High-Throughput Silica Nanoparticle Detection for Quality Control of Complex Early Life Nutrition Food Matrices [link]
V. Maffeis, A. Otter, A. Düsterloh, L. Kind, C. Palivan, S.S. Saxer
ACS Omega 2024, DOI: 10.1021/acsomega.3c09459

Advancing the Design of Artificial Nano-organelles for Targeted Cellular Detoxification of Reactive Oxygen Species [link]
V. Maffeis, M. Skowicki, K. M. P. Wolf, M. Chami, C.-A. Schoenenberger, V. Vogel, C. G. Palivan
Nano Letters 2024, DOI: 10.1021/acs.nanolett.3c03888

Peptide nanocarriers co-delivering an antisense oligonucleotide and photosensitizer elicit synergistic cytotoxicity [link]
S. Tarvirdipour, M. Skowicki, V. Maffeis, S. N. Abdollahi, C.-A. Schoenenberger, C. G. Palivan
J. Colloid Interface Sci. 2024, DOI: 10.1016/j.jcis.2024.03.021

Planar Polymer Membranes Accommodate Functional Self-Assembly of Inserted Resorcinarene Nanocapsules [link]
M.S. Muthwill, M. Bina, N. Paracini, J.P. Coats, S. Merget, S. Yorulmaz Avsar, D. Messmer, K. Tiefenbacher, and C.G. Palivan
ACS Applied Materials & Interfaces 2024, DOI: 10.1021/acsami.3c18687

FAP Targeting of Photosensitizer-Loaded Polymersomes for Increased Light-Activated Cell Killing [link]
M. Skowicki, D. Hürlimann, S. Tarvirdipour, M. Kyropoulou, C.-A. Schoenenberger, S. Gerber-Lemaire, C. G. Palivan
Biomacromolecules2024, DOI: 10.1021/acs.biomac.3c00943

Microfluidic Giant Polymer Vesicles Equipped with Biopores for High‐Throughput Screening of Bacteria [link]
L. Heuberger, D. Messmer, E. C. Dos Santos, D. Scherrer, E. Lörtscher, C. Schoenenberger, C. G. Palivan
Advanced Science 2023, 2307103. DOI: 10.1002/advs.202307103

Synthetic molecular motor activates drug delivery from polymersomes [link]
A. Guinart, M. Korpidou, D. Doellerer, G. Pacella, M. C. A. Stuart, I. A. Dinu, G. Portale, C. G. Palivan, B. L. Feringa
PNAS, 2023 ,120, 27, DOI: 10.1073/pnas.2301279120

Polymeric Giant Unilamellar Vesicles with Integrated DNA-Origami Nanopores: An Efficient Platform for Tuning Bioreaction Dynamics Through Controlled Molecular Diffusion [link]
R. Cochereau, V. Maffeis, E. C. dos Santos, E. Lörtscher, C. G. Palivan
Advanced Functional Materials, 2023 , p.2304782, DOI: 10.1002/adfm.202304782

Clusters of polymersomes and Janus nanoparticles hierarchically self-organized and controlled by DNA hybridization [link]
V. Mihali, M. Skowicki, D. Messmer, and C. G. Palivan
Nano Today, 2023, 48, 101741, DOI: 10.1016/j.nantod.2022.101741

Cell-derived Vesicles with Increased Stability and On-Demand Functionality by Equipping their Membrane with a Cross-linkable Copolymer [link]
X. Huang, D. Hürlimann, H. T. Spanke, D. Wu, M. Skowicki, I. A. Dinu, E. R. Dufresne, C. G. Palivan
Adv. Healthcare Mater., 2022, DOI: 10.1002/adhm.202202100

A DNA-Micropatterned Surface for Propagating Biomolecular Signals by Positional on-off Assembly of Catalytic Nanocompartments [link]
V. Maffeis, D. Hürlimann, A. Krywko-Cendrowska, C.-A. Schoenenberger, C. E. Housecroft, C. G. Palivan
Small, 2022, DOI: 10.1002/smll.202202818

Multicomponent Copolymer Planar Membranes with Nanoscale Domain Separation [link]
M. Bina, A. Krywko-Cendrowska, D. Daubian, W. Meier, C. G. Palivan,
Nano Letters, 2022, DOI: 10.1021/acs.nanolett.2c00332

A self-assembling peptidic platform to boost the cellular uptake and nuclear delivery of oligonucleotides [link]
S.Tarvirdipour,M. Skowicki, C.-A. Schoenenberger, L. E. Kapinos, R. Y. H. Lim, Y. Benenson, C. G. Palivan
Biomater. Sci., 2022, DOI: 10.1039/D2BM00826B

Tailoring a Solvent-Assisted Method for Solid-Supported Hybrid Lipid−Polymer Membranes [link]
S. Di Leone, M. Kyropoulou, J. Köchlin, R. Wehr, W. P. Meier, C. G. Palivan
Langmuir, 2022, DOI: 10.1021/acs.langmuir.2c00204

Block Copolymer Giant Unilamellar Vesicles for High-Throughput Screening [link]
L. Heuberger, C. G. Palivan
CHIMIA, 2022, DOI: 10.2533/chimia.2022.350

Inverting glucuronidation of hymecromone in situ by catalytic nanocompartments [link]
M. Korpidou, V. Maffeis, I. A. Dinu, C. Schoenenberger, W. P. Meier, C. G. Palivan
J. Mater. Chem. B, 2022, DOI: 10.1039/D2TB00243D

Membrane protein channels equipped with a cleavable linker for inducing catalysis inside nanocompartments [link]
L. Zartner, V. Maffeis, C.A. Schoenenberger, I.A. Dinu, C.G. Palivan
J. Mater. Chem. B, 2021, DOI: 10.1039/D1TB01463C

Artificial Melanogenesis by Confining Melanin/Polydopamine Production inside Polymersomes [link]
C. E. Meyer, C. A. Schoenenberger, R. P. Wehr, D. Wu, C. G. Palivan
Macromolecular Bioscience 2021. DOI: 10.1002/mabi.202100249

