Publications
206 found
Show per page
Heuberger, Lukas, Korpidou, Maria, Guinart, Ainoa, Doellerer, Daniel, Monserrat López, Diego, Schoenenberger, Cora-Ann, Milinkovic, Daela, Lörtscher, Emanuel, Feringa, Ben L., & Advanced Materials, Online ahead of print. https://doi.org/10.1002/adma.202413981
(2024). Photoreceptor‐Like Signal Transduction Between Polymer‐Based Protocells.
Heuberger, Lukas, Korpidou, Maria, Guinart, Ainoa, Doellerer, Daniel, Monserrat López, Diego, Schoenenberger, Cora-Ann, Milinkovic, Daela, Lörtscher, Emanuel, Feringa, Ben L., & Advanced Materials, Online ahead of print. https://doi.org/10.1002/adma.202413981
(2024). Photoreceptor‐Like Signal Transduction Between Polymer‐Based Protocells.
Bina, Maryame, Coats, John P., Skowicki, Michal, Malekovic, Mirela, Mihali, Voichita, & Langmuir, 40(44), 23178–23188. https://doi.org/10.1021/acs.langmuir.4c02110
(2024). Hybrid Planar Copolymer Membranes with Dual Functionality against Bacteria Growth [Journal-article].
Bina, Maryame, Coats, John P., Skowicki, Michal, Malekovic, Mirela, Mihali, Voichita, & Langmuir, 40(44), 23178–23188. https://doi.org/10.1021/acs.langmuir.4c02110
(2024). Hybrid Planar Copolymer Membranes with Dual Functionality against Bacteria Growth [Journal-article].
Kraus, Manuel, Ghiorghita, Claudiu-Augustin, Dinu, Ionel-Adrian, & Swiss Soft Days.
. (2024, September 30). Thermosensitive microgels-in-cryogel composites with anisotropic pore structures and ultrafast swelling. In
Kraus, Manuel, Ghiorghita, Claudiu-Augustin, Dinu, Ionel-Adrian, & Swiss Soft Days.
. (2024, September 30). Thermosensitive microgels-in-cryogel composites with anisotropic pore structures and ultrafast swelling. In
Biomacromolecules, 25(9), 5454–5467. https://doi.org/10.1021/acs.biomac.4c00769
, Heuberger, Lukas, Gaitzsch, Jens, Voit, Brigitte, Appelhans, Dietmar, Borges Fernandes, Barbara, Battaglia, Giuseppe, Du, Jianzhong, Abdelmohsen, Loai, van Hest, Jan C. M., Hu, Jinming, Liu, Shiyong, Zhong, Zhiyuan, Sun, Huanli, Mutschler, Angela, & Lecommandoux, Sebastien. (2024). Advancing Artificial Cells with Functional Compartmentalized Polymeric Systems - In Honor of Wolfgang Meier [Journal-article].
Biomacromolecules, 25(9), 5454–5467. https://doi.org/10.1021/acs.biomac.4c00769
, Heuberger, Lukas, Gaitzsch, Jens, Voit, Brigitte, Appelhans, Dietmar, Borges Fernandes, Barbara, Battaglia, Giuseppe, Du, Jianzhong, Abdelmohsen, Loai, van Hest, Jan C. M., Hu, Jinming, Liu, Shiyong, Zhong, Zhiyuan, Sun, Huanli, Mutschler, Angela, & Lecommandoux, Sebastien. (2024). Advancing Artificial Cells with Functional Compartmentalized Polymeric Systems - In Honor of Wolfgang Meier [Journal-article].
Muthwill S. ,Moritz, Kraus, Manuel, Bina, Maryame, Malekovic, Mirela, Dinu, Ionel-Adrian, & 38th Conference of the European Colloid & Interface Society.
. (2024, September 2). In-depth comparison of solid-supported polymer membrane deposition methods. In
Muthwill S. ,Moritz, Kraus, Manuel, Bina, Maryame, Malekovic, Mirela, Dinu, Ionel-Adrian, & 38th Conference of the European Colloid & Interface Society.
. (2024, September 2). In-depth comparison of solid-supported polymer membrane deposition methods. In
Mustafa, Yasemin Leyla, Balestri, Arianna, Huang, Xinan, & Expert Opinion on Drug Delivery, 21(9), 1395–1413. https://doi.org/10.1080/17425247.2024.2403476
. (2024). Redefining drug therapy: innovative approaches using catalytic compartments [Journal-article].
Mustafa, Yasemin Leyla, Balestri, Arianna, Huang, Xinan, & Expert Opinion on Drug Delivery, 21(9), 1395–1413. https://doi.org/10.1080/17425247.2024.2403476
. (2024). Redefining drug therapy: innovative approaches using catalytic compartments [Journal-article].
Huang, Xinan, Skowicki, Michal, Dinu, Ionel Adrian, Schoenenberger, Cora‐Ann, & Advanced Functional Materials, Online ahead of print. https://doi.org/10.1002/adfm.202408373
(2024). Stimuli‐Responsive Prototissues via DNA‐Mediated Self‐Assembly of Polymer Giant Unilamellar Vesicles [Journal-article].
Huang, Xinan, Skowicki, Michal, Dinu, Ionel Adrian, Schoenenberger, Cora‐Ann, & Advanced Functional Materials, Online ahead of print. https://doi.org/10.1002/adfm.202408373
(2024). Stimuli‐Responsive Prototissues via DNA‐Mediated Self‐Assembly of Polymer Giant Unilamellar Vesicles [Journal-article].
Skowicki, Michal, Tarvirdipour, Shabnam, Kraus, Manuel, Schoenenberger, Cora-Ann, & Advanced Drug Delivery Reviews, 211. https://doi.org/10.1016/j.addr.2024.115354
(2024). Nanoassemblies designed for efficient nuclear targeting [Journal-article].
Skowicki, Michal, Tarvirdipour, Shabnam, Kraus, Manuel, Schoenenberger, Cora-Ann, & Advanced Drug Delivery Reviews, 211. https://doi.org/10.1016/j.addr.2024.115354
(2024). Nanoassemblies designed for efficient nuclear targeting [Journal-article].
Korpidou, Maria, Becker, Jonas, Tarvirdipour, Shabnam, Dinu, Ionel Adrian, Becer, C. Remzi, & Biomacromolecules, 25(7), 4492–4509. https://doi.org/10.1021/acs.biomac.4c00526
(2024). Glycooligomer-Functionalized Catalytic Nanocompartments Co-Loaded with Enzymes Support Parallel Reactions and Promote Cell Internalization [Journal-article].
Korpidou, Maria, Becker, Jonas, Tarvirdipour, Shabnam, Dinu, Ionel Adrian, Becer, C. Remzi, & Biomacromolecules, 25(7), 4492–4509. https://doi.org/10.1021/acs.biomac.4c00526
(2024). Glycooligomer-Functionalized Catalytic Nanocompartments Co-Loaded with Enzymes Support Parallel Reactions and Promote Cell Internalization [Journal-article].
