Angewandte Chemie International Edition

publication venue for

Competitive Affinity Release for Long‐Term Delivery of Antibodies from Hydrogels 2018
Nanoparticle size and shape series for in vivo fluorescence imaging 2011
Structural Elucidation of a Metagenomic Urethanase and Its Engineering Towards Enhanced Hydrolysis Profiles.. 63:e202404492. 2024
Fighting Mutations with Mutations: Evolutionarily Adapting a DNA Aptamer for High-Affinity Recognition of Mutated Spike Proteins of SARS-CoV-2.. e202415226. 2024
Transient Structural Properties of the Rho GDP-Dissociation Inhibitor.. 63:e202403941. 2024
Higher Affinity Enables More Accurate Detection of SARS‐CoV‐2 in Human Saliva Using Aptamer‐based Litmus Test. e202407049. 2024
High‐Precision Viral Detection Using Electrochemical Kinetic Profiling of Aptamer‐Antigen Recognition in Clinical Samples and Machine Learning. 63:e202400413. 2024
High‐Precision Viral Detection Using Electrochemical Kinetic Profiling of Aptamer‐Antigen Recognition in Clinical Samples and Machine Learning. 136. 2024
Development of Better Aptamers: Structured Library Approaches, Selection Methods, and Chemical Modifications. 63:e202318665. 2024
Development of Better Aptamers: Structured Library Approaches, Selection Methods, and Chemical Modifications. 136. 2024
A Colorimetric Biosensing Platform with Aptamers, Rolling Circle Amplification and Urease‐Mediated Litmus Test. 62:e202315185. 2023
A Colorimetric Biosensing Platform with Aptamers, Rolling Circle Amplification and Urease‐Mediated Litmus Test. 135. 2023
An RNA‐Cleaving DNAzyme That Requires an Organic Solvent to Function. 62:e202310941. 2023
An RNA‐Cleaving DNAzyme That Requires an Organic Solvent to Function. 135. 2023
A Rapid Sputum‐based Lateral Flow Assay for Airway Eosinophilia using an RNA‐cleaving DNAzyme Selected for Eosinophil Peroxidase. 62:e202307451. 2023
A Rapid Sputum‐based Lateral Flow Assay for Airway Eosinophilia using an RNA‐cleaving DNAzyme Selected for Eosinophil Peroxidase. 135. 2023
A Fluorogenic DNAzyme for A Thermally Stable Protein Biomarker from Fusobacterium nucleatum, a Human Bacterial Pathogen. 62:e202306272. 2023
A Fluorogenic DNAzyme for A Thermally Stable Protein Biomarker from Fusobacterium nucleatum, a Human Bacterial Pathogen. 135. 2023
A Simple Colorimetric Au‐on‐Au Tip Sensor with a New Functional Nucleic Acid Probe for Food‐borne Pathogen Salmonella typhimurium. 135. 2023
A Simple Colorimetric Au‐on‐Au Tip Sensor with a New Functional Nucleic Acid Probe for Food‐borne Pathogen Salmonella typhimurium. 62:e202300828. 2023
Electrochemical Nano‐Roughening of Gold Microstructured Electrodes for Enhanced Sensing in Biofluids**. 62:e202218080. 2023
Electrochemical Nano‐Roughening of Gold Microstructured Electrodes for Enhanced Sensing in Biofluids**. 135. 2023
Anthony F. Rullo. 62:e202300402. 2023
Tunable Multivalent Platform for Immune Recruitment to Lower Antigen Expressing Cancers. 62:e202214659. 2023
Tunable Multivalent Platform for Immune Recruitment to Lower Antigen Expressing Cancers. 135. 2023
Development of Nucleic‐Acid‐Based Electrochemical Biosensors for Clinical Applications. 61:e202212496. 2022
Development of Nucleic‐Acid‐Based Electrochemical Biosensors for Clinical Applications. 134. 2022
Fluorinated Rocksalt Cathode with Ultra‐high Active Li Content for Lithium‐ion Batteries. 61:e202212471. 2022
Fluorinated Rocksalt Cathode with Ultra‐high Active Li Content for Lithium‐ion Batteries. 134. 2022
Synthesis, Structure, and Bonding of a Xe^IV Transition‐Metal Coordination Complex, F₃XeF_b‐ ‐ ‐WOF₄. 61:e202211699. 2022
Synthesis, Structure, and Bonding of a Xe^IV Transition‐Metal Coordination Complex, F₃XeF_b‐ ‐ ‐WOF₄. 134. 2022
