chore: autopublish 2024-04-01T01:15:29Z

data/Bettinger.json

@@ -105,7 +105,7 @@
     {
         "title": "Biodegradable microfluidic scaffolds for vascular tissue engineering",
         "pub_year": "2004",
-        "citation": "MRS Online Proceedings Library (OPL) 845, 2004"
+        "citation": "MRS Online Proceedings Library (OPL) 845, AA1. 6, 2004"
     },
     {
         "title": "Biodegradable poly (polyol sebacate) polymers",
@@ -158,9 +158,9 @@
         "citation": "ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 252, 2016"
     },
     {
-        "title": "Catechol‐mediated reversible binding of multivalent cations in eumelanin half‐cells",
+        "title": "Catechol-mediated reversible binding of multivalent cations in eumelanin half-cells",
         "pub_year": "2014",
-        "citation": "Advanced Materials 26 (38), 6572-6579, 2014"
+        "citation": "Adv. Mater 26 (38), 6572-6579, 2014"
     },
     {
         "title": "Chemical and engineering approaches to enable organic field-effect transistors for electronic skin applications",
@@ -224,7 +224,7 @@
     {
         "title": "Diffusion–reaction models of genipin incorporation into fibrin networks",
         "pub_year": "2015",
-        "citation": "Journal of Materials Chemistry B 3 (22), 4607-4615, 2015"
+        "citation": "Journal of materials chemistry B 3 (22), 4607-4615, 2015"
     },
     {
         "title": "Dynamic Contributions to the Bulk Mechanical Properties of Self‐Assembled Polymer Networks with Reconfigurable Bonds",
@@ -283,7 +283,7 @@
     {
         "title": "Electrochemical-mediated gelation of catechol-bearing hydrogels based on multimodal crosslinking",
         "pub_year": "2019",
-        "citation": "Journal of Materials Chemistry B 7 (10), 1690-1696, 2019"
+        "citation": "Journal of materials chemistry B 7 (10), 1690-1696, 2019"
     },
     {
         "title": "Electronic and optoelectronic materials and devices inspired by nature",
@@ -293,12 +293,12 @@
     {
         "title": "Electronic structures on swollen hydrogels",
         "pub_year": "2022",
-        "citation": "US Patent 11,478,178, 2022"
+        "citation": "Carnegie Mellon Univ., Pittsburgh, PA (United States), 2022"
     },
     {
         "title": "Electronic structures on swollen hydrogels",
         "pub_year": "2022",
-        "citation": "Carnegie Mellon Univ., Pittsburgh, PA (United States), 2022"
+        "citation": "US Patent 11,478,178, 2022"
     },
     {
         "title": "Emerging Investigators 2016: Novel design strategies for new functional materials",
@@ -337,9 +337,9 @@
         "citation": "ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 256, 2018"
     },
     {
-        "title": "Evidence of Porphyrin‐Like Structures in Natural Melanin Pigments Using Electrochemical Fingerprinting",
+        "title": "Evidence of Porphyrin-Like Structures in Natural Melanin Pigments Using Electrochemical Fingerprinting.",
         "pub_year": "2016",
-        "citation": "Advanced Materials 28 (16), 3173-3180, 2016"
+        "citation": "Advanced Materials (Deerfield Beach, Fla.) 28 (16), 3173-3180, 2016"
     },
     {
         "title": "Fabrication of organic semiconductor crystalline thin films and crystals from solution by confined crystallization",
@@ -354,12 +354,12 @@
     {
         "title": "Gelatin‐Based Ingestible Impedance Sensor to Evaluate Gastrointestinal Epithelial Barriers",
         "pub_year": "2023",
-        "citation": "Advanced Materials, 2211581, 2023"
+        "citation": "Advanced Materials 35 (17), 2211581, 2023"
     },
     {
-        "title": "High‐Throughput Arrays for Rapid Characterization of Solution‐Processable Transparent Conducting Electrodes",
+        "title": "High Throughput Arrays for Rapid Characterization of Solution Processable Transparent Conducting Electrodes",
         "pub_year": "2012",
-        "citation": "Small 8 (24), 3746-3751, 2012"
+        "citation": "Small (Weinheim an der Bergstrasse, Germany) 8 (24), 3746, 2012"
     },
     {
         "title": "Hydrogel-based Electronics: Ultracompliant electrodes for neural interfaces and beyond",
