{"record_type":"pith_number_record","schema_url":"https://pith.science/schemas/pith-number/v1.json","pith_number":"pith:2018:K5U24LLIM47IC4K6ZE2THUEMLO","short_pith_number":"pith:K5U24LLI","schema_version":"1.0","canonical_sha256":"5769ae2d68673e81715ec93533d08c5bbadda3a378d70cd3d0066d3a30fc2087","source":{"kind":"arxiv","id":"1805.04214","version":1},"attestation_state":"computed","paper":{"title":"Nanoparticles Binding to Lipid Membranes: from Vesicle-Based Gels to Vesicle Inversion and Destruction","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","headline":"","cross_cats":[],"primary_cat":"cond-mat.soft","authors_text":"Anthony D. Dinsmore, Avital A. Rodal, Derek A. Wood, Guillermo R. L\\'azaro, Ian K. Torres, Li-Sheng Wang, Michael F. Hagan, Sarah Zuraw-Weston, Shiyu Wang, Vincent M. Rotello, YiWei Lee, Ziwen Jiang","submitted_at":"2018-05-11T01:04:19Z","abstract_excerpt":"Cells offer numerous inspiring examples where proteins and membranes combine to form complex structures that are key to intracellular compartmentalization, cargo transport, and specialization of cell morphology. Despite this wealth of examples, we still lack the design principles to control membrane morphology in synthetic systems. Here we show that even the relatively simple case of spherical nanoparticles binding to lipid-bilayer membrane vesicles results in a remarkably rich set of morphologies that can be controlled quantitatively via the particle binding energy. We find that when the bind"},"verification_status":{"content_addressed":true,"pith_receipt":true,"author_attested":false,"weak_author_claims":0,"strong_author_claims":0,"externally_anchored":false,"storage_verified":false,"citation_signatures":0,"replication_records":0,"graph_snapshot":true,"references_resolved":false,"formal_links_present":false},"canonical_record":{"source":{"id":"1805.04214","kind":"arxiv","version":1},"metadata":{"license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","primary_cat":"cond-mat.soft","submitted_at":"2018-05-11T01:04:19Z","cross_cats_sorted":[],"title_canon_sha256":"e9e03dc3ef2d0a789e0bc30a802033b03ed929177269c8550f556162fd022fc9","abstract_canon_sha256":"18746daa60688e6bd65a0ae10e30d1f702438f6e694ce7fe8f3a9125847303d1"},"schema_version":"1.0"},"receipt":{"kind":"pith_receipt","key_id":"pith-v1-2026-05","algorithm":"ed25519","signed_at":"2026-05-18T00:16:13.209729Z","signature_b64":"XBPSXDv6E8yxvr+LfC+GR5PWDmVefZKyEUMn1j92dscCVIzvt7Sr/V6VKidL83fycjsvlY6r8WmtgYj6PKMPAg==","signed_message":"canonical_sha256_bytes","builder_version":"pith-number-builder-2026-05-17-v1","receipt_version":"0.3","canonical_sha256":"5769ae2d68673e81715ec93533d08c5bbadda3a378d70cd3d0066d3a30fc2087","last_reissued_at":"2026-05-18T00:16:13.208991Z","signature_status":"signed_v1","first_computed_at":"2026-05-18T00:16:13.208991Z","public_key_fingerprint":"8d4b5ee74e4693bcd1df2446408b0d54"},"graph_snapshot":{"paper":{"title":"Nanoparticles Binding to Lipid Membranes: from Vesicle-Based Gels to Vesicle Inversion and Destruction","license":"http://arxiv.org/licenses/nonexclusive-distrib/1.0/","headline":"","cross_cats":[],"primary_cat":"cond-mat.soft","authors_text":"Anthony D. Dinsmore, Avital A. Rodal, Derek A. Wood, Guillermo R. L\\'azaro, Ian K. Torres, Li-Sheng Wang, Michael F. Hagan, Sarah Zuraw-Weston, Shiyu Wang, Vincent M. Rotello, YiWei Lee, Ziwen Jiang","submitted_at":"2018-05-11T01:04:19Z","abstract_excerpt":"Cells offer numerous inspiring examples where proteins and membranes combine to form complex structures that are key to intracellular