abstract and 13 more links, https://data.mendeley.com/datasets/77fmkyb773/2/files/e0fb3171-a8d9-4aee-8d63-0aa6452810c1/Figure 1.tif, https://data.mendeley.com/datasets/77fmkyb773/2/files/a6812083-7920-49d9-9d68-87296437cf3f/Figure 2- ECS.tif, https://data.mendeley.com/datasets/77fmkyb773/2/files/12dccd20-e7d2-4970-84fa-45835758bb54/Figure 3- ECS.tif, https://data.mendeley.com/datasets/77fmkyb773/2/files/f4075920-438f-4924-8eb7-f4a6632f51d3/Figure 1a.ogg, https://data.mendeley.com/datasets/77fmkyb773/2/files/e5642931-1454-4b0d-878a-15d80b90e4a1/Figure 1b.opj, https://data.mendeley.com/datasets/77fmkyb773/2/files/97ef0aec-1cdd-4a54-90b9-0f7ef82fe314/Figure 1c.ogg, https://data.mendeley.com/datasets/77fmkyb773/2/files/4f4298e1-f72e-4594-86e7-1a24972f1325/Figure 1d.opj, https://data.mendeley.com/datasets/77fmkyb773/2/files/cd3ce1a4-38dc-439b-8831-cce82d282bd5/Figure 2.opj, https://data.mendeley.com/datasets/77fmkyb773/2/files/adb8a290-f3dc-4de6-8d0f-f7c7b40fc71e/Figure 3b.ogg, https://data.mendeley.com/datasets/77fmkyb773/2/files/bc6da31f-f725-4768-af46-c8f53bd01223/Figure 4a.opj, https://data.mendeley.com/datasets/77fmkyb773/2/files/1c413879-3093-47c5-8d1a-c90d3486b666/Figure 4b.opj, https://data.mendeley.com/datasets/77fmkyb773/2/files/5bdc2bbd-ed32-4c12-9e89-eea1d05eabbe/Figure 4c.opj, https://data.mendeley.com/datasets/77fmkyb773/2/files/13f9f317-1a00-4c9f-946e-2b0c60a68a0e/Figure 4d.opj (show fewer)
Dataset
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Bio-butanol as fuel for direct alcohol fuel cells - investigation of sn modified pt catalyst for butanol electro-oxidation. ACS Appl Mater Interfaces
Puthiyapura, V. K. (Contributor), Hardacre, C. (Contributor), Lin, W. F. (Contributor), Russell, A. (Contributor) & Brett, D. (Contributor), University of Manchester, 23 Oct 2017
DOI: 10.17632/x5tswchgxm.1, http://pubs.acs.org/doi/abs/10.1021/acsami.6b02863 and 12 more links, https://data.mendeley.com/datasets/x5tswchgxm/1/files/6e749253-82cb-411f-bb24-1ab9e2aa14f7/Figure 1 combined.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/b0354bbf-913b-43b1-904c-9e3fdd8ced3a/Figure 2 combined.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/a46535b5-e9b8-4997-a1bf-931539310802/Figure 3 combined.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/50e1a75e-df03-42a1-9df0-c55d2dc564af/Figure 4- XRD-Full.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/bb24e9ea-e54a-4ff6-a5cf-4a9481f46170/Figure 5-TEM.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/541e22c0-93aa-4727-b58c-433e60c8efba/Figure 6.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/98584c87-7949-45a5-986c-5e4cdb6c6f49/FTIR-1.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/9668d842-42c3-4b60-bf0b-426486f824e5/FTIR-2.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/350f118f-371e-4738-8cc3-dd312a9a02bb/TOC.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/ba6af0d1-693d-4195-a17f-6e2de30b98d5/XRD.tif, https://data.mendeley.com/datasets/x5tswchgxm/1/files/687f129d-1bec-4a82-8972-04ba0a3e3e83/Rightslink® by Copyright Clearance Center.pdf, https://data.mendeley.com/datasets/x5tswchgxm/1/files/9ba018d2-ae0d-436b-a4ff-4aa97c4d8d62/RightsLink Printable License.pdf (show fewer)
Dataset