淘料视频

Associate Professor Catherine Whitby staff profile picture

Contact details +6469519007

Associate Professor Catherine Whitby BSc, PhD

Associate Professor in Chemistry

Doctoral Supervisor
School of Food Technology and Natural Sciences

Associate Dean - Postgraduate

College of Sciences
  • Associate Professor in Chemistry in the School of Natural Sciences from January 2021
  • Senior Lecturer in Chemistry in the Institute of Fundamental Sciences at 淘料视频, from late October 2014 onwards
  • ARC Future Fellow and Senior Research Fellow, Ian Wark Research Institute, UniSA working on controlling Pickering emulsion destabilisation (March 2010 to September 2014)
  • Research Fellow, Ian Wark Research Institute, UniSA working with John Ralston on particle attachment to drops and bubbles (October 2006 to February 2010)
  • Gritton Postdoctoral Fellow, School of Chemistry, University of Sydney working with Greg Warr on using neutron scattering techniques to characterise emulsions (April 2005 to September 2006)
  • Postdoctoral Research Associate, Department of Chemistry, University of Hull, working with Bernie Binks on Pickering emulsion projects funded by Rhodia Services and Halliburton Energy Services (November 2001 to March 2005)

Catherine joined Massey as a Senior Lecturer in Chemistry in late October 2014. Prior to this she was an ARC Future Fellow and Senior Research Fellow at the Ian Wark Research Institute at the University of South Australia. She is a physical chemist with expertise in colloid and surface chemistry. She uses nanomaterials to modify the chemistry of drop and bubble surfaces. This strategy enables her to control the structure, stability and flow of soft materials. Her findings have been applied in food and pharmaceutical products and in drilling fluids.

.

More about me...View less...

Professional

Contact details

  • Ph: 64 6 356 9099 ext. 86007
    Location: Sc A4.19, Science Tower A
    Campus: Turitea

Qualifications

  • Bachelor of Science - University of New South Wales (1997)
  • Doctor of Philosophy - University of Melbourne (2001)

Certifications and Registrations

  • Licence, Supervisor, 淘料视频

Research Expertise

Research Interests

I am interested in the edges (surfaces and interfaces) that control the properties of materials like paints, sunscreens, lubricants and dairy foods. All these materials are colloids. They are made of drops, bubbles and particles dispersed in a liquid. The drops, bubbles and particles are nanometres to micrometres in size.

I investigate how the chemical properties of drop (bubble or particle) surfaces control how colloidal materials flow and behave. A focus of my work is on using nanomaterials to modify the drop and bubble surface chemistry. This strategy enables me to tune the structure, stability and flow of soft materials used in food, pharmaceutical and agricultural products.

I use microscopy and rheology tools to do my research. I use these techniques to probe inside colloidal materials and investigate their physical and chemical properties.

Thematics

Resource Development and Management, Health and Well-being, Future Food Systems

Area of Expertise

Field of research codes
Chemical Science (030000): Colloid and Surface Chemistry (030603): Physical Chemistry (incl. Structural (030600)

Keywords

Chemistry

Physical Chemistry

Colloid and Surface Science

Research Projects

Current Projects

Project Title: Stimuli-responsive cellulose-based surfactants: forming emulsions that break on demand

Companies spend an estimated US$3 billion a year on chemical additives to treat foam. Excess foam decreases output by increasing batch volumes and causes damage to plant equipment. In many industries, foaming is caused by the addition of surfactants. These are essential performance enhancers for manufacturing processes, e.g. dispersants in the mixing of paint, but such additives cause detrimental foaming in later stages of manufacturing, necessitating the addition of specialty surfactants known as defoamers. Apart from their high cost, defoamers can contaminate the final product. Most are also considered environmental pollutants. To solve these problems, we propose a new class of surfactants where the emulsification and foaming properties can be switched on and off on-demand. We will take advantage of recent research conducted by Chen on cellulose particles and stimuli-responsive systems. We will modify cellulose particles with natural oils or a thermoresponsive material that allows for efficient emulsification action below a specific temperature but acts as a defoamer upon gentle heating. The main scientific stretch and technological challenge is controlling the modification of spherical cellulose particles to produce Janus particles, whose two hemispheres have with distinct characteristics. Manipulation of surface coverage will be used to control the hydrophilicity-lipophilicity balance and produce bespoke surfactants able to function as emulsifiers, dispersants, wetting agents, solubilisers and defoamers.
Read Project Description Hide Project Description

