| Carbon dioxide equivalent (CO2-e) emissions: A comparison between geopolymer and OPC cement concrete LK Turner, FG Collins Construction and building materials 43, 125-130, 2013 | 1929 | 2013 |
| Mechanical properties and microstructure of a graphene oxide–cement composite Z Pan, L He, L Qiu, AH Korayem, G Li, JW Zhu, F Collins, D Li, WH Duan, ... Cement and Concrete Composites 58, 140-147, 2015 | 799 | 2015 |
| Effect of pore size distribution on drying shrinking of alkali-activated slag concrete F Collins, JG Sanjayan Cement and Concrete Research 30 (9), 1401-1406, 2000 | 711 | 2000 |
| The influences of admixtures on the dispersion, workability, and strength of carbon nanotube–OPC paste mixtures F Collins, J Lambert, WH Duan Cement and concrete composites 34 (2), 201-207, 2012 | 503 | 2012 |
| Workability and mechanical properties of alkali activated slag concrete FG Collins, JG Sanjayan Cement and concrete research 29 (3), 455-458, 1999 | 478 | 1999 |
| Reinforcing effects of graphene oxide on portland cement paste K Gong, Z Pan, AH Korayem, L Qiu, D Li, F Collins, CM Wang, WH Duan Journal of Materials in Civil Engineering 27 (2), A4014010, 2015 | 465 | 2015 |
| Microcracking and strength development of alkali activated slag concrete F Collins, JG Sanjayan Cement and Concrete Composites 23 (4-5), 345-352, 2001 | 345 | 2001 |
| Inclusion of carbonation during the life cycle of built and recycled concrete: influence on their carbon footprint F Collins The International Journal of Life Cycle Assessment 15, 549-556, 2010 | 292 | 2010 |
| Effect of ultrasonication energy on engineering properties of carbon nanotube reinforced cement pastes B Zou, SJ Chen, AH Korayem, F Collins, CM Wang, WH Duan Carbon 85, 212-220, 2015 | 287 | 2015 |
| Mechanical properties and microstructure analysis of fly ash geopolymeric recycled concrete XS Shi, FG Collins, XL Zhao, QY Wang Journal of hazardous materials 237, 20-29, 2012 | 244 | 2012 |
| Cracking tendency of alkali-activated slag concrete subjected to restrained shrinkage F Collins, JG Sanjayan Cement and concrete Research 30 (5), 791-798, 2000 | 228 | 2000 |
| Dispersion of carbon nanotubes with SDS surfactants: a study from a binding energy perspective WH Duan, Q Wang, F Collins Chemical Science 2 (7), 1407-1413, 2011 | 215 | 2011 |
| Early age strength and workability of slag pastes activated by NaOH and Na2CO3 F Collins, JG Sanjayan Cement and Concrete Research 28 (5), 655-664, 1998 | 200 | 1998 |
| Effect of very fine particles on workability and strength of concrete made with dune sand FJ Luo, L He, Z Pan, WH Duan, XL Zhao, F Collins Construction and Building Materials 47, 131-137, 2013 | 195 | 2013 |
| Carbon nanotube–cement composites: A retrospect SJ Chen, FG Collins, AJN MacLeod, Z Pan, WH Duan, CM Wang The IES journal part a: Civil & structural engineering 4 (4), 254-265, 2011 | 194 | 2011 |
| Strength and shrinkage properties of alkali-activated slag concrete containing porous coarse aggregate F Collins, JG Sanjayan Cement and Concrete Research 29 (4), 607-610, 1999 | 179 | 1999 |
| Effects of ultra-fine materials on workability and strength of concrete containing alkali-activated slag as the binder F Collins, JG Sanjayan Cement and concrete research 29 (3), 459-462, 1999 | 178 | 1999 |
| Phase transformations and mechanical strength of OPC/Slag pastes submitted to high temperatures A Mendes, J Sanjayan, F Collins Materials and structures 41, 345-350, 2008 | 142 | 2008 |
| NMR, XRD, IR and synchrotron NEXAFS spectroscopic studies of OPC and OPC/slag cement paste hydrates A Mendes, WP Gates, JG Sanjayan, F Collins Materials and structures 44, 1773-1791, 2011 | 126 | 2011 |
| Effect of transient creep on compressive strength of geopolymer concrete for elevated temperature exposure Z Pan, JG Sanjayan, F Collins Cement and concrete research 56, 182-189, 2014 | 122 | 2014 |