A DNA Barcode‐Based Aptasensor Enables Rapid Testing of Porcine Epidemic Diarrhea Viruses in Swine Saliva Using Electrochemical Readout. 61:e202204252. 2022
A DNA Barcode‐Based Aptasensor Enables Rapid Testing of Porcine Epidemic Diarrhea Viruses in Swine Saliva Using Electrochemical Readout. 134. 2022
Innenrücktitelbild: A DNA Barcode‐Based Aptasensor Enables Rapid Testing of Porcine Epidemic Diarrhea Viruses in Swine Saliva Using Electrochemical Readout (Angew. Chem. 31/2022). 134. 2022
Inside Back Cover: A DNA Barcode‐Based Aptasensor Enables Rapid Testing of Porcine Epidemic Diarrhea Viruses in Swine Saliva Using Electrochemical Readout (Angew. Chem. Int. Ed. 31/2022). 61. 2022
A Lateral Flow Test for Staphylococcus aureus in Nasal Mucus Using a New DNAzyme as the Recognition Element. 61:e202112346. 2022
A Lateral Flow Test for Staphylococcus aureus in Nasal Mucus Using a New DNAzyme as the Recognition Element. 134. 2022
Innentitelbild: Red‐ and Far‐Red‐Emitting Zinc Probes with Minimal Phototoxicity for Multiplexed Recording of Orchestrated Insulin Secretion (Angew. Chem. 49/2021). 133:25790-25790. 2021
Inside Cover: Red‐ and Far‐Red‐Emitting Zinc Probes with Minimal Phototoxicity for Multiplexed Recording of Orchestrated Insulin Secretion (Angew. Chem. Int. Ed. 49/2021). 60:25586-25586. 2021
Red‐ and Far‐Red‐Emitting Zinc Probes with Minimal Phototoxicity for Multiplexed Recording of Orchestrated Insulin Secretion. 60:25846-25855. 2021
Red‐ and Far‐Red‐Emitting Zinc Probes with Minimal Phototoxicity for Multiplexed Recording of Orchestrated Insulin Secretion. 133:26050-26059. 2021
A DNA Nanoflower‐Assisted Separation‐Free Nucleic Acid Detection Platform with a Commercial Pregnancy Test Strip. 60:24823-24827. 2021
A DNA Nanoflower‐Assisted Separation‐Free Nucleic Acid Detection Platform with a Commercial Pregnancy Test Strip. 133:25027-25031. 2021
High‐Affinity Dimeric Aptamers Enable the Rapid Electrochemical Detection of Wild‐Type and B.1.1.7 SARS‐CoV‐2 in Unprocessed Saliva. 60:24266-24274. 2021
High‐Affinity Dimeric Aptamers Enable the Rapid Electrochemical Detection of Wild‐Type and B.1.1.7 SARS‐CoV‐2 in Unprocessed Saliva. 133:24468-24476. 2021
Innenrücktitelbild: Syntheses and Characterizations of the Mixed Noble‐Gas Compounds, [FKr^IIFXe^IIF][AsF₆]⋅0.5 Kr^IIF₂⋅2 HF, ([Kr^II₂F₃][AsF₆])₂⋅Xe^IVF₄, and Xe^IVF₄⋅Kr^IIF₂ (Angew. Chem. 44/2021). 133:24115-24115. 2021
Inside Back Cover: Syntheses and Characterizations of the Mixed Noble‐Gas Compounds, [FKr^IIFXe^IIF][AsF₆]⋅0.5 Kr^IIF₂⋅2 HF, ([Kr^II₂F₃][AsF₆])₂⋅Xe^IVF₄, and Xe^IVF₄⋅Kr^IIF₂ (Angew. Chem. Int. Ed. 44/2021). 60:23919-23919. 2021
Syntheses and Characterizations of the Mixed Noble‐Gas Compounds, [FKr^IIFXe^IIF][AsF₆]⋅0.5 Kr^IIF₂⋅2 HF, ([Kr^II₂F₃][AsF₆])₂⋅Xe^IVF₄, and Xe^IVF₄⋅Kr^IIF₂. 60:23678-23686. 2021
Syntheses and Characterizations of the Mixed Noble‐Gas Compounds, [FKr^IIFXe^IIF][AsF₆]⋅0.5 Kr^IIF₂⋅2 HF, ([Kr^II₂F₃][AsF₆])₂⋅Xe^IVF₄, and Xe^IVF₄⋅Kr^IIF₂. 133:23871-23879. 2021
Bridging Thermal Catalysis and Electrocatalysis: Catalyzing CO₂ Conversion with Carbon‐Based Materials. 60:17472-17480. 2021
Bridging Thermal Catalysis and Electrocatalysis: Catalyzing CO₂ Conversion with Carbon‐Based Materials. 133:17613-17621. 2021
Mixed Noble‐Gas Compounds of Krypton(II) and Xenon(VI); [F₅Xe(FKrF)AsF₆] and [F₅Xe(FKrF)₂AsF₆]. 60:8149-8156. 2021
Mixed Noble‐Gas Compounds of Krypton(II) and Xenon(VI); [F₅Xe(FKrF)AsF₆] and [F₅Xe(FKrF)₂AsF₆]. 133:8230-8237. 2021
Enhancing the Sensitivity of Photoelectrochemical DNA Biosensing Using Plasmonic DNA Barcodes and Differential Signal Readout. 60:7316-7322. 2021
Enhancing the Sensitivity of Photoelectrochemical DNA Biosensing Using Plasmonic DNA Barcodes and Differential Signal Readout. 133:7392-7398. 2021