Clustering of catalytic nanocompartments for enhancing an extracellular non-native cascade reaction [link]
V. Maffeis, A. Belluati, I. Craciun, D. Wu, S. Novak, C.-A. Schoenenberger, C. G. Palivan
Chem. Sci. 2021. DOI: 10.1039/D1SC04267J

DNA-tethered Polymersomes Clusters as Nanotheranostic Platform [link]
C.E. Meyer, C-A Schoenenberger, J. Liu, C. Craciun, C.G. Palivan
Chimia, 2021. DOI: 10.2533/chimia.2021.296

From spherical compartments to polymer films: exploiting vesicle fusion to generate solid supported thin polymer membranes [link]
M. Kyropoulou, S. Y. Avsar, C.-A. Schoenenberger, C. G. Palivan, W. P. Meier
Nanoscale, 2021. DOI: 10.1039/d1nr01122g

AQP1 Is Up-Regulated by Hypoxia and Leads to Increased Cell Water Permeability, Motility, and Migration in Neuroblastoma [link]
Z. Huo, M. Lomora, U. Kym, C. Palivan, S. G. Holland-Cunz, S. J. Gros
Frontiers in Cell and Developmental Biology, 2021. DOI: 10.3389/fcell.2021.605272

Catalytic polymersomes to produce strong and long-lasting bioluminescence [link]
C. E. Meyer , I. Craciun , C.-A. Schoenenberger , R. Wehr, C. G. Palivan
Nanoscale, 2021,13, 66-70. DOI: 10.1039/D0NR07178A

Combinatorial Strategy for Studying Biochemical Pathways in Double Emulsion Templated Cell‐Sized Compartments [link]
dos Santos, E. C., Belluati, A., Necula, D., Scherrer, D., Meyer, C. E., Wehr, R. P., Lörtscher, E., Palivan, C. G., Meier, W.
Adv. Mater. 2020, 2004804. DOI: 10.1002/adma.202004804

Immobilization of arrestin-3 on different biosensor platforms for evaluating GPCR binding [link]
S. Yorulmaz Avsar, L.E. Kapinos, C.-A. Schoenenberger, G. F. X Schertler, J. Mühle, B. Meger, R. Y. H. Lim, M. K. Ostermaier, E. Lesca, C. G. Palivan
Phys Chem Chem Phys, 2020.DOI: 10.1039/d0cp01464h.

Bioactive Catalytic Nanocompartments Integrated into Cell Physiology and Their Amplification of a Native Signaling Cascade [link]
A. Belluati, I. Craciun, C. G. Palivan
ACS Nano,2020. DOI: 10.1021/acsnano.0c05574

How Can Giant Plasma Membrane Vesicles Serve as a Cellular Model for Controlled Transfer of Nanoparticles? [link]
L. Zartner, M. Garni, I. Craciun, T. Einfalt, C. G. Palivan
Biomacromolecules,2020. DOI: 10.1021/acs.biomac.0c00624

Multicompartment Polymer Vesicles with Artificial Organelles for Signal‐Triggered Cascade Reactions Including Cytoskeleton Formation [link]
A. Belluati, S. Thamboo, A. Najer, V. Maffeis, C. von Planta, I. Craciun, C. G. Palivan, W. Meier
Adv. Funct. Mat., 2020, 2002949, 1-11. DOI: 10.1002/adfm.202002949.

Polymer–Lipid Hybrid Membranes as a Model Platform to Drive Membrane–Cytochrome c Interaction and Peroxidase-like Activity [link]
S. Di Leone, S. Yorulmaz Avsar, A. Belluati, R. P. Wehr, C. G. Palivan, W. Meier
J. Phys. Chem. B, 2020, 124, 4454-4465, DOI: 10.1021/acs.jpcb.0c02727.

DNA-directed arrangement of soft synthetic compartments and their behavior in vitro and in vivo [link]
J. Liu, I. Craciun, A. Belluati, D. Wu, S. Sieber, T. Einfalt, D. Witzigmann, M. Chami, J. Huwyler, C. G. Palivan
Nanoscale, 2020, DOI: 10.1039/D0NR00361A

Segregated nanocompartments containing therapeutic enzymes and imaging compounds within DNA-zipped polymersome clusters for advanced nanotheranostic platform [link]
C. E. Meyer, J. Liu, I. Craciun, D. Wu, H. Wang, M. Xie, M. Fussenegger, C. G. Palivan
Small, 2020, 1906492, 1-15. DOI:10.1002/smll.201906492

Decorating Nanostructured Surfaces with Antimicrobial Peptides to Efficiently Fight Bacteria [link]
Rigo, S., Hürlimann, D., Marot, L., Malmsten, M., Meier, W. P. and Palivan, C. G.
ACS Applied Bio Materials, 2020, 3(3), 1533-1543. DOI: 10.1021/acsabm.9b01154

Organelle-specific targeting of polymersomes into the cell nucleus [link]
C. Zelmer, L. P. Zweifel, L. E. Kapinos, I. Craciun, Z. P. Güven, C. G. Palivan, and R. Y. H. Lim
Proceedings of the National Academy of Sciences, 2020, 117(6), 2770-2778. DOI: 10.1073/pnas.1916395117

How do the properties of amphiphilic polymer membranes influence the functional insertion of peptide pores? [link]
A. Belluati, V. Mikhalevich, S. Yorulmaz Avsar, D. Daubian, I. Craciun, M. Chami, W. Meier, C.G. Palivan
Biomacromolecules,2020, 21(2), 701-715 DOI: 10.1021/acs.biomac.9b01416

A self-assembling amphiphilic peptide nanoparticle for the efficient entrapment of DNA cargoes up to 100 nucleotides in length [link]
S. Tarvirdipour, C.-A. Schoenenberger, Y. Benenson, C. G. Palivan
Soft Matter, 2020, 16, 1678-1691. DOI: 10.1039/C9SM01990A