Wolf, Konstantin M.P., Maffeis, Viviana, Schoenenberger, Cora-Ann, Zünd, Tamara, Bar-Peled, Liron, Proceedings of the National Academy of Sciences , 121(22). https://doi.org/10.1073/pnas.2219470121
, & Vogel, Viola. (2024). Tweaking the NRF2 signaling cascade in human myelogenous leukemia cells by artificial nano-organelles.
Wolf, Konstantin M.P., Maffeis, Viviana, Schoenenberger, Cora-Ann, Zünd, Tamara, Bar-Peled, Liron, Proceedings of the National Academy of Sciences , 121(22). https://doi.org/10.1073/pnas.2219470121
, & Vogel, Viola. (2024). Tweaking the NRF2 signaling cascade in human myelogenous leukemia cells by artificial nano-organelles.
Maffeis, Viviana, Otter, Andrea, Düsterloh, André, Kind, Lucy, ACS Omega, 9(16), 17966–17976. https://doi.org/10.1021/acsomega.3c09459
, & Saxer, Sina S. (2024). High-Throughput Silica Nanoparticle Detection for Quality Control of Complex Early Life Nutrition Food Matrices [Journal-article].
Maffeis, Viviana, Otter, Andrea, Düsterloh, André, Kind, Lucy, ACS Omega, 9(16), 17966–17976. https://doi.org/10.1021/acsomega.3c09459
, & Saxer, Sina S. (2024). High-Throughput Silica Nanoparticle Detection for Quality Control of Complex Early Life Nutrition Food Matrices [Journal-article].
Muthwill, Moritz S., Bina, Maryame, Paracini, Nicolò, Coats, John Peter, Merget, Severin, Yorulmaz Avsar, Saziye, Messmer, Daniel, Tiefenbacher, Konrad, & ACS Applied Materials and Interfaces, 16(10), 13291–13304. https://doi.org/10.1021/acsami.3c18687
(2024). Planar Polymer Membranes Accommodate Functional Self-Assembly of Inserted Resorcinarene Nanocapsules.
Muthwill, Moritz S., Bina, Maryame, Paracini, Nicolò, Coats, John Peter, Merget, Severin, Yorulmaz Avsar, Saziye, Messmer, Daniel, Tiefenbacher, Konrad, & ACS Applied Materials and Interfaces, 16(10), 13291–13304. https://doi.org/10.1021/acsami.3c18687
(2024). Planar Polymer Membranes Accommodate Functional Self-Assembly of Inserted Resorcinarene Nanocapsules.
Tarvirdipour, S., Skowicki, M., Maffeis, V., Abdollahi, S. N., Schoenenberger, C.-A., & Palivan, C. G. (2024). Peptide nanocarriers co-delivering an antisense oligonucleotide and photosensitizer elicit synergistic cytotoxicity [Journal-article]. Journal of Colloid and Interface Science. https://doi.org/10.1016/j.jcis.2024.03.021
Tarvirdipour, S., Skowicki, M., Maffeis, V., Abdollahi, S. N., Schoenenberger, C.-A., & Palivan, C. G. (2024). Peptide nanocarriers co-delivering an antisense oligonucleotide and photosensitizer elicit synergistic cytotoxicity [Journal-article]. Journal of Colloid and Interface Science. https://doi.org/10.1016/j.jcis.2024.03.021
Maffeis, Viviana, Skowicki, Michal, Wolf, Konstantin M. P., Chami, Mohamed, Schoenenberger, Cora-Ann, Vogel, Viola, & Nano Letters, 24(9), 2698–2704. https://doi.org/10.1021/acs.nanolett.3c03888
(2024). Advancing the Design of Artificial Nano-organelles for Targeted Cellular Detoxification of Reactive Oxygen Species [Journal-article].
Maffeis, Viviana, Skowicki, Michal, Wolf, Konstantin M. P., Chami, Mohamed, Schoenenberger, Cora-Ann, Vogel, Viola, & Nano Letters, 24(9), 2698–2704. https://doi.org/10.1021/acs.nanolett.3c03888
(2024). Advancing the Design of Artificial Nano-organelles for Targeted Cellular Detoxification of Reactive Oxygen Species [Journal-article].
Skowicki, Michal, Hürlimann, Dimitri, Tarvirdipour, Shabnam, Kyropoulou, Myrto, Schoenenberger, Cora-Ann, Gerber-Lemaire, Sandrine, & Biomacromolecules, 25(2), 754–766. https://doi.org/10.1021/acs.biomac.3c00943
(2024). FAP Targeting of Photosensitizer-Loaded Polymersomes for Increased Light-Activated Cell Killing [Journal-article].
Skowicki, Michal, Hürlimann, Dimitri, Tarvirdipour, Shabnam, Kyropoulou, Myrto, Schoenenberger, Cora-Ann, Gerber-Lemaire, Sandrine, & Biomacromolecules, 25(2), 754–766. https://doi.org/10.1021/acs.biomac.3c00943
(2024). FAP Targeting of Photosensitizer-Loaded Polymersomes for Increased Light-Activated Cell Killing [Journal-article].
Abdollahi, S. Narjes, Messmer, Daniel, Mihali,, Voichita, & SCS Fall Meeting 2024 .
(2024, January 1). Surface Immobilization of Magnetic Polymeric Giant Unilamellar Vesicles. In
Abdollahi, S. Narjes, Messmer, Daniel, Mihali,, Voichita, & SCS Fall Meeting 2024 .
(2024, January 1). Surface Immobilization of Magnetic Polymeric Giant Unilamellar Vesicles. In
Alter, Claudio Luca, Lotter, Claudia, Puligilla, Ramya Deepthi, Bolten, Jan Stephan, Sedzicki, Jaroslaw, Marchese, Jason, Schittny, Valentin, Rucci, Francesca, Beverly, Michael, Advanced Healthcare Materials, Online ahead of print. https://doi.org/10.1002/adhm.202401888
, Detampel, Pascal, Einfalt, Tomaž, & Huwyler, Jörg. (2024). Nano Plasma Membrane Vesicle-Lipid Nanoparticle Hybrids for Enhanced Gene Delivery and Expression.
Alter, Claudio Luca, Lotter, Claudia, Puligilla, Ramya Deepthi, Bolten, Jan Stephan, Sedzicki, Jaroslaw, Marchese, Jason, Schittny, Valentin, Rucci, Francesca, Beverly, Michael, Advanced Healthcare Materials, Online ahead of print. https://doi.org/10.1002/adhm.202401888
, Detampel, Pascal, Einfalt, Tomaž, & Huwyler, Jörg. (2024). Nano Plasma Membrane Vesicle-Lipid Nanoparticle Hybrids for Enhanced Gene Delivery and Expression.
Balestri, Arianna, & SCS Fall Meeting 2024.