@@ -374,7 +374,7 @@
     {
         "title": "Hysteresis‐Free and High‐Sensitivity Strain Sensing of Ionically Conductive Hydrogels",
         "pub_year": "2023",
-        "citation": "Advanced NanoBiomed Research 3 (2), 2200132, 2023"
+        "citation": "Advanced nanobiomed research 3 (2), 2200132, 2023"
     },
     {
         "title": "In vitro and in vivo degradation of poly(1,3‐diamino‐2‐hydroxypropane‐co‐polyol sebacate) elastomers",
@@ -384,7 +384,7 @@
     {
         "title": "In vitro electrochemical characterization of polydopamine melanin as a tissue stimulating electrode material",
         "pub_year": "2016",
-        "citation": "Journal of Materials Chemistry B 4 (18), 3031-3036, 2016"
+        "citation": "Journal of materials chemistry B 4 (18), 3031-3036, 2016"
     },
     {
         "title": "Ingestible electrical device for stimulating tissues in a gastrointestinal tract of an organism",
@@ -448,7 +448,7 @@
     {
         "title": "Light-induced remodeling of physically crosslinked hydrogels using near-IR wavelengths",
         "pub_year": "2014",
-        "citation": "Journal of Materials Chemistry B 2 (12), 1613-1618, 2014"
+        "citation": "Journal of materials chemistry B 2 (12), 1613-1618, 2014"
     },
     {
         "title": "Light‐Induced Disintegration of Robust Physically Cross‐Linked Polymer Networks",
@@ -473,7 +473,7 @@
     {
         "title": "Macromol. Rapid Commun. 18/2013",
         "pub_year": "2013",
-        "citation": "Macromolecular Rapid Communications 34 (18), 1421-1421, 2013"
+        "citation": "Macromolecular Rapid Communications 18 (34), 1421-1421, 2013"
     },
     {
         "title": "Materialien und Strukturen für schluckbare elektromechanische medizinische Funktionseinheiten",
@@ -531,13 +531,13 @@
     },
     {
         "title": "Microfabrication techniques in scaffold development",
-        "pub_year": "2014",
-        "citation": "Nanotechnology and Regenerative Engineering, 2nd ed.; Laurencin, CT, Nair …, 2014"
+        "pub_year": "2008",
+        "citation": "Nanotechnology and Tissue Engineering: The Scaffold, CRC Press Taylor …, 2008"
     },
     {
         "title": "Microfluidic Arrays for Rapid Characterization of Organic Thin‐Film Transistor Performance",
         "pub_year": "2011",
-        "citation": "Advanced Materials 23 (10), 1257-1261, 2011"
+        "citation": "Advanced Materials 10 (23), 1257-1261, 2011"
     },
     {
         "title": "Microfluidic device comprising silk films coupled to form a microchannel",
@@ -595,9 +595,9 @@
         "citation": "Advanced Materials 23 (10), 1172-1172, 2011"
     },
     {
-        "title": "Organic thin‐film transistors fabricated on resorbable biomaterial substrates",
+        "title": "Organic thin film transistors fabricated on resorbable biomaterial substrates",
         "pub_year": "2010",
-        "citation": "Advanced materials 22 (5), 651-655, 2010"
+        "citation": "Advanced materials (Deerfield Beach, Fla.) 22 (5), 651, 2010"
     },
     {
         "title": "POLY 329-Biodegradable elastomers and microsystems for soft tissue engineering",
@@ -615,7 +615,7 @@
         "citation": "Acta biomaterialia 9 (7), 7362-7370, 2013"
     },
     {
-        "title": "Photoreconfigurable physically cross-linked triblock copolymer hydrogels: photodisintegration kinetics and structure–property relationships",
+        "title": "Photoreconfigurable physically cross-linked triblock copolymer hydrogels: Photodisintegration kinetics and structure–property relationships",
         "pub_year": "2015",
         "citation": "Macromolecules 48 (5), 1563-1572, 2015"
     },
@@ -652,7 +652,7 @@
     {
         "title": "Polydopamine nanostructures as biomaterials for medical applications",
         "pub_year": "2018",
-        "citation": "Journal of Materials Chemistry B 6 (43), 6895-6903, 2018"
+        "citation": "Journal of materials chemistry B 6 (43), 6895-6903, 2018"
     },
     {
         "title": "Polymeric peptide pigments with sequence-encoded properties",
@@ -687,7 +687,7 @@
     {