Brushing the surface: cascade reactions between immobilized nanoreactors [link]
D. Wu, S. Rigo, S. di Leone, A. Beluatti, E.C. Constable, C.E. Housecroft, C.G. Palivan
Nanoscale, 2020, 12, 1551-1562. / DOI:10.1039/C9NR08502E

Bioinspired Molecular Factories with Architecture and In Vivo Functionalities as Cell Mimics [link]
T. Einfalt, M. Garni, D. Witzigmann, S. Sieber, N. Baltisberger, J. Huwyler^,, W. Meier, C. G. Palivan
Adv. Sci., 2020, 7, 1901923, 1-13. DOI: 10.1002/advs.201901923

Porphyrine-containing polymersomes with enhanced ROS generation efficiency: in vitro evaluation [link]
M. Kyropoulou, S. Di Leone, A. Lanzilotto, E. C.Constable, C. E. Housecroft,, W. P.Meier, C. G.Palivan
Macromol.Biosci., 2019. / DOI:10.1002/mabi.201900291

Cellular Signaling Pathways within Synthetic Multicompartment Vesicles with Triggered Enzyme Activity and Induced Ion Channel Recruitment [link]
S. Thamboo, A. Najer, A. Belluati, C. von Planta, D. Wu, I. Craciun, W. Meier, C. G. Palivan
Adv. Funct. Mater., 2019, 1904267, 1-12. / DOI:10.1002/adfm.201904267

Functional Surfaces, Bio-hybrid Membranes for Biosensing [link]
C. Draghici, V. Mikhalevich, G. Gunkel-Grabole, J. Kowal, W. Meier, C. G. Palivan
G.I.T. Laboratory Journal., 2019, http://www.laboratory-journal.com.

Surfaces with dual functionality through specific coimmobilizationof self-assembled polymeric nanostructures [link]
S. Rigo, G. Gunkel-Grabole, W. Meier, C. G. Palivan
Langmuir, 2018, DOI: 10.1021/acs.langmuir.8b02812.

Nanoscale enzymatic compartments in tandem support cascade reactions in Vitro [link]
A. Belluati, I. Craciun, J. Liu, C.G. Palivan
Biomacromolecules, 2018, 19(10), 4023-4033.

Live follow-up of enzymatic reactions inside the cavities of synthetic giant unilamellar vesicles equipped with membrane proteins mimicking cell architecture [link]
M. Garni, T. Einfalt, R. Goers, C. G. Palivan, W. Meier
ACS Synth. Biol., 2018, 7(9), 2116-2125.

Mixed-valent molecular triple- deckers [link]
H. C. Schmidt, X. Guo, P. Richard, M. Neuburger, C. G. Palivan, O. S. Wenger
Angew. Chem., 2018, 57(36), 11688-11691.

Delivery of ROS Generating Anthraquinones Using Reduction-responsive Peptide-based Nanoparticles [link]
P. U. Richard, I. Craciun, J. Gaitzsch, L. Weiner. C.G. Palivan
Helvetica Chimica Acta., 2018, 101(7), e1800064.

Biomimetic Planar Polymer Membranes Decorated with Enzymes as Functional Surfaces [link]
C. Draghici, V. Mikhalevich, G. Gunkel-Grabole, J. Kowal, W. Meier, C. G. Palivan
Langmuir., 2018, 34, 9015-9024.

Surfaces decorated with polymeric nanocompartments for pH reporting [link]
I. Craciun, A. S. Denes, G. Gunkel-Grabole, A. Belluati, C. G. Palivan
Helvetica Chimica Acta., 2018, 101(3), e1700290.

Porphyrin-polymer nanocompartments: singlet oxygen generation and antimicrobial activity [link]
A. Lanzilotto, M. Kyropoulou, E. C. Constable, C. E. Housecroft, W. P. Meier, C. G. Palivan
JBIC., 2018, 23: 109-122.

Biomimetic artificial organelles with in vitro and in vivo activity triggered by reduction in microenvironment [link]
T. Einfalt, D. Witzigmann, C. Edlinger, S. Sieber, R. Goers, A. Najer, M. Spulber, O. Fischer, J. Huwyler, C. G. Palivan
Nature Comm., 2018, 9: 1127.

Antioxidant Functionalized Polymer Capsules to Prevent Oxidative Stress [link]
A. Larrañaga, I. L. M. Isa, V. Patil, S. Thamboo, M. Lomora, M. A. F.-Yague, J.-R.n Sarasua, C. G. Palivan, A. Pandit
Acta Biomaterialia., 2018, 67, 21-31.

Biomimetic Strategy to Reversibly Trigger Functionality of Catalytic Nanocompartments by the Insertion of pH-Responsive Biovalves [link]
C. Edlinger, T. Einfalt, M. Spulber, A. Car, W. Meier, C. G. Palivan
Nano Letters., 2017, 17(9), 5790–5798.

Bio-catalytic nanocompartments for in situ production of glucose-6-phosphate [link]
M. Lomora, G. Gunkel-Grabole, S. Mantri, C. G. Palivan
Chem. Comm., 2017, 53, 10148-10151, and 53, 11253-11253.

Nanostructured surfaces through immobilization of self-assembled polymer architectures using thiol-ene chemistry [link]
G. Gunkel-Grabode, C. G. Palivan, W. Meier
Macromol. Mater. Eng., 2017, 302(4), 1600363.

Strain-promoted thiol-mediated cellular uptake of giant substrates: liposomes and polymersomes [link]
N. Chuard, G. Gasparini, D. Moreau, S. Lörcher, C. Palivan, W. Meier, N. Sakai, S. Matile
Angew. Chem. Int Ed., 2017, 56, 2947–2950.

DNA-mediated self-organization of polymeric nano-compartments leading to interconnected artificial organelles [link]
J. Liu, V. Postupalenko, S. Lörcher, D. Wu, M. Chami, W. Meier, C. G. Palivan
Nano Letters, 2016, 16, 7128-7136.