Date Range: 2022 - 2025

Funding Bodies: MBIE: Endeavour Fund: Smart Ideas; Auckland University of Technology

Project Team:

Completed Projects

Project Title: MacDiarmid Scholarship - Whitby - Ben Westberry

Date Range: 2018 - 2021

Funding Body: Victoria University of Wellington

Project Team:

Research Outputs

Journal

Yang, H., Whitby, CP., & Travas-Sejdic, J. (2025). Dual-network hydrogel capsules for controlled molecular transport via pH and temperature responsiveness. Journal of Colloid and Interface Science. 677, 942-951
[Journal article]Authored by: Whitby, C.
Read article at Massey Research Online:
Read Online:
Read Abstract: abstract icon
Ahmed, MF., Popovich, DG., Whitby, CP., & Rashidinejad, A. (2024). Phenolic compounds from macadamia husk: An updated focused review of extraction methodologies and antioxidant activities. Food and Bioproducts Processing. 148, 165-175
[Journal article]Authored by: Rashidinejad, A., Whitby, C.
Read article at Massey Research Online:
Read Online:
Read Abstract: abstract icon
Tiban Anrango, BA., Naiya, MM., Van Dongen, J., Matich, O., Whitby, CP., & Chen, JLY. (2024). Nanoprecipitation to produce hydrophobic cellulose nanospheres for water-in-oil Pickering emulsions. Cellulose. 31(10), 6225-6239
[Journal article]Authored by: Whitby, C.
Read article at Massey Research Online:
Read Online:
Read Abstract: abstract icon
Kabiri, S., Jafarian, M., Navarro, DA., Whitby, CP., & McLaughlin, MJ. (2024). Investigating hydrodynamic cavitation as an efficient means for removal of per- and polyfluoroalkyl substances from solution. Separation and Purification Technology. 347
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
1
Yun, G., Gillies, G., Ripberger, G., Hashemizadeh, I., Whitby, CP., & Bronlund, J. (2023). Modelling the reaction kinetics of 尾-lactoglobulin and 魏-casein heat-induced interactions in skim milk. Journal of Food Engineering. 344
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
4

view more...