(2024, January 1). Polymer assembly as artificial cell for compartmentalising lactate enzymatic reaction. In
Balestri, Arianna, & SCS Fall Meeting 2024.
(2024, January 1). Polymer assembly as artificial cell for compartmentalising lactate enzymatic reaction. In
SCS Fall Meeting 2024.
, , Nikoletić, Anamarija, Heuberger, Lukas, Korpidou, Maria, Schönenberger, Cora-Ann, & Palivan, Cornelia G. (2024, January 1). pH-Responsive Nanocarriers Formed via an Improved Synthesis of PMOXa-b-PDPA Amphiphilic Block Copolymers. In
SCS Fall Meeting 2024.
, , Nikoletić, Anamarija, Heuberger, Lukas, Korpidou, Maria, Schönenberger, Cora-Ann, & Palivan, Cornelia G. (2024, January 1). pH-Responsive Nanocarriers Formed via an Improved Synthesis of PMOXa-b-PDPA Amphiphilic Block Copolymers. In
Coats, John Peter, & Swiss Soft Days 2024 .
. (2024, January 1). pH-responsive vesicles form by an improved synthesis of PMOXa-b-PDPA. In
Coats, John Peter, & Swiss Soft Days 2024 .
. (2024, January 1). pH-responsive vesicles form by an improved synthesis of PMOXa-b-PDPA. In
Coats, John Peter, & IUPAC Macro 2024.
. (2024, January 1). pH-responsive vesicles form by an improved synthesis of PMOXa-b-PDPA. In
Coats, John Peter, & IUPAC Macro 2024.
. (2024, January 1). pH-responsive vesicles form by an improved synthesis of PMOXa-b-PDPA. In
Invited talk, Kyoto University.
. (2024, January 1). Advanced peptide multimicelle assemblies for combined gene and photodynamic therapy. In
Invited talk, Kyoto University.
. (2024, January 1). Advanced peptide multimicelle assemblies for combined gene and photodynamic therapy. In
University Politechnica, Bucharest.
. (2024, January 1). How can clusters of Janus nanoparticles and catalytic nanocompartments control reactions at the nanoscale. In
University Politechnica, Bucharest.
. (2024, January 1). How can clusters of Janus nanoparticles and catalytic nanocompartments control reactions at the nanoscale. In
Jasko, Piotr, & Swiss Soft Days 2024.
. (2024, January 1). Employing Bacterial Toxin Components for Controlled Compartment Fusion in Artificial Systems. In
Jasko, Piotr, & Swiss Soft Days 2024.
. (2024, January 1). Employing Bacterial Toxin Components for Controlled Compartment Fusion in Artificial Systems. In
Jasko, Piotr, & Nanoscience in the snow 2024.
. (2024, January 1). Employing Bacterial Toxin Components for Controlled Compartment Fusion and Cargo Transfer in Artificial Systems. In
Jasko, Piotr, & Nanoscience in the snow 2024.
. (2024, January 1). Employing Bacterial Toxin Components for Controlled Compartment Fusion and Cargo Transfer in Artificial Systems. In
Jasko, Piotr, & SNI Annual Event 2024.
. (2024, January 1). Employing Bacterial Toxin Components for Controlled Compartment Fusion in Artificial Systems. In
Jasko, Piotr, & SNI Annual Event 2024.
. (2024, January 1). Employing Bacterial Toxin Components for Controlled Compartment Fusion in Artificial Systems. In
Jasko, Piotr, & Swiss Soft Days 2024.
. (2024, January 1). Employing Bacterial Toxin Component for Controlled Compartment Fusion in Artificial Systems. In
Jasko, Piotr, & Swiss Soft Days 2024.
. (2024, January 1). Employing Bacterial Toxin Component for Controlled Compartment Fusion in Artificial Systems. In
Kraus, Manuel, Malekovic, Mirela, Dinu, Ionel Adrian, & Swiss Soft Days.
. (2024, January 1). Multi-responsive hydrogel composites for dynamic structural colors.
Kraus, Manuel, Malekovic, Mirela, Dinu, Ionel Adrian, & Swiss Soft Days.
. (2024, January 1). Multi-responsive hydrogel composites for dynamic structural colors.
Kraus, Manuel, & 38th Conference of European Colloid and Interface Society.
. (2024, January 1). In-depth comparison of two solid-supported polymer membrane deposition methods. In
Kraus, Manuel, & 38th Conference of European Colloid and Interface Society.
. (2024, January 1). In-depth comparison of two solid-supported polymer membrane deposition methods. In
Maffeis, Viviana, Schoenenberger, Cora-Ann, Housecroft, Catherine E., & 2024 Biointerface Science Gordon Research Seminar.
(2024, January 1). Catalytic Nanocompartments: Orchestrating Artificial Cellular Signaling Cascades. In
Maffeis, Viviana, Schoenenberger, Cora-Ann, Housecroft, Catherine E., & 2024 Biointerface Science Gordon Research Seminar.
(2024, January 1). Catalytic Nanocompartments: Orchestrating Artificial Cellular Signaling Cascades. In
Maffeis, Viviana, Schoenenberger, Cora-Ann, Housecroft, Catherine E., & 2024 Biointerface Science Gordon Research Seminar.
(2024, January 1). Catalytic Nanocompartments: Orchestrating Artificial Cellular Signaling Cascades (Poster). In
Maffeis, Viviana, Schoenenberger, Cora-Ann, Housecroft, Catherine E., & 2024 Biointerface Science Gordon Research Seminar.
(2024, January 1). Catalytic Nanocompartments: Orchestrating Artificial Cellular Signaling Cascades (Poster). In
Malekovic, Mirela, & Symposium Nano-BW 2024 .
. (2024, January 1). Comparation of Solid Supported Polymer Membranes deposition methods. In
Malekovic, Mirela, & Symposium Nano-BW 2024 .
. (2024, January 1). Comparation of Solid Supported Polymer Membranes deposition methods. In
Mihali, Voichita, Jasko, Piotr, Skowicki, Michal, & SCS Fall Meeting 2024.
(2024, January 1). Multifunctional Hybrid Systems via Self-Organization of Janus Nanoparticles and Polymersomes for Bio-Applications. In
Mihali, Voichita, Jasko, Piotr, Skowicki, Michal, & SCS Fall Meeting 2024.
(2024, January 1). Multifunctional Hybrid Systems via Self-Organization of Janus Nanoparticles and Polymersomes for Bio-Applications. In
Mihali, Voichita, Jasko, Piotr, Skowicki, Michal, & 7th International Conference on Materials Science & Nanotechnology .
(2024, January 1). Hierarchical self-organization of Janus Nanoparticles and polymersomes for bio-applications. In
Mihali, Voichita, Jasko, Piotr, Skowicki, Michal, & 7th International Conference on Materials Science & Nanotechnology .