         "title": "Recent advances in materials and flexible electronics for peripheral nerve interfaces",
         "pub_year": "2018",
-        "citation": "Bioelectronic medicine 4 (1), 1-10, 2018"
+        "citation": "Bioelectronic medicine 4 (1), 6, 2018"
     },
     {
         "title": "Recent advances in neural interfaces—Materials chemistry to clinical translation",
@@ -724,11 +724,6 @@
         "pub_year": "2016",
         "citation": "ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 252, 2016"
     },
-    {
-        "title": "SCHEDULED MAINTENANCE Close the message box",
-        "pub_year": "2023",
-        "citation": "J. Mater. Chem 100 (11), 16117-16124, 2023"
-    },
     {
         "title": "SPECIAL SECTION ON NANOSTRUCTURED MATERIALS FOR TISSUE REGENERATION",
         "citation": ""
@@ -756,7 +751,7 @@
     {
         "title": "Shape‐Memory Materials: Shape‐Memory Microfluidics (Adv. Funct. Mater. 38/2013)",
         "pub_year": "2013",
-        "citation": "Advanced Functional Materials 23 (38), 4757-4757, 2013"
+        "citation": "Advanced Functional Materials 38 (23), 4757-4757, 2013"
     },
     {
         "title": "Shape‐Memory Microfluidics",
@@ -786,7 +781,7 @@
     {
         "title": "Synthesis and Microfabrication of Biodegradable Elastomers for use in Advanced Tissue Engineering Scaffolds",
         "pub_year": "2008",
-        "citation": "Massachusetts Institute of Technology, 2008"
+        "citation": "Adv Mater 20, 99, 2008"
     },
     {
         "title": "Synthesis and measurement of cohesive mechanics in polydopamine nanomembranes",
@@ -798,6 +793,11 @@
         "pub_year": "2009",
         "citation": "Pure and Applied Chemistry 81 (12), 2183-2201, 2009"
     },
+    {
+        "title": "Synthesis and microfabrication of elastomeric biomaterials for advanced tissue engineering scaffolds",
+        "pub_year": "2008",
+        "citation": "Massachusetts Institute of Technology, 2008"
+    },
     {
         "title": "Synthetic biodegradable elastomers for drug delivery and tissue engineering",
         "pub_year": "2010",
@@ -818,11 +818,6 @@
         "pub_year": "2018",
         "citation": "ACS applied materials & interfaces 10 (9), 7681-7687, 2018"
     },
-    {
-        "title": "The Fourth Bioelectronic Medicine Summit “Technology Targeting Molecular Mechanisms”: current progress, challenges, and charting the future",
-        "pub_year": "2021",
-        "citation": "Bioelectronic medicine 7, 1-9, 2021"
-    },
     {
         "title": "The Road to Practical E-Textiles Is Smooth as Silk",
         "pub_year": "2019",
@@ -838,6 +833,11 @@
         "pub_year": "2020",
         "citation": "MRS Bulletin 45 (2), 87-95, 2020"
     },
+    {
+        "title": "The fourth bioelectronic medicine summit “technology targeting molecular mechanisms”: current progress, challenges, and charting the future",
+        "pub_year": "2021",
+        "citation": "Bioelectronic medicine 7, 1-9, 2021"
+    },
     {
         "title": "Three‐dimensional microfluidic tissue‐engineering scaffolds using a flexible biodegradable polymer",
         "pub_year": "2006",

data/Bockstaller.json

@@ -382,7 +382,7 @@
     {
         "title": "Elucidation of chain dispersity effect on structure and mechanical properties of brush particle solids",
         "pub_year": "2023",
-        "citation": "Bulletin of the American Physical Society, 2023"
+        "citation": "APS March Meeting Abstracts 2023, W05. 008, 2023"
     },
     {
         "title": "Elucidation of the governing parameters that dictate thermal transport in polymer nanocomposites",
@@ -507,7 +507,7 @@
     {
         "title": "Hierarchically Ordered Multi-Component Block Copolymer/Particle Nanocomposite Materials",
         "pub_year": "2003",
-        "citation": "MRS Online Proceedings Library (OPL) 788, 2003"
+        "citation": "MRS Online Proceedings Library (OPL) 788, L9. 1, 2003"
     },
     {
         "title": "Hierarchically structured bioinspired nanocomposites",
@@ -741,7 +741,7 @@
     {
         "title": "Nanostructures from phase separated polymers",
         "pub_year": "2008",