Pradhan, S., Whitby, CP., Williams, MAK., Chen, JLY., & Avci, E. (2022). Interfacial colloidal assembly guided by optical tweezers and tuned via surface charge. Journal of Colloid and Interface Science. 621, 101-109
[Journal article]Authored by: Whitby, C.
Read article at Massey Research Online:
Read Online:
Read Abstract: abstract icon
9
Li, Y., Wang, T., Camps-Arbestain, M., & Whitby, CP. (2022). The regulators of soil organic carbon mineralization upon lime and/or phosphate addition vary with depth. Science of the Total Environment. 828
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
4
Munro, BC., Hall, SB., & Whitby, CP. (2022). Yielding to stress in Pickering emulsions at dilute and intermediate volume fractions. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 637
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
3
Li, Y., Camps-Arbestain, M., Whitby, CP., Wang, T., Mueller, CW., Hoeschen, C., . . . Beare, MH. (2022). Functional complexity explains the depth-dependent response of organic matter to liming at the nanometer scale. Geoderma. 408
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
9
Ramamirtham, S., Williams, MAK., Zare, D., Weeks, M., & Whitby, CP. (2021). Complexes of 尾-lactoglobulin and high methyl-esterified pectin as a one-shot delivery system for reinforcing oil/water interfaces. Soft Matter. 17(37), 8517-8522
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
3
Pradhan, S., Solomon, R., Gangotra, A., Yakubov, GE., Willmott, GR., Whitby, CP., . . . Williams, MAK. (2021). Depletion of HP1伪 alters the mechanical properties of MCF7 nuclei. Biophysical Journal. 120(13), 2631-2643
[Journal article]Authored by: Hale, T., Whitby, C.
Read Online:
Read Abstract: abstract icon
5
2
Ramamirtham, S., Whitby, CP., Zare, D., Weeks, M., & Williams, MAK. (2021). The rheological properties of bovine 尾-Lactoglobulin stabilized oil/water interfaces depend on the protein's quaternary structure. Food Hydrocolloids. 120
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
6
1
Whitby, CP. (2020). Structuring Edible Oils With Fumed Silica Particles. Frontiers in Sustainable Food Systems. 4
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
16
4
Li, Y., Wang, T., Camps-Arbestain, M., Suárez-Abelenda, M., & Whitby, CP. (2020). Lime and/or Phosphate Application Affects the Stability of Soil Organic Carbon: Evidence from Changes in Quantity and Chemistry of the Soil Water-Extractable Organic Matter. Environmental Science and Technology. 54(21), 13908-13916
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
13
3
Whitby, CP., & Hermant, A. (2020). Concentration of deposit patterns by nanoparticles modified with short amphiphiles. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 594
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
4
2
Whitby, CP., & Parthipan, R. (2019). Influence of particle concentration on multiple droplet formation in Pickering emulsions. Journal of Colloid and Interface Science. 554, 315-323
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
29
11
Booty, SJ., Harding, DRK., Whitby, CP., Gater, M., Chambers, P., & Singh, PM. (2018). Sustained-release injectable hydrogel formulations for administration of sodium salicylate in broiler chickens. Journal of Avian Medicine and Surgery. 32(4), 294-300
[Journal article]Authored by: Singh, P., Whitby, C.
Read Online:
Read Abstract: abstract icon
2
Whitby, CP., & Bahuon, F. (2018). Droplet fusion in oil-in-water Pickering emulsions. Frontiers in Chemistry. 6(JUN)
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
4
1
Whitby, CP., Krebsz, M., & Booty, SJ. (2018). Understanding the role of hydrogen bonding in the aggregation of fumed silica particles in triglyceride solvents. Journal of Colloid and Interface Science. 527, 1-9
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
40
14
Whitby, CP., Scarborough, H., & Ngothai, Y. (2017). Drying oil-in-water Pickering emulsions to make redispersible powders. Advanced Powder Technology. 28(11), 2940-2946
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
19
16
Joyce, P., Whitby, CP., & Prestidge, CA. (2016). Nanostructuring Biomaterials with Specific Activities towards Digestive Enzymes for Controlled Gastrointestinal Absorption of Lipophilic Bioactive Molecules. Advances in Colloid and Interface Science. 237, 52-75
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
34
27
Whitby, CP., & Wanless, EJ. (2016). Controlling pickering emulsion destabilisation: A route to fabricating new materials by phase inversion. Materials. 9(8)
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
56
41
Prabakar, S., Whitby, CP., Henning, AM., & Holmes, G. (2016). The effect of Cloisite®Na+ nanoclay filler on the morphology and mechanical properties of loose leather. Journal of the American Leather Chemists Association. 111(5), 178-184
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
7
4
Joyce, P., Whitby, CP., & Prestidge, CA. (2016). Interfacial processes that modulate the kinetics of lipase-mediated catalysis using porous silica host particles. RSC Advances. 6(49), 43802-43813