(2024, January 1). Hierarchical self-organization of Janus Nanoparticles and polymersomes for bio-applications. In
Mihali, Voichita, Jasko, Piotr, Skowicki, Michal, & Materials Today, Online ahead of print. https://doi.org/10.1016/j.mattod.2024.08.020
(2024). Controlled enzymatic reactions by programmed confinement in clusters of polymersomes and Janus nanoparticles.
Mihali, Voichita, Jasko, Piotr, Skowicki, Michal, & Materials Today, Online ahead of print. https://doi.org/10.1016/j.mattod.2024.08.020
(2024). Controlled enzymatic reactions by programmed confinement in clusters of polymersomes and Janus nanoparticles.
Mihali, Voichita, & BW-Nano 2024.
. (2024, January 1). Engineered Advanced Hybrid Systems through Self-Assembly of Janus Nanoparticles and Polymersomes for Bio-Applications. In
Mihali, Voichita, & BW-Nano 2024.
. (2024, January 1). Engineered Advanced Hybrid Systems through Self-Assembly of Janus Nanoparticles and Polymersomes for Bio-Applications. In
Muthwill, Muthwill, & ScotChem Polymer and Soft Materials III.
. (2024, January 1). Solid-supported block copolymer membranes for accommodation of functional selfassembled resorcinarene nanocapsules. In
Muthwill, Muthwill, & ScotChem Polymer and Soft Materials III.
. (2024, January 1). Solid-supported block copolymer membranes for accommodation of functional selfassembled resorcinarene nanocapsules. In
Nikoletić, Anamarija, & Swiss Soft Days 2024 .
. (2024, January 1). Thermoresponsive nanocarriers based on poly(oligo ethylene glycol acrylate) block copolymers. In
Nikoletić, Anamarija, & Swiss Soft Days 2024 .
. (2024, January 1). Thermoresponsive nanocarriers based on poly(oligo ethylene glycol acrylate) block copolymers. In
Nikoletić, Anamarija, & Nanoscience in the snow 2024.
. (2024, January 1). Multi-compartment nanofactories for on-site and on-demand drug synthesis and delivery. In
Nikoletić, Anamarija, & Nanoscience in the snow 2024.
. (2024, January 1). Multi-compartment nanofactories for on-site and on-demand drug synthesis and delivery. In
Nikoletić, Anamarija, & Biointerfaces International Conference (BIC).
. (2024, January 1). Thermoresponsive nanocarriers based on poly(oligo ethylene glycol acrylate) block copolymers. In
Nikoletić, Anamarija, & Biointerfaces International Conference (BIC).
. (2024, January 1). Thermoresponsive nanocarriers based on poly(oligo ethylene glycol acrylate) block copolymers. In
Nikoletić, Anamarija, & SNI Annual Event 2024.
. (2024, January 1). Towards NIR-light triggered polymeric nanocarriers. In
Nikoletić, Anamarija, & SNI Annual Event 2024.
. (2024, January 1). Towards NIR-light triggered polymeric nanocarriers. In
20Th Annual Congress of International Drug Discovery Science and Technology.
. (2024, January 1). Peptide nanocarriers co-delivering an antisense nucleotide and photosensitizer elicit synergetic cytotoxicity. In
20Th Annual Congress of International Drug Discovery Science and Technology.
. (2024, January 1). Peptide nanocarriers co-delivering an antisense nucleotide and photosensitizer elicit synergetic cytotoxicity. In
Advanced Materials Symposium.
. (2024, January 1). Artificial organelles and cells: Bottom-up strategies to design advanced systems. In
Advanced Materials Symposium.
. (2024, January 1). Artificial organelles and cells: Bottom-up strategies to design advanced systems. In
Nanomedicine Symposium.
. (2024, January 1). Artificial organells and protocells as advanced medical solutions. In
Nanomedicine Symposium.
. (2024, January 1). Artificial organells and protocells as advanced medical solutions. In
International Conference on Functional Nanomatertials and Nanodevices.
. (2024, January 1). Hierarchical self-organization of polymersomes and Janus nanoparticles in clusters by controlled DNA hybridization. In
International Conference on Functional Nanomatertials and Nanodevices.
. (2024, January 1). Hierarchical self-organization of polymersomes and Janus nanoparticles in clusters by controlled DNA hybridization. In
ACS Meeting Fall 2024.
. (2024, January 1). Clusters of catalytic nanocompartments and Janus nanoparticles as spaces for complex reactions C.G. Palivan. In
ACS Meeting Fall 2024.
. (2024, January 1). Clusters of catalytic nanocompartments and Janus nanoparticles as spaces for complex reactions C.G. Palivan. In
Life Inspired Functional Assembly Symposium.
. (2024, January 1). Bioinspired clusters of nanoassemblies for complex reactions. In
Life Inspired Functional Assembly Symposium.
. (2024, January 1). Bioinspired clusters of nanoassemblies for complex reactions. In
Third International Conference on Nature Inspired Surface Engineering (NISE 2024).
. (2024, January 1). Functional surfaces by combining soft membranes with catalytic nanocapsules and biomolecules. In
Third International Conference on Nature Inspired Surface Engineering (NISE 2024).
. (2024, January 1). Functional surfaces by combining soft membranes with catalytic nanocapsules and biomolecules. In
Hybrid triblock copolymer membrane and methods for nanopore sequencing.
. (2024).
Hybrid triblock copolymer membrane and methods for nanopore sequencing.
. (2024).
Schoenenberger, Cora A., Kraus, Manuel, & News&Events, Article 12.11.2024. https://www.unibas.ch/en/News-Events/News/Uni-Research/Synthetic-cells-emulate-natural-cellular-communication.html
. (2024, January 1). Synthetic cells emulate natural cellular communication.
Schoenenberger, Cora A., Kraus, Manuel, & News&Events, Article 12.11.2024. https://www.unibas.ch/en/News-Events/News/Uni-Research/Synthetic-cells-emulate-natural-cellular-communication.html
. (2024, January 1). Synthetic cells emulate natural cellular communication.
Tarvirdipour, Shabnam, & 8th Global Conference & Expo on Materials Science and Engineering.
. (2024, January 1). Peptidic Platforms for Biomedical Applications on the Rise. In
Tarvirdipour, Shabnam, & 8th Global Conference & Expo on Materials Science and Engineering.
. (2024, January 1). Peptidic Platforms for Biomedical Applications on the Rise. In
Tarvirdipour, Shabnam, & Biointerfaces International Conference (BIC).
. (2024, January 1). Co-delivery of an Antisense Oligonucleotide and Photosensitizer Using a Peptide Nanocarrier. In
Tarvirdipour, Shabnam, & Biointerfaces International Conference (BIC).
. (2024, January 1). Co-delivery of an Antisense Oligonucleotide and Photosensitizer Using a Peptide Nanocarrier. In
Tarvirdipour, Shabnam, & Swiss Soft Days 2024 .
. (2024, January 1). Peptide Nanocarrier Co-delivering an Antisense Oligonucleotide and Photosensitizer. In
Tarvirdipour, Shabnam, & Swiss Soft Days 2024 .