Angiopep2-functionalized Polymersomes for Targeted Doxorubicin Delivery to Glioblastoma Cells [link]
P. Figueiredo, V. Balasubramanian, M.-A. Shahbazi, A. Correia, D. Wu, C. G. Palivan, J. T. Hirvonen, H. A. Santos
Int. J. Pharmaceutics, 2016, 511(2), 794-803.

An Amphiphilic Graft Copolymer-Based Nanoparticle Platform for Reduction-Responsive Anticancer and Antimalarial Drug Deliver [link]
A. Najer, D. Wu, M. G. Nussbaumer, G. Schwertz, A. Schwab, M. C. Witschel, A. Schäfer, F. Diederich, M. Rottmann, C. G. Palivan, H.-P. Beck, W. Meier
Nanoscale, 2016, 8, 14858-14869.

Novel nanoparticle-based highly sensitive MRI contrast agents with enhanced sensitivity in reductive milieu [link]
S.J. Sigg, F. Santini, A. Najer, P. U. Richard, W. P. Meier, C. G. Palivan
Chem.Comm., 2016, 52, 9937-9940.

"Active surfaces" as Possible Functional Systems in Detection and Chemical (Bio) Reactivity [link]
C.E. Housecroft, C.G. Palivan, K. Gademann, W. Meier, M. Calame, X. Zhang, V. Mikhalevich, E. Piel, M. Szponarski, A. Wiesler, A. Lanzilotto, E.C. Constable, A. Fanget, R.L. Stoop
Chimia, 2016, 6, 402-413.

Artificial Organelles: Reactions Inside Protein-Polymer Supramolecular Assemblies [link]
M. Garni, T. Einfalt, M. Lomora, A. Car, W. Meier, C.G. Palivan
Chimia, 2016, 6, 424-428.

Interfacing Functional Systems [link]
Y. Cotelle, N. Chuard, S. Lascano, V. Lebrun, R. Wehlauch, N. Bohni, S. Lörcher, V. Postupalenko, S.T. Reddy, W. Meier, C.G. Palivan, K. Gademann, T.R. Ward, S. Matile
Chimia, 2016, 6, 418-424.

Giant Host Red Blood Cell Membrane Mimicking Polymersomes bind Parasite Proteins and Malaria Parasites [link]
A. Najer, S. Thamboo, C. G. Palivan, PH Beck, W. Meier
Chimia, 2016, 70(4), 288-291.

Stimuli-responsive co-delivery of oligonucleotides and drugs by self-assembled peptide nanoparticles [link]
S.J. Sigg, V. Postupalenko, J. T. Duskey, C. G. Palivan, W. Meier
Biomacromolecules, 2016, 17(3), 935-945.

Asymmetric tri-block copolymer nanocarriers for controlled localization, and pH sensitive release of proteins [link]
D. Vasquez, T. Einfalt, W. Meier, C. Palivan
Langmuir, 2016, 32(40), 10235-10243.

Active surfaces engineered by immobilizing protein-polymer nanoreactors for selectively detecting sugar alcohols [link]
X. Zhang, M. Lomora, T. Einfalt, W. Meier, N. Klein, D. Schneider, C. G. Palivan
Biomaterials, 2016, 89, 79-88.

Charge Transfer Pathways in Three Isomers of Naphthalene-Bridged Organic Mixed Valence Compounds [link]
H. C. Schmidt, M. Spulber, M. Neuburger, C. G. Palivan, M.Meuwly, O. S. Wenger
J. Org. Chem, 2016, 81, 595-602.

PEG Brushes on Porous, PDMS-Coated Surfaces and Their Interaction with Carbon Dioxide [link]
G. Gunkel-Grabole, Anja Car, V. V. Naik, L. Marot, G. Ferk, C. G. Palivan, W. Meier
Macromol. Chem. Phys., 2016, 217, 966- 973.

Engineered non-toxic cationic nanocarriers with photo-triggered slow-release properties [link]
I. A. Dinu, J. T. Duskey, A. Car, C. G. Palivan, W. Meier
Polym. Chem., 2016, 7, 3451-3464.

Redox cycling of iridium(III) complexes gives versatile materials for photonics applications [link]
C. D. Morris, M.Spulber, M.Neuburger, C.G.Palivan, E. C. Constable, C. E. Housecroft
Polyhedron, 2016, 106, 51-57.

Does membrane thickness affect the transport of selective ions mediated by ionophores in synthetic membranes? [link]
M. Lomora, I. A. Dinu, F. Itel, S. Rigo, M. Spulber, C. G. Palivan
Macromol.Rapid.Commun, 2015, 36, 1929-1934.

Analysis of molecular parameters determining the antimalarial activity of polymer-based nanomimics [link]
A. Najer, S. Thamboo, J. T. Duskey, C. G. Palivan, H-P Beck, W Meier
Macromol.Rapid.Commun, 2015, 36, 1923-1928.

Stimuli-triggered activity of nanoreactorsby biomimetic engineering polymer membranes [link]
T. Einfalt, R. Goers, A. I.Dinu, A. Najer, M. Spulber, O. Onaca-Fischer, C. G. Palivan
Nano Letters, 2015, 15(11), 7596-7603.

pH-triggered reversible multiple protein-polymer conjugation based on molecular recognition [link]
J. Liu, V. Postupalenko, J. T. Duskey, C. G. Palivan, W. Meier
J. Chem. Phys. B, 2015, 119, 12066-12073.

Dynamics of Membrane Proteins within Synthetic Polymer Membranes with Large Hydrophobic Mismatch [link]
F. Itel, A. Najer, C.G. Palivan, W. Meier
Nano Letters, 2015, 15(6), 3871-3878.

Hybrid polymer-lipid films as platforms for directed membrane protein insertion [link]
J. Kowal, D. Wu, V.Mikhalevich, C.P. Palivan, W. Meier
Langmuir, 2015, 31(17), 4868-4877.