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
28
23
Whitby, CP., Khairul Anwar, H., & Hughes, J. (2016). Destabilising Pickering emulsions by drop flocculation and adhesion. Journal of Colloid and Interface Science. 465, 158-164
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
30
17
Joyce, P., Whitby, CP., & Prestidge, CA. (2015). Bioactive Hybrid Particles from Poly(d, l-lactide-co-glycolide) Nanoparticle Stabilized Lipid Droplets. ACS Applied Materials and Interfaces. 7(31), 17460-17470
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
30
25
Joyce, P., Tan, A., Whitby, CP., & Prestidge, CA. (2014). The role of porous nanostructure in controlling lipase-mediated digestion of lipid loaded into silica particles. Langmuir. 30(10), 2779-2788
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
49
43
Whitby, CP., & Garcia, PC. (2014). Time-dependent rheology of clay particle-stabilised emulsions. Applied Clay Science. 96, 56-59
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
30
20
Tan, A., Colliat-Dangus, P., Whitby, CP., & Prestidge, CA. (2014). Controlling the enzymatic digestion of lipids using hybrid nanostructured materials. ACS Applied Materials and Interfaces. 6(17), 15363-15371
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
17
15
Whitby, CP., & Onnink, AJ. (2014). Rheological properties and structural correlations in particle-in-oil gels. Advanced Powder Technology. 25(4), 1185-1189
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
10
7
Whitby, CP., & Krebsz, M. (2014). Coalescence in concentrated Pickering emulsions under shear. Soft Matter. 10(27), 4848-4854
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
33
28
Whitby, CP., McVicker, R., Connor, JN., & Sedev, R. (2013). Yielding and fracturing of concentrated emulsions in narrow gaps. Soft Matter. 9(25), 5975-5981
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
5
3
Whitby, CP., Bian, X., & Sedev, R. (2013). Rolling, penetration and evaporation of alcohol-water drops on coarse and fine hydrophobic powders. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 436, 639-646
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
14
14
Byrne, N., DeSilva, R., Whitby, CP., & Wang, X. (2013). Silk scaffolds achieved using Pickering high internal phase emulsion templating and ionic liquids. RSC Advances. 3(46), 24025-24027
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
6
4
Whitby, CP., Fornasiero, D., Ralston, J., Liggieri, L., & Ravera, F. (2012). Properties of fatty amine-silica nanoparticle interfacial layers at the hexane-water interface. Journal of Physical Chemistry C. 116(4), 3050-3058
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
60
48
Garcia, PC., & Whitby, CP. (2012). Laponite-stabilised oil-in-water emulsions: Viscoelasticity and thixotropy. Soft Matter. 8(5), 1609-1615
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
37
24
Juárez, JA., & Whitby, CP. (2012). Oil-in-water Pickering emulsion destabilisation at low particle concentrations. Journal of Colloid and Interface Science. 368(1), 319-325
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
81
50
Whitby, CP., Lim, LH., Ghouchi Eskandar, N., Simovic, S., & Prestidge, CA. (2012). Poly(lactic-co-glycolic acid) as a particulate emulsifier. Journal of Colloid and Interface Science. 375(1), 142-147
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
24
18
Whitby, CP., Lotte, L., & Lang, C. (2012). Structure of concentrated oil-in-water Pickering emulsions. Soft Matter. 8(30), 7784-7789
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
40
34
Whitby, CP., Bian, X., & Sedev, R. (2012). Spontaneous liquid marble formation on packed porous beds. Soft Matter. 8(44), 11336-11342
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
24
22
Whitby, CP., Fischer, FE., Fornasiero, D., & Ralston, J. (2011). Shear-induced coalescence of oil-in-water Pickering emulsions. Journal of Colloid and Interface Science. 361(1), 170-177
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
87
60
Priest, C., Reid, MD., & Whitby, CP. (2011). Formation and stability of nanoparticle-stabilised oil-in-water emulsions in a microfluidic chip. Journal of Colloid and Interface Science. 363(1), 301-306
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
54
37
Whitby, CP., Fornasiero, D., & Ralston, J. (2010). Structure of oil-in-water emulsions stabilised by silica and hydrophobised titania particles. Journal of Colloid and Interface Science. 342(1), 205-209
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
35
29
Tran, DNH., Whitby, CP., Fornasiero, D., & Ralston, J. (2010). Selective separation of very fine particles at a planar air-water interface. International Journal of Mineral Processing. 94(1-2), 35-42
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
19
15
Tran, DNH., Whitby, CP., Fornasiero, D., & Ralston, J. (2010). Foamability of aqueous suspensions of fine graphite and quartz particles with a triblock copolymer. Journal of Colloid and Interface Science. 348(2), 460-468
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
12
9