. (2024, January 1). Peptide Nanocarrier Co-delivering an Antisense Oligonucleotide and Photosensitizer. In
Wyss, Vanessa, Dinu, Ionel Adrian, Marot, Laurent, Catalysis Science and Technology, 14(16), 4550–4565. https://doi.org/10.1039/d4cy00518j
, & Delley, Murielle F. (2024). Thermocatalytic epoxidation by cobalt sulfide inspired by the material’s electrocatalytic activity for oxygen evolution reaction.
Wyss, Vanessa, Dinu, Ionel Adrian, Marot, Laurent, Catalysis Science and Technology, 14(16), 4550–4565. https://doi.org/10.1039/d4cy00518j
, & Delley, Murielle F. (2024). Thermocatalytic epoxidation by cobalt sulfide inspired by the material’s electrocatalytic activity for oxygen evolution reaction.
Heuberger, Lukas, Messmer, Daniel, dos Santos, Elena C., Scherrer, Dominik, Lörtscher, Emanuel, Schoenenberger, Cora‐Ann, & Advanced Science, 11(11). https://doi.org/10.1002/advs.202307103
(2023). Microfluidic Giant Polymer Vesicles Equipped with Biopores for High‐Throughput Screening of Bacteria [Journal-article].
Heuberger, Lukas, Messmer, Daniel, dos Santos, Elena C., Scherrer, Dominik, Lörtscher, Emanuel, Schoenenberger, Cora‐Ann, & Advanced Science, 11(11). https://doi.org/10.1002/advs.202307103
(2023). Microfluidic Giant Polymer Vesicles Equipped with Biopores for High‐Throughput Screening of Bacteria [Journal-article].
Maffeis, Viviana, Heuberger, Lukas, Nikoletić, Anamarija, Schoenenberger, Cora-Ann, & Advanced Science, 11(8). https://doi.org/10.1002/advs.202305837
(2023). Synthetic Cells Revisited: Artificial Cells Construction Using Polymeric Building Blocks.
Maffeis, Viviana, Heuberger, Lukas, Nikoletić, Anamarija, Schoenenberger, Cora-Ann, & Advanced Science, 11(8). https://doi.org/10.1002/advs.202305837
(2023). Synthetic Cells Revisited: Artificial Cells Construction Using Polymeric Building Blocks.
Ikkene, Djallal, Eggenberger, Olivia M., Schoenenberger, Cora-Ann, & Current Opinion in Colloid and Interface Science, 66, 101706. https://doi.org/10.1016/j.cocis.2023.101706
(2023). Engineering antimicrobial surfaces by harnessing polymeric nanoassemblies [Journal-article].
Ikkene, Djallal, Eggenberger, Olivia M., Schoenenberger, Cora-Ann, & Current Opinion in Colloid and Interface Science, 66, 101706. https://doi.org/10.1016/j.cocis.2023.101706
(2023). Engineering antimicrobial surfaces by harnessing polymeric nanoassemblies [Journal-article].
Alter, Claudio L., Detampel, Pascal, Schefer, Roman B., Lotter, Claudia, Hauswirth, Patrick, Puligilla, Ramya D., Weibel, Vera J., Schenk, Susanne H., Heusermann, Wolf, Schürz, Melanie, Meisner-Kober, Nicole, Communications biology, 6(1), 478. https://doi.org/10.1038/s42003-023-04859-2
, Einfalt, Tomaž, & Huwyler, Jörg. (2023). High efficiency preparation of monodisperse plasma membrane derived extracellular vesicles for therapeutic applications.
Alter, Claudio L., Detampel, Pascal, Schefer, Roman B., Lotter, Claudia, Hauswirth, Patrick, Puligilla, Ramya D., Weibel, Vera J., Schenk, Susanne H., Heusermann, Wolf, Schürz, Melanie, Meisner-Kober, Nicole, Communications biology, 6(1), 478. https://doi.org/10.1038/s42003-023-04859-2
, Einfalt, Tomaž, & Huwyler, Jörg. (2023). High efficiency preparation of monodisperse plasma membrane derived extracellular vesicles for therapeutic applications.
Symposium Nano-BW 2023.
, & Palivan, Cornelia. (2023, January 1). Nanotextured surfaces based on mixtures of amphiphilic diblock copolymers as membrane mimics. In
Symposium Nano-BW 2023.
, & Palivan, Cornelia. (2023, January 1). Nanotextured surfaces based on mixtures of amphiphilic diblock copolymers as membrane mimics. In
Guinart, Ainoa, Korpidou, Maria, Doellerer, Daniel, Pacella, Gianni, Stuart, Marc C.A., Dinu, Ionel Adrian, Portale, Giuseppe, Proceedings of the National Academy of Sciences of the United States of America, 120(27). https://doi.org/10.1073/pnas.2301279120
, & Feringa, Ben L. (2023). Synthetic molecular motor activates drug delivery from polymersomes [Journal-article].
Guinart, Ainoa, Korpidou, Maria, Doellerer, Daniel, Pacella, Gianni, Stuart, Marc C.A., Dinu, Ionel Adrian, Portale, Giuseppe, Proceedings of the National Academy of Sciences of the United States of America, 120(27). https://doi.org/10.1073/pnas.2301279120
, & Feringa, Ben L. (2023). Synthetic molecular motor activates drug delivery from polymersomes [Journal-article].
Nanoscience in the Snow 2023.
, & Palivan, Cornelia. (2023, January 1). Transmembrane protein-mediated loading of synthetic compartments. In
Nanoscience in the Snow 2023.
, & Palivan, Cornelia. (2023, January 1). Transmembrane protein-mediated loading of synthetic compartments. In
SNI Annual Event 2023.
, & Palivan, Cornelia. (2023, January 1). Employing Bacterial Toxins Components for Controlled Compartment Fusion and Cargo Transfer in Artificial Systems. In
SNI Annual Event 2023.
, & Palivan, Cornelia. (2023, January 1). Employing Bacterial Toxins Components for Controlled Compartment Fusion and Cargo Transfer in Artificial Systems. In
Swiss Soft Days.
, & Palivan, Cornelia. (2023, January 1). Synthetic molecular motor activates drug delivery from polymersomes. In
Swiss Soft Days.
, & Palivan, Cornelia. (2023, January 1). Synthetic molecular motor activates drug delivery from polymersomes. In
SCS Fall Meeting.
, & Palivan, Cornelia. (2023, January 1). Developing Non-Native Cascade Reactions by Means of Catalytic Nanocompartments. In
SCS Fall Meeting.
, & Palivan, Cornelia. (2023, January 1). Developing Non-Native Cascade Reactions by Means of Catalytic Nanocompartments. In
49th Annual Congress of ESAO.
, & Palivan, Cornelia. (2023, January 1). Assembling Catalytic Nanocompartments into Artificial Signaling Cascades. In
49th Annual Congress of ESAO.