Selective ion-permeable membranes by insertion of biopores intopolymersomes [link]
M. Lomora, F. Itel, A. Dinu, C. G. Palivan
PCCP, 2015, 17, 15538-15546.

Polymersomes with engineered ion selective permeability as stimuli-responsive nanocompartments with preserved architecture [link]
M. Lomora, M. Garni, F. Itel, P. Tanner, M. Spulber, C. G Palivan
Biomaterials, 2015, 53, 406-414.

Reduction-sensitive amphiphilic triblock copolymers self-assembly into stimuli-responsive micelles for drug delivery [link]
S. Toughrai, V. Malinova, R. Masciardi, S. Menon, P. Tanner, C. Palivan, N. Bruns, W. Meier
Macromol. Biosci, 2015, 15, 481-489.

Ceria loaded nanoreactors: a nontoxic superantioxidant system with high stability and efficacy [link]
M. Spulber, P. Baumann, J. Liu, C. G. Palivan
Nanoscale, 2015, 7, 1411-1423.

Nanomimics of host cell membranes block invasion and expose invasive malaria parasites [link]
A. Najer, D. Wu, A. Bieri, F. Brand, C. G. Palivan, H.-P. Beck, W. Meier
ACS Nano, 2014, 8(12), 12560–12571.

Charge delocalisation in an organic mixed valent bithiophene is greater than in a structurally analogous biselenophene [link]
A.C.Jahnke, J. Proppe, M. Spulber, C. Palivan, C. Herrmann, O. Wenger
J. Phys. Chem. A, 2014, 118(47), 11293–11303.

A General Strategy for Creating Self-Defending Surfaces Producing Drugs on Demand for Long Periods of Time [link]
K. Langowska, J. Kowal, C. G. Palivan, W. Meier
J.Mater.Chem.B, 2014, 2, 4684-4693.

"Active Surfaces" Formed by Immobilization of Enzymes on Solid Supported Polymer Membranes [link]
C. Draghici, J. Kowal, A. Darjan, W. Meier, C.G. Palivan
Langmuir, 2014, 30(39), 11660-11669.

Electronic Coupling Mediated by Furan, Thiophene, Selenophene and Tellurophene in a Homologous Series of Organic Mixed Valence Compounds [link]
A. C. Jahnke, M. Spulber, M. Neuburger, C. G. Palivan, O. S. Wenger
Chem. Comm., 2014, 50, 10883-10886.

Polymersomes conjugated to 83-14 monoclonal antibodies:In vitro targeting of brain capillary endothelial cells [link]
L.H. Dieu, D. Wu, C.G. Palivan, V. Balasubramanian, J. Huwyler
Eur. J. Pharm Biopharm., 2014, 88(2), 316-324.

Cellular Trojan horse based on stimulus-responsive polymer nanoreactors [link]
P. Baumann, M. Spulber, I. A. Dinu, C. G. Palivan
J.Chem.Phys. B, 2014, 118(31), 9361-9370.

Poly(N-isopropylacrylamide-co-tris-nitrilotriacetic acid acrylamide) for a Combined Study of Molecular Recognition and Spatial Constraints in Protein Binding and Interactions [link]
J. Liu, M. Spulber, D.Wu, R. M. Talom, C. G. Palivan, W Meier
J. Am. Chem. Soc., 2014, 136, 12607-12614.

Effect of molecular parameters on the architecture and membrane properties of 3D assemblies of amphiphilic copolymers [link]
D. Wu, M. Spulber, F. Itel, M. Chami, T. Pfohl, C. G. Palivan, W. Meier
Macromolecules, 2014, 47(15), 5060-5069.

Functional Surface Engineering by Nucleotide-Modulated Potassium Channel Insertion into Polymer Membranes Attached to Solid Supports [link]
J. Kowal, S. Kowal, D. Wu, H. Stahlberg, C. G. Palivan, W Meier
Biomaterials, 2014, 35(26), 7286-7294.

The amine content of PEGylated chitosan Bombyx mori nanoparticles acts as a trigger for protein delivery [link]
D. Vasquez, R. Milusheva, P. Baumann, D. Constantin, M. Chami, C.G. Palivan
Langmuir, 2014, 30(4), 965-975.

Water-Soluble Co(III) Complexes of Substituted Phenanthrolines with Cell Selective Anticancer Activity [link]
S. Jagadeesan, V. Balasubramanian, P. Baumann, M. Neuburger, D. Hauessinger and C. G. Palivan
Inorganic Chemistry, 2013, 53, 12535-12544.

Natural channel protein inserts and functions in a completely artificial, solid-supported bilayer membrane [link]
X. Zhang, W. Fu, C.G. Palivan, W. Meier
Sci. Reports, 2013, 3, 2196-2201.

Adding Nature’s organelles: Artificial peroxisomes play their role [link]
P. Tanner, V. Balasubramanian, C. Palivan
Nano Letters, 2013, 13(6), 2875-2883.

Light-responsive polymer nanoreactors: A source of reactive oxygen species on demand [link]
P. Baumann, V. Balasubramanian, O. Onaca-Fischer, A. Sienkiewicz, C. G. Palivan
Nanoscale, 2013, 5(1), 217-224.

Polymer nanoreactors shown to produce and release antibiotics locally [link]
K. Langowska, C. G. Palivan, W. Meier
Chem. Commun., 2013, 49(2), 128-130.

Fluorescence-based assay for the optimization of artificial transfer hydrogenase activity within a biocompatible compartment [link]
T. Heinisch, K. Langowska, P. Tanner, J.L. Reymond, W. Meier, C. Palivan, T. Ward
ChemCatChem., 2013, 5, 720-723.

Polymer nanoreactors with a dual-functionality: simultaneous detoxification of peroxynitrites and transport of oxygen [link]
D. Dobrunz, A. Toma, P. Tanner, T. Pfohl, C.G. Palivan
Langmuir, 2012, 28(45), 15889-15899.