Vashisth, C., Whitby, CP., Fornasiero, D., & Ralston, J. (2010). Interfacial displacement of nanoparticles by surfactant molecules in emulsions. Journal of Colloid and Interface Science. 349(2), 537-543
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
92
62
Whitby, CP., Fornasiero, D., & Ralston, J. (2009). Effect of adding anionic surfactant on the stability of Pickering emulsions. Journal of Colloid and Interface Science. 329(1), 173-181
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
90
74
Tan, SY., Whitby, CP., Ralston, J., & Fornasiero, D. (2009). Brownian diffusion of ultrafine particles to an air-water interface. Advanced Powder Technology. 20(3), 262-266
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
6
3
Whitby, CP., Fornasiero, D., & Ralston, J. (2008). Effect of oil soluble surfactant in emulsions stabilised by clay particles. Journal of Colloid and Interface Science. 323(2), 410-419
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
76
61
Whitby, CP., Djerdjev, AM., Beattie, JK., & Warr, GG. (2007). In situ determination of the size and polydispersity of concentrated emulsions. Langmuir. 23(4), 1694-1700
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
5
4
Whitby, CP., Djerdjev, AM., Beattie, JK., & Warr, GG. (2006). Nanoparticle adsorption and stabilisation of surfactant-free emulsions. Journal of Colloid and Interface Science. 301(1), 342-345
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
27
19
Binks, BP., & Whitby, CP. (2005). Nanoparticle silica-stabilised oil-in-water emulsions: Improving emulsion stability. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 253(1-3), 105-115
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
315
246
Binks, BP., Clint, JH., & Whitby, CP. (2005). Rheological behavior of water-in-oil emulsions stabilized by hydrophobic bentonite particles. Langmuir. 21(12), 5307-5316
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
142
112
Binks, BP., Clint, JH., Mackenzie, G., Simcock, C., & Whitby, CP. (2005). Naturally occurring spore particles at planar fluid interfaces and in emulsions. Langmuir. 21(18), 8161-8167
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
101
85
Binks, BP., & Whitby, CP. (2004). Silica Particle-Stabilized Emulsions of Silicone Oil and Water: Aspects of Emulsification. Langmuir. 20(4), 1130-1137
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
288
242
Amalvy, JI., Unali, GF., Li, Y., Granger-Bevan, S., Armes, SP., Binks, BP., . . . Whitby, CP. (2004). Synthesis of sterically stabilized polystyrene latex particles using cationic block copolymers and macromonomers and their application as stimulus-responsive particulate emulsifiers for oil-in-water emulsions. Langmuir. 20(11), 4345-4354
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
128
118
Whitby, CP., Scales, PJ., Grieser, F., Healy, TW., Kirby, G., Lewis, JA., . . . Zukoski, CF. (2003). PAA/PEO comb polymer effects on rheological properties and interparticle forces in aqueous silica suspensions. Journal of Colloid and Interface Science. 262(1), 274-281
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
84
68
Arditty, S., Whitby, CP., Binks, BP., Schmitt, V., & Leal-Calderon, F. (2003). Some general features of limited coalescence in solid-stabilized emulsions. European Physical Journal E. 11(3), 273-281
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
502
395
Binks, BP., & Whitby, CP. (2003). Temperature-dependent stability of water-in-undecanol emulsions. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 224(1-3), 241-249
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
10
8
Arditty, S., Whitby, CP., Binks, BP., Schmitt, V., & Leal-Calderon, F. (2003). Erratum: Some general features of limited coalescence in solid-stabilized emulsions (European Physical Journal E (2003) 11 (273-281)). European Physical Journal E. 12(2), 355
[Journal article]Authored by: Whitby, C.
20
20
Binks, BP., Clint, JH., Dyab, AKF., Fletcher, PDI., Kirkland, M., & Whitby, CP. (2003). Ellipsometric 淘料视频 of Monodisperse Silica Particles at an Oil-Water Interface. Langmuir. 19(21), 8888-8893
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
44
37
Whitby, CP., Scales, PJ., Grieser, F., Healy, TW., Nishimura, S., & Tateyama, H. (2001). The adsorption of dodecyltrimethylammonium bromide on mica in aqueous solution studied by X-ray diffraction and atomic force microscopy. Journal of Colloid and Interface Science. 235(2), 350-357
[Journal article]Authored by: Whitby, C.
Read Abstract: abstract icon
22
21
Hartmann, AJ., Gutleben, CD., Foran, GJ., Whitby, CP., Lamb, RN., Isobe, C., . . . Scott, JF. (1997). Atomic environment of tantalum in the intermediate fluorite phase of SrBi<inf>2</inf>Ta<inf>2</inf>O<inf>9</inf> thin films. Ferroelectrics, Letters Section. 23(3-4), 75-80
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
13
16
Atchison, SN., Burford, RP., Whitby, CP., & Hibbert, DB. (1995). Electrodeposition of copper in quasi-two dimensions from solutions containing sodium sulfate. Journal of Electroanalytical Chemistry. 399(1-2), 71-77
[Journal article]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
18
15