, & Palivan, Cornelia. (2023, January 1). Assembling Catalytic Nanocompartments into Artificial Signaling Cascades. In
Symposium Nano-BW 2023.
, & Palivan, Cornelia. (2023, January 1). Hierarchical Self-organization of Polymersomes and Janus Nanoparticles Mediated by DNA. In
Symposium Nano-BW 2023.
, & Palivan, Cornelia. (2023, January 1). Hierarchical Self-organization of Polymersomes and Janus Nanoparticles Mediated by DNA. In
Mihali, Voichita, Skowicki, Michal, Messmer, Daniel, & Nano today, 48, 101741. https://doi.org/10.1016/j.nantod.2022.101741
(2023). Clusters of polymersomes and Janus nanoparticles hierarchically self-organized and controlled by DNA hybridization.
Mihali, Voichita, Skowicki, Michal, Messmer, Daniel, & Nano today, 48, 101741. https://doi.org/10.1016/j.nantod.2022.101741
(2023). Clusters of polymersomes and Janus nanoparticles hierarchically self-organized and controlled by DNA hybridization.
ACS Meeting.
, Skowiky, Michal, Messmer, Daniel, & Palivan, Cornelia. (2023, January 1). Directed self-organisation of hard and soft nanoassemblies into clusters with controlled architecture and properties. In
ACS Meeting.
, Skowiky, Michal, Messmer, Daniel, & Palivan, Cornelia. (2023, January 1). Directed self-organisation of hard and soft nanoassemblies into clusters with controlled architecture and properties. In
International Conference on materials science, engineering & technology.
. (2023, January 1). Clusters of catalytic bio-nanocompartments for applications in biomedicine. In
International Conference on materials science, engineering & technology.
. (2023, January 1). Clusters of catalytic bio-nanocompartments for applications in biomedicine. In
International Conference N.I.C.E.
. (2023, January 1). How can clusters of catalytic bio-nanocompartments offer advanced solutions for applications in medicine. In
International Conference N.I.C.E.
. (2023, January 1). How can clusters of catalytic bio-nanocompartments offer advanced solutions for applications in medicine. In
International Colloids Conference.
. (2023, January 1). How artificial organelles and cells support medical applications? In
International Colloids Conference.
. (2023, January 1). How artificial organelles and cells support medical applications? In
Nanotechnology for Advanced Bio-applications Workshop.
. (2023, January 1). How can catalytic nanocompartments serve for protein therapy. In
Nanotechnology for Advanced Bio-applications Workshop.
. (2023, January 1). How can catalytic nanocompartments serve for protein therapy. In
ACS Meeting.
. (2023, January 1). Clusters of catalytic nanocompartments support cascade reactions for bio-applications
. In
ACS Meeting.
. (2023, January 1). Clusters of catalytic nanocompartments support cascade reactions for bio-applications
. In
Trends in Nanotechnology International Conference (TNT).
. (2023, January 1). Clusters of active nanocompartments as efficient nanotheranostics . In
Trends in Nanotechnology International Conference (TNT).
. (2023, January 1). Clusters of active nanocompartments as efficient nanotheranostics . In
Invited talk, University Transilvania.
. (2023, January 1). Design of artificial cells and organelles for medical applications. In
Invited talk, University Transilvania.
. (2023, January 1). Design of artificial cells and organelles for medical applications. In
Nanotechnology for Engineering Surfaces Workshop.
. (2023, January 1). Active surfaces for bio-sensing. In
Nanotechnology for Engineering Surfaces Workshop.
. (2023, January 1). Active surfaces for bio-sensing. In
Bina, Maryame, Krywko-Cendrowska, Agata, Daubian, Davy, Meier, Wolfgang, & Nano Letters, 22(13), 5077–5085. https://doi.org/10.1021/acs.nanolett.2c00332
(2022). Multicomponent Copolymer Planar Membranes with Nanoscale Domain Separation.
Bina, Maryame, Krywko-Cendrowska, Agata, Daubian, Davy, Meier, Wolfgang, & Nano Letters, 22(13), 5077–5085. https://doi.org/10.1021/acs.nanolett.2c00332
(2022). Multicomponent Copolymer Planar Membranes with Nanoscale Domain Separation.
Di Leone, Stefano, Kyropoulou, Myrto, Köchlin, Julian, Wehr, Riccardo, Meier, Wolfgang P., & Langmuir, 38(21), 6561–6570. https://doi.org/10.1021/acs.langmuir.2c00204
(2022). Tailoring a Solvent-Assisted Method for Solid-Supported Hybrid Lipid-Polymer Membranes.
Di Leone, Stefano, Kyropoulou, Myrto, Köchlin, Julian, Wehr, Riccardo, Meier, Wolfgang P., & Langmuir, 38(21), 6561–6570. https://doi.org/10.1021/acs.langmuir.2c00204
(2022). Tailoring a Solvent-Assisted Method for Solid-Supported Hybrid Lipid-Polymer Membranes.
Heuberger, Lukas, Korpidou, Maria, Eggenberger, Olivia M., Kyropoulou, Myrto, & International Journal of Molecular Sciences, 23(10), 5718. https://doi.org/10.3390/ijms23105718
(2022). Current Perspectives on Synthetic Compartments for Biomedical Applications.
Heuberger, Lukas, Korpidou, Maria, Eggenberger, Olivia M., Kyropoulou, Myrto, & International Journal of Molecular Sciences, 23(10), 5718. https://doi.org/10.3390/ijms23105718
(2022). Current Perspectives on Synthetic Compartments for Biomedical Applications.
Heuberger, Lukas, & Chimia, 76(4), 350–353. https://doi.org/10.2533/chimia.2022.350
(2022). Block Copolymer Giant Unilamellar Vesicles for High-Throughput Screening.
Heuberger, Lukas, & Chimia, 76(4), 350–353. https://doi.org/10.2533/chimia.2022.350
(2022). Block Copolymer Giant Unilamellar Vesicles for High-Throughput Screening.
Huang, Xinan, Hürlimann, Dimitri, Spanke, Hendrik T., Wu, Dalin, Skowicki, Michal, Dinu, Ionel Adrian, Dufresne, Eric. R., & Advanced Healthcare Materials, 11(23), e2202100. https://doi.org/10.1002/adhm.202202100
(2022). Cell-Derived Vesicles with Increased Stability and On-Demand Functionality by Equipping Their Membrane with a Cross-Linkable Copolymer.
Huang, Xinan, Hürlimann, Dimitri, Spanke, Hendrik T., Wu, Dalin, Skowicki, Michal, Dinu, Ionel Adrian, Dufresne, Eric. R., & Advanced Healthcare Materials, 11(23), e2202100. https://doi.org/10.1002/adhm.202202100
(2022). Cell-Derived Vesicles with Increased Stability and On-Demand Functionality by Equipping Their Membrane with a Cross-Linkable Copolymer.