Specific His(6)-tag Attachment to Metal-Functionalized Polymersomes Relies on Molecular Recognition [link]
P. Tanner, M. Ezhavskaya, R. Nehring, S. van Doorslaer, W. Meier, C. Palivan
J. Chem. Phys. B, 2012, 116, 10113-10124.

Enzyme-containing nanoreactors
C.G. Palivan
EPS, 2011, vol. 35E, 38.

Photoresponsive Polymersomes as Smart, Triggerable Nanocarriers [link]
E. Cabane, V. Malinova, S. Menon, C. G. Palivan, W. Meier
Soft Matter, 2011, 7(19), 9167-9176.

From fibres to micelles using point-mutated amphiphilic peptides [link]
T. B. Schuster, D. de Bruyn Ouboter, C. G. Palivan, W. Meier
Langmuir, 2011, 27(8), 4578-4584.

Biocompatible Functionalization of Polymersome Surfaces: A new Approach to Surface Immobilization and Cell Targeting using Polymersomes [link]
S. Egli, M. G. Nussbaumer, V. Balasubramanian, M. Chami, N. Bruns, C. G. Palivan, W. Meier
J. Am. Chem. Soc., 2011, 133(12), 4476-4483.

A surprising system: polymeric nanoreactors containing a mimic with dual-enzyme activity [link]
V. Balasubramanian, O. Onaca, M. Ezhevskaya, S. Van Doorslaer, B. Sivasankaran, C. G. Palivan
Soft Matter, 2011, 7, 5595- 5603.

Enzymatic Cascade Reactions inside Polymeric Nanocontainers - A Means to Combat Oxidative Stress [link]
P. Tanner, O. Onaca, V. Balasubramanian, W. Meier, C. G. Palivan
Chem. Eur. J, 2011, 17, 4552-4560.

Polymeric membranes [link]
W. Meier, C.G. Palivan
Chimia, 2010, 64(12), 880-883.

Protein decorated membranes by specific molecular interactions [link]
Rainer Nehring, Cornelia G. Palivan, Susana Moreno-Flores, Alexandre Mantion, Pascal Tanner, Jose Luis Toca-Herrera, Andreas Thuenemann, Wolfgang Meier
Soft Matter, 2010, 6(12), 2815-2824.

SOD antioxidant nanoreactors: Influence of block copolymer composition on the nanoreactor efficiency [link]
O. Onaca, D.W. Hughes, V. Balasubramanian, M. Grzelakowski, W. Meier, C. G. Palivan
Macromol. Biosci, 2010, 10(5), 531-538.

Half grid is better than no grid: competition between 2,2':6',2''-terpyridine and 3,6-di(pyrid-2-yl)pyridazine for copper(II) [link]
E.C. Constable, S. Decurtins, C.E. Housecroft, T.D. Keene, C.G. Palivan, J.R. Price, J.A. Zampese
J. Chem. Soc. Dalton Trans., 2010, 39, 2337-2343.

Amphiphilic copolymer membranes promote NADH:Ubiquinone Oxidoreductase activity: Towards an Electron-Transfer Nanodevice [link]
A. Graff, C. Fraysse-Ailhas, C.G. Palivan, M. Grzelakowski, T. Friedrich, C. Vebert, G. Gescheidt, W. Meier
Macromol. Phys. Chem., 2010, 211, 229-238.

How to Reduce Superoxide Anion Concentration using Antioxidant Nanoreactors [link]
V. Balasubramanian, O. Onaca, F. Axthelm, D. Hughes, M. Grzelakowski, W. Meier, C.G. Palivan
J. Optoelectronics & Adv. Mat., 2009, 1(6), 1083-1087.

Global structure-activity analysis in drug development illustrated for active Cu/Zn superoxide dismutase-mimics [link]
Palivan, V. Balasubramanian, B.A. Goodman
Eur. J. Inorg. Chem., 2009, 31, 4634-4639.

Structural characterization of a highly active superoxide-dismutase mimic [link]
V. Balasubramanian, M. Ezhevskaya, H. Moons, M. Neuburger, C. Cristescu, S. Van Doorslaer, C.G. Palivan
Phys. Chem. Chem. Phys., 2009, 11, 6778-6787.

Amphiphilic diblock copolymers for molecular recognition: Metal-Nitrilotriacetic functionalized vesicles [link]
R. Nehring, C. G. Palivan, O. Casse, P. Tanner, J. Tuxen, W. Meier
Langmuir, 2009, 25(2), 1122-1130.

Antioxidant nanoreactor based on Superoxide dismutase encapsulated in superoxide-permeable vesicles [link]
F. Axthelm, O. Casse, W. Koppenol, T. Nauser, W. Meier, C.G. Palivan
J. Phys. Chem. B, 2008, 112(28), 8211-8217.

Metal-peptide frameworks (MPFs)-"bioinspired" metal organic frameworks [link]
A. Mantion, L. Massger, P. Rabu, C. Palivan, L. Mac Cusker, A. Taubert
J. Am. Chem. Soc., 2008, 130(8), 2517-2526.

Homo- and heteropolynuclear Ni²⁺ and Cu²⁺ complexes of polytopic ligands, consisting of a tren unit substituted with three 12-membered tetraazamacrocycles [link]
L. Siegfried, C. N. McMahon, J. Baumeister, M. Neuburger, Th.A. Kaden, S. Anandaram, C.G. Palivan
J. Chem. Soc. Dalton Trans., 2007, 207, 4797-4810.

Mechanistic insights into stereoselective catalysis- The effects of counterions in a Cu(II)Bis(sulfoximine) catalysed hetero Dield-Alder reaction [link]
C. Bolm, M. Martin, G. Gescheidt, C. Palivan, T. Stanoeva, H. Bergantolli, M. Feth, A. Schwieger, G. Mitrikas, J. Harmer
Chem. Eur. J., 2007, 13(6), 1842-1850.