view less...

Book

Pradhan, S., Whitby, CP., & Williams, MAK.L. Melton, F. Shahidi, & P. Varelis (Eds.)November(pp. 130 - 133). JanuaryMayPradhan, S., Whitby, CP., & Williams, MAK.(pp. 130 - 133). JanuaryPradhan, S., Whitby, CP., & Williams, MAK.L. Melton, F. Shahidi, & P. Varelis (Eds.)MayJanuaryMayMay
[Reference Book]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
1
Whitby, CP.(pp. 127 - 146). JanuaryWhitby, CP.DL. Andrews, RH. Lipson, & T. Nann (Eds.)January(pp. 127 - 146). JanuaryMay
[Reference Book]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
3

Conference

Carlisle, N., Williams, MAK., Whitby, CP., Nock, V., Chen, JLY., & Avci, E.Manipulation of Optical Force-Induced Micro-Assemblies at the Air-Liquid Interface. IEEE International Conference on Intelligent Robots and Systems. (pp. 2709 - 2714). 2153-0858.
[Conference]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
Gupta, A., Harding, D., Pomroy, W., Singh, P., & Whitby, C. (2020). Development of Novel Anthelmintic to Overcome the Drug Resistance Problem in Nematode Infested Ruminants. In Conference Programme and Abstracts(pp. 27 - 29). , New Zealand Society for Parasitology Annual Meeting No.48
[Conference Abstract]Authored by: Singh, P., Whitby, C.
Read Abstract: abstract icon
Harding, D., Gupta, A., Singh, P., Whitby, C., Pomroy, W., & Kandile, N. (2018). Condensed tannin from bioactive plants: A potential solution for killing nematodes as a novel anthelmintic to tackle anthelmintic resistance problems in New Zealand. Vol. 8 (pp. 36 - 36). , World Congress on Bioorganic and Medicinal Chemistry: Medicinal Chemistry
[Conference Abstract]Authored by: Singh, P., Whitby, C.
Read Online:
Read Abstract: abstract icon
Whitby, CP., Bian, X., & Sedev, R.Free running droplets on packed powder beds. AIP Conference Proceedings. (pp. 1043 - 1046). 0094-243X.
[Conference]Authored by: Whitby, C.
Read Online:
Read Abstract: abstract icon
3
2
Vashisth, C., Whitby, C., Fornasiero, D., & Ralston, J.Effect of anionic surfactant on silica particle attachment at the oil-water interface. XXV International Mineral Processing Congress 2010, IMPC 2010. (pp. 407 - 415).
[Conference]Authored by: Whitby, C.
Read Abstract: abstract icon