Korpidou, Maria, Maffeis, Viviana, Dinu, Ionel Adrian, Schoenenberger, Cora-Ann, Meier, Wolfgang P., & Journal of Materials Chemistry B, 10(20), 3916–3926. https://doi.org/10.1039/d2tb00243d
(2022). Inverting glucuronidation of hymecromone in situ by catalytic nanocompartments.
Korpidou, Maria, Maffeis, Viviana, Dinu, Ionel Adrian, Schoenenberger, Cora-Ann, Meier, Wolfgang P., & Journal of Materials Chemistry B, 10(20), 3916–3926. https://doi.org/10.1039/d2tb00243d
(2022). Inverting glucuronidation of hymecromone in situ by catalytic nanocompartments.
Lotter, Claudia, Alter, Claudio Luca, Bolten, Jan Stephan, Detampel, Pascal, European Journal of Pharmaceutics and Biopharmaceutics, 172, 134–143. https://doi.org/10.1016/j.ejpb.2022.02.007
, Einfalt, Tomaž, & Huwyler, Jörg. (2022). Incorporation of phosphatidylserine improves efficiency of lipid based gene delivery systems.
Lotter, Claudia, Alter, Claudio Luca, Bolten, Jan Stephan, Detampel, Pascal, European Journal of Pharmaceutics and Biopharmaceutics, 172, 134–143. https://doi.org/10.1016/j.ejpb.2022.02.007
, Einfalt, Tomaž, & Huwyler, Jörg. (2022). Incorporation of phosphatidylserine improves efficiency of lipid based gene delivery systems.
Maffeis, Vivivana, Hürlimann, Dimitri, Krywko-Cendrowska, Agata, Schönenberger, Cora-Ann, Housecroft, Catherine E., & Small, 19(13), e2202818. https://doi.org/10.1002/smll.202202818
(2022). A DNA-micropatterned surface for propagating biomolecular signals by positional on-off assembly of catalytic nanocompartments.
Maffeis, Vivivana, Hürlimann, Dimitri, Krywko-Cendrowska, Agata, Schönenberger, Cora-Ann, Housecroft, Catherine E., & Small, 19(13), e2202818. https://doi.org/10.1002/smll.202202818
(2022). A DNA-micropatterned surface for propagating biomolecular signals by positional on-off assembly of catalytic nanocompartments.
Muthwill, Moritz S., Kong, Phally, Dinu, Ionel Adrian, Necula, Danut, John, Christoph, & Macromolecular Bioscience, 22(11), e2200270. https://doi.org/10.1002/mabi.202200270
(2022). Tailoring Polymer-Based Nanoassemblies for Stimuli-Responsive Theranostic Applications.
Muthwill, Moritz S., Kong, Phally, Dinu, Ionel Adrian, Necula, Danut, John, Christoph, & Macromolecular Bioscience, 22(11), e2200270. https://doi.org/10.1002/mabi.202200270
(2022). Tailoring Polymer-Based Nanoassemblies for Stimuli-Responsive Theranostic Applications.
Tarvirdipour, Shabnam, Skowicki, Michal, Schoenenberger, Cora-Ann, Kapinos, Larisa E., Lim, Roderick Y. H., Benenson, Yaakov, & Biomaterials Science, 10(15), 4309–4323. https://doi.org/10.1039/d2bm00826b
(2022). A self-assembling peptidic platform to boost the cellular uptake and nuclear delivery of oligonucleotides.
Tarvirdipour, Shabnam, Skowicki, Michal, Schoenenberger, Cora-Ann, Kapinos, Larisa E., Lim, Roderick Y. H., Benenson, Yaakov, & Biomaterials Science, 10(15), 4309–4323. https://doi.org/10.1039/d2bm00826b
(2022). A self-assembling peptidic platform to boost the cellular uptake and nuclear delivery of oligonucleotides.
Di Leone, Stefano, Vallapurackal, Jaicy, Yorulmaz Avsar, Saziye, Kyropolou, Myrto, Ward, Thomas R., Biomacromolecules, 22(7), 3005–3016. https://doi.org/10.1021/acs.biomac.1c00424
, & Meier, Wolfgang. (2021). Expanding the Potential of the Solvent-Assisted Method to Create Bio-Interfaces from Amphiphilic Block Copolymers.
Di Leone, Stefano, Vallapurackal, Jaicy, Yorulmaz Avsar, Saziye, Kyropolou, Myrto, Ward, Thomas R., Biomacromolecules, 22(7), 3005–3016. https://doi.org/10.1021/acs.biomac.1c00424
, & Meier, Wolfgang. (2021). Expanding the Potential of the Solvent-Assisted Method to Create Bio-Interfaces from Amphiphilic Block Copolymers.
Huo, Zihe, Lomora, Mihai, Kym, Urs, Frontiers in Cell and Developmental Biology, 9, 605272. https://doi.org/10.3389/fcell.2021.605272
, Holland-Cunz, Stefan G., & Gros, Stephanie J. (2021). AQP1 Is Up-Regulated by Hypoxia and Leads to Increased Cell Water Permeability, Motility, and Migration in Neuroblastoma.
Huo, Zihe, Lomora, Mihai, Kym, Urs, Frontiers in Cell and Developmental Biology, 9, 605272. https://doi.org/10.3389/fcell.2021.605272
, Holland-Cunz, Stefan G., & Gros, Stephanie J. (2021). AQP1 Is Up-Regulated by Hypoxia and Leads to Increased Cell Water Permeability, Motility, and Migration in Neuroblastoma.
Kyropoulou, Myrto, Yorulmaz Avsar, Saziye, Schoenenberger, Cora-Ann, Nanoscale, 13(14), 6944–6952. https://doi.org/10.1039/d1nr01122g
, & Meier, Wolfgang P. (2021). From spherical compartments to polymer films: exploiting vesicle fusion to generate solid supported thin polymer membranes.
Kyropoulou, Myrto, Yorulmaz Avsar, Saziye, Schoenenberger, Cora-Ann, Nanoscale, 13(14), 6944–6952. https://doi.org/10.1039/d1nr01122g
, & Meier, Wolfgang P. (2021). From spherical compartments to polymer films: exploiting vesicle fusion to generate solid supported thin polymer membranes.
Maffeis, Viviana, Belluati, Andrea, Craciun, Ioana, Wu, Dalin, Novak, Samantha, Schoenenberger, Cora-Ann, & Chemical Science, 12(37), 12274–12285. https://doi.org/10.1039/d1sc04267j
(2021). Clustering of catalytic nanocompartments for enhancing an extracellular non-native cascade reaction.
Maffeis, Viviana, Belluati, Andrea, Craciun, Ioana, Wu, Dalin, Novak, Samantha, Schoenenberger, Cora-Ann, & Chemical Science, 12(37), 12274–12285. https://doi.org/10.1039/d1sc04267j
(2021). Clustering of catalytic nanocompartments for enhancing an extracellular non-native cascade reaction.
