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Halliwell, C.A., Dann, S.E., Ferrando-Soria, J., Plasser, F., Yendall, K., Ramos-Fernandez, E.V., Vladisavljević, G.T., Elsegood, M.R. and Fernandez, A., 2022. Hierarchical Assembly of a Micro-and Macroporous Hydrogen-Bonded Organic Framework with Tailored Single-Crystal Size. Angewandte Chemie, 134, 202208677 [doi]

Singh, N., Chakra, A., Vladisavljević, G.T., Cottin-Bizonne, C., Pirat, C. and Bolognesi, G., 2022. Composite Norland Optical Adhesive (NOA)/silicon flow focusing devices for colloidal particle manipulation and synthesis. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 652, 129808 [doi]

Singh, N., Vladisavljevic, G.T., Nadal, F., Cottin-Bizonne, C., Pirat, C. and Bolognesi, G., 2022. Enhanced accumulation of colloidal particles in microgrooved channels via diffusiophoresis and steady-state electrolyte flows. 

Langmuir, 38, 14053-14062 [doi]

Zhang, Z., Ekanem, E.E., Nakajima, M., Bolognesi, G. and Vladisavljević, G.T., 2022. Monodispersed Sirolimus-Loaded PLGA Microspheres with a Controlled Degree of Drug–Polymer Phase Separation for Drug-Coated Implantable Medical Devices and Subcutaneous Injection. ACS Applied Bio Materials, 5, 3766-3777 [doi]

Chen, M., Aluunmani, R., Bolognesi, G. and Vladisavljević, G.T., 2022. Facile Microfluidic Fabrication of Biocompatible Hydrogel Microspheres in a Novel Microfluidic Device. Molecules, 27, 4013 [doi]

Zhao, Y., Moshtaghibana, S., Zhu, T., Fayemiwo, K.A., Price, A. and T Vladisavljević, G., 2022. Microfluidic fabrication of novel polymeric core-shell microcapsules for storage of CO2 solvents and organic chelating agents. Journal of Polymer Science, 60, 1727-1740 [doi]

Deydier, T., Bolognesi, G. and Vladisavljević, G.T., 2022. Scaled-up droplet generation in parallelised 3D flow focusing junctions. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 641, 128439 [doi]

Slavković-Beškoski, L., Ignjatović, L., Bolognesi, G., Maksin, D., Savić, A., Vladisavljević, G. and Onjia, A., 2022. Dispersive Solid–Liquid Microextraction Based on the Poly (HDDA)/Graphene Sorbent Followed by ICP-MS for the Determination of Rare Earth Elements in Coal Fly Ash Leachate. Metals, 12, 791 [doi]


Leister, N., Vladisavljević, G.T. and Karbstein, H.P., 2022. Novel glass capillary microfluidic devices for the flexible and simple production of multi-cored double emulsions. Journal of Colloid and Interface Science, 611, 451-461 [doi


Benyahia, B., Bandulasena, M.V., Bandulasena, H.H. and Vladisavljević, G.T., 2021. Experimental and computational analysis of mixing inside droplets for microfluidic fabrication of gold nanoparticles. Industrial & Engineering Chemistry Research, 60, 13967-13978 [doi]

Nazir, A. and Vladisavljević, G.T., 2021. Droplet breakup mechanisms in premix membrane emulsification and microfluidic channels. Advances in Colloid and Interface Science, 290, 102393 [doi]

Zhang, S., Contini, C., Hindley, J.W., Bolognesi, G., Elani, Y. and Ces, O., 2021. Engineering motile aqueous phase-separated droplets via liposome stabilisation. Nature communications, 12, 1673 [doi]

Chen, M., Bolognesi, G. and Vladisavljević, G.T., 2021. Crosslinking Strategies for the Microfluidic Production of Microgels. Molecules, 26, 3752 [doi]


Al Nuumani, R., Smoukov, S.K., Bolognesi, G. and Vladisavljević, G.T., 2020. Highly porous magnetic Janus microparticles with asymmetric surface topology. Langmuir, 36, 12702. [doi]

Fayemiwo, K.A., Vladisavljević, G.T., Nabavi, S.A. and Manović, V., 2020. Low Pressure CO2 Capture with Amide-Based Imprinted Polymers. UNIOSUN Journal of Engineering and Environmental Sciences, 2 (1). [link]

Vivek, A., Bolognesi, G. and Elani, Y., 2020. Fusing Artificial Cell Compartments and Lipid Domains Using Optical Traps: A Tool to Modulate Membrane Composition and Phase Behaviour. Micromachines, 11, 388. [doi]

Fayemiwo, K.A., Chiarasumran, N., Nabavi, S.A., Manović, V., Benyahia, B. and Vladisavljević, G.T., 2020. CO2 capture performance and environmental impact of copolymers of ethylene glycol dimethacrylate with acrylamide, methacrylamide and triallylamine. Journal of Environmental Chemical Engineering, 8, 103536. [doi]

Vladisavljević, G.T., Kasprzak, M. and Wolf, B., 2020. In-vitro oral digestion of microfluidically produced monodispersed W/O/W food emulsions loaded with concentrated sucrose solution designed to enhance sweetness perception. Journal of Food Engineering, 267, 109701. [doi]

Ogunyinka, O., Wright, A., Bolognesi, G., Iza, F., Chaminda, H., Bandulasena H., 2020. An integrated microfluidic chip for generation and transfer of reactive species using gas plasma. Microfluidics Nanofluidics, 24, 13 [doi]


Bolognesi, G., 2019. Manipulation of biomimetic soft interfaces by optical and microfluidic methods. Advances in Biomembranes and Lipid Self-Assembly, 29, 69. [doi]

Vladisavljević, G.T., 2019. Preparation of microemulsions and nanoemulsions by membrane emulsification. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 579, 123709. [doi]

Vladisavljević, G.T., 2019. Membrane Emulsification in Pharmaceutics and Biotechnology. Current Trends and Future Developments on (Bio-) Membranes, 167-222. Elsevier. [doi]

Fayemiwo, K.A., Chiarasumran, N., Nabavi, S.A., Loponov, K.N., Manovic, V., Benyahia, B. and Vladisavljevic, G.T., 2019. Eco-friendly fabrication of a highly selective amide-based polymer for CO2 capture. Industrial & Engineering Chemistry Research, 58, 18160-18167. [doi]

Balzamo, G., Singh, N., Wang, N., Vladisavljević, G., Bolognesi, G. and Mele, E., 2019. 3D Arrays of Super-Hydrophobic Microtubes from Polypore Mushrooms as Naturally-Derived Systems for Oil Absorption. Materials, 12, p.132. [doi]

Nabavi, S.A., Vladisavljevic, G. and Manovic, V., Charmstar Cambridge Ltd, 2019. Gas capture using polymeric particles. U.S. Patent Application 16/312,903. [link]

Friddin, M.S., Bolognesi, G., Salehi-Reyhani, A., Ces, O. and Elani, Y., 2019. Direct manipulation of liquid ordered lipid membrane domains using optical traps. Communications Chemistry, 2, 6 [doi]

Bandulasena, M.V., Vladisavljević, G.T. and Benyahia, B., 2019. Versatile reconfigurable glass capillary microfluidic devices with Lego® inspired blocks for drop generation and micromixing. Journal of colloid and interface science, 542, pp.23-32. [doi]

Bandulasena, M.V., Vladisavljević, G.T. and Benyahia, B., 2019. Droplet-based microfluidic method for robust preparation of gold nanoparticles in axisymmetric flow focusing device. Chemical Engineering Science, 195, 657-664. [doi]

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