Teaching and Supervision

Teaching Statement

123.104 - Chemistry for Biological Systems - first year chemistry laboratory and workshop supervision

123.105 - Chemistry and the Physical World - first year thermodynamics and transition metal complexes lectures and first year chemistry laboratory supervision

123.201 - Chemical Energetics - second year phase diagram and electrochemistry lectures and supervising second year physical chemistry laboratory

123.204 - Chemicaland Biochemical Analysis - second year titrations and chromatography lectures and supervising second year analytical chemistry laboratory

123.271 - Molecules to Materials - second year soft matter lectures 

123.712-H - Advanced Nanoscience and Physical Chemistry - Experimental Methods in Surface Chemistry

Contact Supervisor

Graduate Supervision Statement

I was fortunate to have some fantastic PhD supervisors and my style of graduate supervision is based on these experiences and interactions. I like to meet frequently with my students discuss how their research project is going and to provide support and guidance. I also meet with my students regularly as part of the wider research group I lead with my colleague Bill Williams. Our students benefit from the opportunity to share their skills and knowledge during group meetings and help each other with their projects. They also gain experience in problem-solving and decision-making in a team environment. I also encourage my students to get involved in activities that will advance their scientific careers, including participating in seminars, workshops and conferences related to their interests. Several of my former students (from Massey and the universities where I worked previously) are now working as scientific researchers in industry and at universities.


Associate Professor Catherine Whitby is available for Masters and Doctorial supervision.

Summary of Doctoral Supervision

Position Current Completed
Main Supervisor 3 0
Co-supervisor 4 9

Current Doctoral Supervision

Main Supervisor of:

Co-supervisor of:

  • Andre Buzas Stowers-Hull - Doctor of Philosophy
    Streamlining Surface Enhanced Raman Spectroscopy for Modern Inudstrial Applications
  • Maryam Hesabirad - Doctor of Philosophy
    Molecular modifications of plant proteins - consequences for structure and functionality
  • Faruk Ahmed - Doctor of Philosophy
    Valorisation of the New Zealand macadamia husk and delivery of its bioactive compounds via functional foods
  • Gieun Yun - Doctor of Philosophy
    Modelling the heat stability of milk

Completed Doctoral Supervision

Co-supervisor of:

  • 2022 - Arka Gupta - Doctor of Philosophy
    Discovery of Novel Plant Based Compounds to Address the Drug Resistance Problem in Nematode Infested Ruminants
  • 2022 - Muhammad Rehmani - Doctor of Philosophy
    Printed Sensors for Indoor Air Quality
  • 2022 - Benjamin Westberry - Doctor of Philosophy
    The Disordered- and Ordered-State Structures of 魏-Carrageenan: an X-ray Scattering, Molecular Dynamics, and Density-Functional Theory 淘料视频
  • 2022 - Sashikumar Ramamirtham - Doctor of Philosophy
    Structure-Rheology Relationships of Protein-Polysaccharide Complexes at Oil/Water Interfaces
  • 2021 - Susav Pradhan - Doctor of Philosophy
    Biophysical investigations of cells focusing on the utility of optical tweezers
  • view more...
  • 2021 - Hossein Etemadi - Doctor of Philosophy
    Hydrothermal Synthesis of Inorganic Nanoparticles for Potential Technological Applications
  • 2021 - Yang Li - Doctor of Philosophy
    An investigation on the effects of lime and/or phosphorus fertilizer applications on soil organic matter preservation
  • 2019 - Benjamin Munro - Doctor of Philosophy
    Structure and properties of tunable Pickering emulsions
  • 2019 - Adil Alkas - Doctor of Philosophy
    Synthesis of Multicomponent Metal-Organic frameworks and Investigations of Their Physical Properties

Media and Links

Other Links

  • - Research group webpage