Meyer, Claire Elsa, Craciun, Ioana, Schoenenberger, Cora-Ann, Wehr, Riccardo, & Nanoscale, 13(1), 66–70. https://doi.org/10.1039/d0nr07178a
. (2021). Catalytic polymersomes to produce strong and long-lasting bioluminescence.
Meyer, Claire Elsa, Craciun, Ioana, Schoenenberger, Cora-Ann, Wehr, Riccardo, & Nanoscale, 13(1), 66–70. https://doi.org/10.1039/d0nr07178a
. (2021). Catalytic polymersomes to produce strong and long-lasting bioluminescence.
Meyer, Claire Elsa, Schoenenberger, Cora-Ann, Liu, Juan, Craciun, Ioana, & Chimia, 75(4), 296–299. https://doi.org/10.2533/chimia.2021.296
. (2021). DNA-tethered polymersome clusters as nanotheranostic platform.
Meyer, Claire Elsa, Schoenenberger, Cora-Ann, Liu, Juan, Craciun, Ioana, & Chimia, 75(4), 296–299. https://doi.org/10.2533/chimia.2021.296
. (2021). DNA-tethered polymersome clusters as nanotheranostic platform.
Meyer, Claire E., Schoenenberger, Cora-Ann, Wehr, Riccardo P., Wu, Dalin, & Macromolecular Bioscience, 21(12), e2100249. https://doi.org/10.1002/mabi.202100249
(2021). Artificial Melanogenesis by Confining Melanin/Polydopamine Production inside Polymersomes.
Meyer, Claire E., Schoenenberger, Cora-Ann, Wehr, Riccardo P., Wu, Dalin, & Macromolecular Bioscience, 21(12), e2100249. https://doi.org/10.1002/mabi.202100249
(2021). Artificial Melanogenesis by Confining Melanin/Polydopamine Production inside Polymersomes.
Tarvirdipour, Shabnam, Skowicki, Michal, Schoenenberger, Cora-Ann, & International Journal of Molecular Sciences, 22(16), 9092. https://doi.org/10.3390/ijms22169092
(2021). Peptide-Assisted Nucleic Acid Delivery Systems on the Rise.
Tarvirdipour, Shabnam, Skowicki, Michal, Schoenenberger, Cora-Ann, & International Journal of Molecular Sciences, 22(16), 9092. https://doi.org/10.3390/ijms22169092
(2021). Peptide-Assisted Nucleic Acid Delivery Systems on the Rise.
Tarvirdirpour, Shabnam, Schoenenberger, Cora-Ann, & Scholarly Community Encyclopedia. MDPI. https://doi.org/10.3390/ijms22169092
(2021). Peptide-assisted nucleic acid delivery systems. In
Tarvirdirpour, Shabnam, Schoenenberger, Cora-Ann, & Scholarly Community Encyclopedia. MDPI. https://doi.org/10.3390/ijms22169092
(2021). Peptide-assisted nucleic acid delivery systems. In
Zartner, Luisa, Maffeis, Viviana, Schoenenberger, Cora-Ann, Dinu, Ionel Adrian, & Journal of Materials Chemistry B, 9(43), 9012–9022. https://doi.org/10.1039/d1tb01463c
(2021). Membrane protein channels equipped with a cleavable linker for inducing catalysis inside nanocompartments.
Zartner, Luisa, Maffeis, Viviana, Schoenenberger, Cora-Ann, Dinu, Ionel Adrian, & Journal of Materials Chemistry B, 9(43), 9012–9022. https://doi.org/10.1039/d1tb01463c
(2021). Membrane protein channels equipped with a cleavable linker for inducing catalysis inside nanocompartments.
Avsar, Saziye Yorulmaz, Kapinos, Larisa E., Schoenenberger, Cora-Ann, Schertler, Gebhard F. X., Muhle, Jonas, Meger, Benoit, Lim, Roderick Y. H., Ostermaier, Martin K., Lesca, Elena, & Physical Chemistry Chemical Physics, 22(41), 24086–24096. https://doi.org/10.1039/d0cp01464h
(2020). Immobilization of arrestin-3 on different biosensor platforms for evaluating GPCR binding.
Avsar, Saziye Yorulmaz, Kapinos, Larisa E., Schoenenberger, Cora-Ann, Schertler, Gebhard F. X., Muhle, Jonas, Meger, Benoit, Lim, Roderick Y. H., Ostermaier, Martin K., Lesca, Elena, & Physical Chemistry Chemical Physics, 22(41), 24086–24096. https://doi.org/10.1039/d0cp01464h
(2020). Immobilization of arrestin-3 on different biosensor platforms for evaluating GPCR binding.
Belluati, Andrea, Craciun, Ioana, & ACS Nano, 14(9), 12101–12112. https://doi.org/10.1021/acsnano.0c05574
(2020). Bioactive Catalytic Nanocompartments Integrated into Cell Physiology and Their Amplification of a Native Signaling Cascade.
Belluati, Andrea, Craciun, Ioana, & ACS Nano, 14(9), 12101–12112. https://doi.org/10.1021/acsnano.0c05574
(2020). Bioactive Catalytic Nanocompartments Integrated into Cell Physiology and Their Amplification of a Native Signaling Cascade.
Belluati, Andrea, Mikhalevich, Viktoria, Yorulmaz Avsar, Saziye, Daubian, Davy, Craciun, Ioana, Chami, Mohamed, Meier, Wolfgang P., & Biomacromolecules, 21(2), 701–715. https://doi.org/10.1021/acs.biomac.9b01416
(2020). How Do the Properties of Amphiphilic Polymer Membranes Influence the Functional Insertion of Peptide Pores?
Belluati, Andrea, Mikhalevich, Viktoria, Yorulmaz Avsar, Saziye, Daubian, Davy, Craciun, Ioana, Chami, Mohamed, Meier, Wolfgang P., & Biomacromolecules, 21(2), 701–715. https://doi.org/10.1021/acs.biomac.9b01416
(2020). How Do the Properties of Amphiphilic Polymer Membranes Influence the Functional Insertion of Peptide Pores?
Belluati, Andrea, Thamboo, Sagana, Najer, Adrian, Maffeis, Viviana, von Planta, Claudio, Craciun, Ioana, Advanced Functional Materials, 30(32), 2002949. https://doi.org/10.1002/adfm.202002949
, & Meier, Wolfgang. (2020). Multicompartment Polymer Vesicles with Artificial Organelles for Signal-Triggered Cascade Reactions Including Cytoskeleton Formation.
Belluati, Andrea, Thamboo, Sagana, Najer, Adrian, Maffeis, Viviana, von Planta, Claudio, Craciun, Ioana, Advanced Functional Materials, 30(32), 2002949. https://doi.org/10.1002/adfm.202002949
, & Meier, Wolfgang. (2020). Multicompartment Polymer Vesicles with Artificial Organelles for Signal-Triggered Cascade Reactions Including Cytoskeleton Formation.