compartmentalization, cargo transport, and specialization of cell morphology. Despite this wealth of examples, we still lack the design principles to control membrane morphology in synthetic systems. Here we show that even the relatively simple case of spherical nanoparticles binding to lipid-bilayer membrane vesicles results in a remarkably rich set of morphologies that can be controlled quantitatively via the particle binding energy. We find that when the bind"},"claims":{"count":0,"items":[],"snapshot_sha256":"258153158e38e3291e3d48162225fcdb2d5a3ed65a07baac614ab91432fd4f57"},"source":{"id":"1805.04214","kind":"arxiv","version":1},"verdict":{"id":null,"model_set":{},"created_at":null,"strongest_claim":"","one_line_summary":"","pipeline_version":null,"weakest_assumption":"","pith_extraction_headline":""},"references":{"count":0,"sample":[],"resolved_work":0,"snapshot_sha256":"258153158e38e3291e3d48162225fcdb2d5a3ed65a07baac614ab91432fd4f57","internal_anchors":0},"formal_canon":{"evidence_count":0,"snapshot_sha256":"258153158e38e3291e3d48162225fcdb2d5a3ed65a07baac614ab91432fd4f57"},"author_claims":{"count":0,"strong_count":0,"snapshot_sha256":"258153158e38e3291e3d48162225fcdb2d5a3ed65a07baac614ab91432fd4f57"},"builder_version":"pith-number-builder-2026-05-17-v1"},"aliases":[{"alias_kind":"arxiv","alias_value":"1805.04214","created_at":"2026-05-18T00:16:13.209104+00:00"},{"alias_kind":"arxiv_version","alias_value":"1805.04214v1","created_at":"2026-05-18T00:16:13.209104+00:00"},{"alias_kind":"doi","alias_value":"10.48550/arxiv.1805.04214","created_at":"2026-05-18T00:16:13.209104+00:00"},{"alias_kind":"pith_short_12","alias_value":"K5U24LLIM47I","created_at":"2026-05-18T12:32:33.847187+00:00"},{"alias_kind":"pith_short_16","alias_value":"K5U24LLIM47IC4K6","created_at":"2026-05-18T12:32:33.847187+00:00"},{"alias_kind":"pith_short_8","alias_value":"K5U24LLI","created_at":"2026-05-18T12:32:33.847187+00:00"}],"events":[],"event_summary":{},"paper_claims":[],"inbound_citations":{"count":0,"internal_anchor_count":0,"sample":[]},"formal_canon":{"evidence_count":0,"sample":[],"anchors":[]},"links":{"html":"https://pith.science/pith/K5U24LLIM47IC4K6ZE2THUEMLO","json":"https://pith.science/pith/K5U24LLIM47IC4K6ZE2THUEMLO.json","graph_json":"https://pith.science/api/pith-number/K5U24LLIM47IC4K6ZE2THUEMLO/graph.json","events_json":"https://pith.science/api/pith-number/K5U24LLIM47IC4K6ZE2THUEMLO/events.json","paper":"https://pith.science/paper/K5U24LLI"},"agent_actions":{"view_html":"https://pith.science/pith/K5U24LLIM47IC4K6ZE2THUEMLO","download_json":"https://pith.science/pith/K5U24LLIM47IC4K6ZE2THUEMLO.json","view_paper":"https://pith.science/paper/K5U24LLI","resolve_alias":"https://pith.science/api/pith-number/resolve?arxiv=1805.04214&json=true","fetch_graph":"https://pith.science/api/pith-number/K5U24LLIM47IC4K6ZE2THUEMLO/graph.json","fetch_events":"https://pith.science/api/pith-number/K5U24LLIM47IC4K6ZE2THUEMLO/events.json","actions":{"anchor_timestamp":"https://pith.science/pith/K5U24LLIM47IC4K6ZE2THUEMLO/action/timestamp_anchor","attest_storage":"https://pith.science/pith/K5U24LLIM47IC4K6ZE2THUEMLO/action/storage_attestation","attest_author":"https://pith.science/pith/K5U24LLIM47IC4K6ZE2THUEMLO/action/author_attestation","sign_citation":"https://pith.science/pith/K5U24LLIM47IC4K6ZE2THUEMLO/action/citation_signature","submit_replication":"https://pith.science/pith/K5U24LLIM47IC4K6ZE2THUEMLO/action/replication_record"}},"created_at":"2026-05-18T00:16:13.209104+00:00","updated_at":"2026-05-18T00:16:13.209104+00:00"}