Ionic Liquid-Crystal Precursors (ILCPs) for CuCl Platelets: The Origin of the Exothermic Peak in the DSC Curves [link]
A. Taubert, C.G. Palivan, O. Casse, F. Gozzo, B. Schmitt
J. Phys. Chem. C, 2007, 111, 4077-4082.

Stable free radicals in insect cuticles: Electron spin resonance spectroscopy reveals differences between melanization and sclerotization [link]
H. Kayser, C.G. Palivan
Archives of Biochem. Biophys., 2006, 453, 179-187.

Biologically Active Cu^II and Fe^III Complexes of a Phenothiazine Derivative with Extended Co-ordination Sphere. Solution Structures [link]
C.G. Palivan, E. Bacu, S. Antonescu, C. Guran, G. Gescheidt
Revue Roum. Chim., 2006, 51(3), 169-178.

Kinetics and mechanism of the stepwise complex formation of Cu(II) with tren-centered tris-macrocycles [link]
M. Soibinet, D. Gusmeroli, L. Siegfried, Th.A. Kaden, C.Palivan, A. Schweiger
J. Chem. Soc. Dalton Trans., 2005, 12, 2138-2146.

Solution structures of some Cu(II) complexes of phenothiazine derivatives
C.G. Palivan, S. Pasolescu, C. Guran
Revue Roum. Chim., 2004, 49(2), 127-134.

Tren centered tris-macrocycles as polytopic ligands for Cu(II) and Ni(II) [link]
L. Siegfried, C.N. McMahon, Th.A. Kaden, C. Palivan, G. Gescheidt
J.Chem.Soc. Dalton Trans., 2004, 2115-2125.

Electron Delocalisation in One-Electron Oxidized Aniline Oligomers, Paradigms for Polyaniline. A Study by Paramagnetic Resonance in fluid solution [link]
B. Grossmann, J. Heinze, T. Moll, C.G. Palivan, S. Ivan, G. Gescheidt
J. Phys. Chem. B, 2004 108(15), 4669-4672.

Local Structure is Critical for Superoxide Dismutase Activity in Copper Complexes: Relationship between EPR parameters, Structure and Activity in Some Sterically-Hindered Copper(II) Bis(Hydrazono-Triazine) Complexes [link]
B. Goodman, C.G. Palivan, H.M.N. Palivan, S. Tomas
Appl. Magn. Reson., 2003, 25, 13-28.

Spectroscopic Investigations of Bis(sulfoximine) Copper(II) Complexes and their Relevance in Asymmetric Catalysis [link]
C. Bolm, M. Martin, G. Gescheidt, C. Palivan, D. Neshchadin, H. Bergantolli, M. Feth, A. Schwieger, G. Mitrikas, J. Harmer
J. Am. Chem. Soc., 2003, 125(20), 6222-6227.

Chemical and Photochemical Electron Transfer of New Helianthrone Derivatives: Aspects of their Photodynamic Activity [link]
S. Rahimipour, C. Palivan, F. Barbosa, I. Bilkis, Y. Koch, L. Weiner, M. Fridkin, Y. Mazur, G. Gescheidt
J. Am. Chem. Soc., 2003, 125(5), 1376-1384.

Redox and magnetic switching in 1,3,5-acceptor-substituted benzenes: reversible formation of radical anions, dianions and trianions in doublet, triplet, and quartet spin states [link]
E. Beer, J. Daub, C. Palivan, G. Gescheidt
J. Chem. Soc. Perkin Trans, 2002, 2(9), 1605-1610.

Hypericin Derivatives: Substituent Effects on Radical-anion Formation [link]
S. Rajimipour, C. Palivan, D. Freeman, F. Barbosa, M. Fridkin, L. Weiner, Y. Mazur, G. Gescheidt
Photochem. Photobiol, 2001, 74(2), 149-154.

Ion pairing in radical cations: the example of 9,9’-bianthryl [link]
M.N. Khan, C. Palivan, F. Barbosa, J. Amandrut, G. Gescheidt
J. Chem. Soc. Perkin Trans, 2001, 2, 1522-1526.

Four-co-ordinated copper(II) species obtained by X-ray irradiation of a three-co-ordinated copper(I) complex: a single crystal EPR study [link]
C.G. Palivan, S. Ramaprabhu
J. Chem. Soc. Dalton Trans., 2000, 3513-3518.

The Acrylamide Polymerization Initiation Reaction Induced by γ Irradiation: An EPR and Extended Hückel Study
C.G. Palivan, P. Birza, M. Dragusin
Rom. Rep. Phys., 2000, 51(7-10), 961-967.

General acquisition program for spectra
H. Palivan, C.G. Palivan
Rom. Rep. Phys., 2000, 51(7-10), 989-995.

Superoxide Scavenger Copper(II) Complexes Having Bis(Hydrazino-Triazine) Ligands: an ESR and MM⁺ Study [pdf]
C.G. Palivan, C. Darmon, S. Thomas
Bull. Magnetic Resonance,1999, 19(1-4), 29-33.

ESR Study of some Asymmetric-Triazine Copper(II) Complexes having high Antiviral Activity [link]
C.G. Palivan, H.M.N. Palivan, B.A. Goodman, C. Cristescu
Appl. Magnetic Resonance, 1998, 15(3-4), 477-488.

ESR study of some Asymmetric-Triazine Copper(II) complexes having high antiviral activity
G.C. Palivan, H.M.N. Palivan, B.A. Goodman, C. Cristescu
Balkan Phys. Letters, 1998, 6, 440-443.

Free radicals in some aza-uracil derivatives having antiviral activity: an ESR and INDO study [pdf]
C.G.Palivan, H.M.N. Palivan, C.Cristescu
Proc. Suppl., Balkan Phys. Letters, 1997, 5(3), 1929-1932.