-        "citation": "Dekker Encyclopedia of Nanoscience and Nanotechnology, 3093-3108, 2008"
+        "citation": "Dekker Encyclopedia of Nanoscience and Nanotechnology 3, 2641-2656, 2008"
     },
     {
         "title": "New type of montmorillonite compatibilizers and their influence on viscoelastic properties of ethylene propylene diene and methyl vinyl silicone rubbers blends",
@@ -836,7 +836,7 @@
     {
         "title": "Phase behavior of polymer-grafted nanoparticle blend films via thermal and solvent vapor annealing",
         "pub_year": "2023",
-        "citation": "Bulletin of the American Physical Society, 2023"
+        "citation": "APS March Meeting Abstracts 2023, W05. 010, 2023"
     },
     {
         "title": "Phase separation and anomalous domain growth in binary blends of polymer-grafted nanoparticles",
@@ -1028,6 +1028,10 @@
         "pub_year": "2023",
         "citation": "ACS Macro Letters 12 (4), 475-480, 2023"
     },
+    {
+        "title": "SiO2‑g‑Polyisoprene Particle Brush Reinforced Advanced Elastomer Nanocomposites Prepared via ARGET ATRP",
+        "citation": "Advanced Functional Materials, 2315741, 0"
+    },
     {
         "title": "Side group rotational mobility in hairy-rod polymers: A dielectric spectroscopy study",
         "pub_year": "2001",
@@ -1133,6 +1137,11 @@
         "pub_year": "2023",
         "citation": "Hairy Nanoparticles: From Synthesis to Applications, 1-48, 2023"
     },
+    {
+        "title": "Synthesis of Mechanically Robust Very High Molecular Weight Polyisoprene Particle Brushes by Atom Transfer Radical Polymerization",
+        "pub_year": "2024",
+        "citation": "ACS Macro Letters 13, 415-422, 2024"
+    },
     {
         "title": "Synthesis of Nanoparticle Assemblies: general discussion",
         "pub_year": "2016",
@@ -1166,7 +1175,7 @@
     {
         "title": "Synthesis, characterization, electrocatalytic and catalytic activity of thermally generated polymer-stabilized metal nanoparticles",
         "pub_year": "2012",
-        "citation": "Int. J. Electrochem. Sci 7, 5297-5313, 2012"
+        "citation": "International Journal of Electrochemical Science 7 (6), 5297-5313, 2012"
     },
     {
         "title": "Tailoring structure formation and mechanical properties of particle brush solids via homopolymer addition",
@@ -1218,7 +1227,7 @@
         "citation": "Advanced Functional Materials, 2309725, 2023"
     },
     {
-        "title": "Topologically Induced Heterogeneity in Gradient Copolymer Brush Particle Materials",
+        "title": "Topologically induced heterogeneity in gradient copolymer brush particle materials",
         "pub_year": "2022",
         "citation": "Macromolecules 55 (19), 8846-8856, 2022"
     },
@@ -1240,7 +1249,7 @@
     {
         "title": "Transparent nanocomposites for protective coating applications",
         "pub_year": "2011",
-        "citation": "242nd National Meeting of the American-Chemical-Society (ACS) Conference …, 2011"
+        "citation": "ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 242, 2011"
     },
     {
         "title": "Transparent, Conducting, Flexible Ag-NW/Polymer Composite Films",
@@ -1257,16 +1266,16 @@
         "pub_year": "2021",
         "citation": "Polymer Chemistry 12 (42), 6071-6082, 2021"
     },
-    {
-        "title": "Tuning the Relaxation of Nanopatterned Polymer Films with Polymer-Grafted Nanoparticles: Observation of Entropy–Enthalpy Compensation",
-        "pub_year": "2018",
-        "citation": "Nano letters 18 (12), 7441-7447, 2018"
-    },
     {
         "title": "Tuning the relaxation of imprinted polymer films with polymer-grafted nanoparticles",
         "pub_year": "2019",
         "citation": "Microscopy and Microanalysis 25 (S2), 2238-2239, 2019"
     },
+    {
+        "title": "Tuning the relaxation of nanopatterned polymer films with polymer-grafted nanoparticles: Observation of entropy–enthalpy compensation",
+        "pub_year": "2018",
+        "citation": "Nano letters 18 (12), 7441-7447, 2018"
+    },
     {
         "title": "Understanding ligand distributions in modified particle and particlelike systems",
         "pub_year": "2010",