Comparative characterisation by EPR Spectroscopy and MM⁺ Calculus of two Cu-complexes of asymetric-triasines having high SOD activity [pdf]
C.G. Palivan, C. Cristescu
Rom. J. Phys., 1997, 42(5-6), 409-417.

Characterisation by EPR spectroscopy of the coordination environment of copper in some Cu(II) complexes of asymmetric triazines having high superoxide dismutaze activity [link]
B.A. Goodman, C.G. Palivan, C. Cristescu
Polyhedron, 1995, 14(17-18), 2523-2535.

Oxidation of a Tricoordinated Cu(I) Complex into a Tetracoordinated Cu(II) Species: a Single Crystal ESR Study [link]
C. Palivan, T. Berclaz, M. Geoffroy, S. Ramaprabhu, G. Bernardinelli
J. Chem. Soc. Faraday Trans, 1995, 91(14), 2155-2160.

Characterisation by EPR spectroscopy of the co-ordination environment of copper in superoxid dismutase from horseradish (Armoracia rusticana Gaertn.) [link]
C. Palivan, H. Palivan, B.A. Goodman
Proc Roy Soc Edinburgh, 1994, 102B, 273-277.

Study by AAS of cations contaminations for fluids serving as injections (Romanian) [pdf]
C. Palivan, D. Rughinis, G. Ciohodaru, E. Niculete
Revista de Chimie, 1992, 43(5-6), 275-278.

Amitriptyline- selective Plastic Membrane Sensors and their pharmaceutical applications [link]
A.A. Bunaciu, M.S. Ionescu, C. Palivan, V.V. Cosofret
Analyst, 1991, 116, 239-243.

Studies on the availability of iron II from Glubifer tablets in simulated gastrointestinal fluids [link]
C. Palivan, D. Rughinis, V. Tamas, V.V. Cosofret
Die Pharmazie, 1989, 44, 648-649.

D-UV study of the stability of some vitamin A and D mixtures on inert support (Romanian) [pdf]
C. Palivan, M. Surmeian, V. Tamas, V.V. Cosofret
Revista de Chimie, 1988, 39(12), 1155-1159.

chapter: Battling bacteria with free and surface-immobilized polymeric nanostructures [link]
S. Rigo, M. Kyropoulou, C.A. Schoenenberger, C.G. Palivan in Racing for surfaces, B.Li et al (Editors)
[Publisher Springer Nature Switzerland AG, 2020, DOI: 10.1007/978-3-030-34475-7_17].

chapter: Challenges in malaria management and a glimpse at some nanotechnological approaches [link]
A. Najer, C.G. Palivan, H.-P. Beck,W. Meier , in Infectious Diseases and Nanomedicine III: Second International Conference(ICIDN – 2015)
[Publisher: Springer Book Series “Advances in Experimental Medicine and Biology”, 2018, 1052, 103-112, DOI: 10.1007/978-981-10-7572-8_9].

chapter: Bio-inspired polymer membranes [link]
V. Mikhalevich, C. Zelmer, A. Car, C. Palivan, W. Meier, in Bio-inspired polymers
[Publisher: RSC Publishing, 2016, 221-258, ISBN 978-1-78262-413-4].

chapter: Bio-nanoreactors: from confined reaction spaces to artificial organelles [link]
V. Postupalenko, T. Einfalt, M. Lomora, I. A. Dinu, C. G. Palivan, in Organic Nanoreactors: From Molecular to Supramolecular Organic Compounds
[Publisher: Academic Press, 2016, 341-371, ISBN 978-0-12-801713-5].

chapter: Supramolecular architectures from self-assembled copolymers [link]
T. Einfalt, G. Gunkel, M. Spulber, A. Najer, C. G. Palivan, in CRC Concise Encyclopedia of Nanotechnology
[Publisher: CRC Press, 2015, USA, 1055-1072, ISBN 978-1-4665-8034-3].

chapter: Polymer vesicles [link]
I.A. Dinu, C. Edlinger, E. Konishcheva, C. G. Palivan, W. Meier, in Encyclopedia of Polymeric Nanomaterials
[Publisher: Springer, 2014, Berlin, ISBN 978-3642296475].

chapter: Nanoreactors for biomedical applications [link]
F. Itel, A. Dinu, P. Tanner, O. Fischer, C.G. Palivan, in Handbook of Nanobiomedical Research, [Frontiers in Nanobiomedical research series
Edited by: Vladimir Torchilin; Publisher: World Scientific Publishing Co Pte Ltd, 2014, 457-508, ISSN: 2251-3965].

chapter: Polymer Vesicles on Surfaces [link]
A. Jagoda, J. Kowal, M. Delcea, C. G. Palivan, W. Meier, in Biomaterials Surface Science
[Publisher: Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, 2013, Germany].

chapter: Responsive self-assembled nanostructures
C.G. Palivan, C. Vebert, F. Axthelm, W. Meier, in Nanotechnology in Biology and Medicine
[Publisher: CRC Press, 2007, USA, 467-492, ISBN:9780849329494].

chapter: Determination of the Copper Co-ordination Environment in Superoxide Dismutases (SODs) and Complexes with SOD Activity using Molecular Mechanics Force Field Calculations and Electron Paramagnetic Resonance Spectroscopy
C.G. Palivan and B.A. Goodman, in Recent Research Developments in Inorganic and Organometallic Chemistry
[Publisher: Pandalai, 2001, India, 141-159, ISBN: 81-7736-050-7].

Tips in Linux
C.G.Palivan and H. Palivan
[Publisher: Editura Tehnica, Bucharest, Romania, 2001, 270 pag., ISBN973312060x].

Vesikel aus Polymeren
T. Einfalt, R. Goers, J. Gaitzsch, G. Gunkel-Grabole, C. Ann-Schoenenberger, C. G. Palivan
Nachrichten aus der Chemie, 2016, 64 (10), 965-967.

Membranen, die der Natur nachgebaut sind
C.G. Palivan, W. Meier
UniNova, Basel, 2011, 117, 22-23.