Selection and Characterization of an RNA‐Cleaving DNAzyme Activated by Legionella pneumophila. 60:4782-4788. 2021
Selection and Characterization of an RNA‐Cleaving DNAzyme Activated by Legionella pneumophila. 133:4832-4838. 2021
Click‐Functionalization of a Poly(Tetrazine‐co‐Fluorene)‐Conjugated Polymer with a Series of trans‐Cyclooctene Derivatives. 60:2980-2986. 2021
Click‐Functionalization of a Poly(Tetrazine‐co‐Fluorene)‐Conjugated Polymer with a Series of trans‐Cyclooctene Derivatives. 133:3017-3023. 2021
Innentitelbild: Click‐Functionalization of a Poly(Tetrazine‐co‐Fluorene)‐Conjugated Polymer with a Series of trans‐Cyclooctene Derivatives (Angew. Chem. 6/2021). 133:2742-2742. 2021
Inside Cover: Click‐Functionalization of a Poly(Tetrazine‐co‐Fluorene)‐Conjugated Polymer with a Series of trans‐Cyclooctene Derivatives (Angew. Chem. Int. Ed. 6/2021). 60:2710-2710. 2021
Back Cover: Engineering Micrometer‐Sized DNA Tracks for High‐Speed DNA Synthesis and Biosensing (Angew. Chem. Int. Ed. 51/2020). 59:23344-23344. 2020
Engineering Micrometer‐Sized DNA Tracks for High‐Speed DNA Synthesis and Biosensing. 59:22947-22951. 2020
Engineering Micrometer‐Sized DNA Tracks for High‐Speed DNA Synthesis and Biosensing. 132:23147-23151. 2020
Rücktitelbild: Engineering Micrometer‐Sized DNA Tracks for High‐Speed DNA Synthesis and Biosensing (Angew. Chem. 51/2020). 132:23548-23548. 2020
Dynamic Bio‐Barcode Assay Enables Electrochemical Detection of a Cancer Biomarker in Undiluted Human Plasma: A Sample‐In‐Answer‐Out Approach. 59:22617-22622. 2020
Dynamic Bio‐Barcode Assay Enables Electrochemical Detection of a Cancer Biomarker in Undiluted Human Plasma: A Sample‐In‐Answer‐Out Approach. 132:22806-22811. 2020
Spherical Supramolecular Structures Constructed via Chemically Symmetric Perylene Bisimides: Beyond Columnar Assembly. 59:18563-18571. 2020
Spherical Supramolecular Structures Constructed via Chemically Symmetric Perylene Bisimides: Beyond Columnar Assembly. 132:18722-18730. 2020
Ribbon of DNA Lattice on Gold Nanoparticles for Selective Drug Delivery to Cancer Cells. 59:14584-14592. 2020
Ribbon of DNA Lattice on Gold Nanoparticles for Selective Drug Delivery to Cancer Cells. 132:14692-14700. 2020
Size‐Mediated Recurring Spinel Sub‐nanodomains in Li‐ and Mn‐Rich Layered Cathode Materials. 59:14313-14320. 2020
Size‐Mediated Recurring Spinel Sub‐nanodomains in Li‐ and Mn‐Rich Layered Cathode Materials. 132:14419-14426. 2020
Back Cover: Ternary Sn‐Ti‐O Electrocatalyst Boosts the Stability and Energy Efficiency of CO₂ Reduction (Angew. Chem. Int. Ed. 31/2020). 59:13124-13124. 2020
Rücktitelbild: Ternary Sn‐Ti‐O Electrocatalyst Boosts the Stability and Energy Efficiency of CO₂ Reduction (Angew. Chem. 31/2020). 132:13224-13224. 2020
Ternary Sn‐Ti‐O Electrocatalyst Boosts the Stability and Energy Efficiency of CO₂ Reduction. 59:12860-12867. 2020
Ternary Sn‐Ti‐O Electrocatalyst Boosts the Stability and Energy Efficiency of CO₂ Reduction. 132:12960-12967. 2020
A Multi‐component All‐DNA Biosensing System Controlled by a DNAzyme. 59:10401-10405. 2020
A Multi‐component All‐DNA Biosensing System Controlled by a DNAzyme. 132:10487-10491. 2020
Back Cover: In Vitro Selection of a DNA Aptamer Targeting Degraded Protein Fragments for Biosensing (Angew. Chem. Int. Ed. 20/2020). 59:7968-7968. 2020
In Vitro Selection of a DNA Aptamer Targeting Degraded Protein Fragments for Biosensing. 59:7706-7710. 2020
In Vitro Selection of a DNA Aptamer Targeting Degraded Protein Fragments for Biosensing. 132:7780-7784. 2020
Rücktitelbild: In Vitro Selection of a DNA Aptamer Targeting Degraded Protein Fragments for Biosensing (Angew. Chem. 20/2020). 132:8042-8042. 2020
Understanding the Origin of Highly Selective CO₂ Electroreduction to CO on Ni,N‐doped Carbon Catalysts. 59:4043-4050. 2020
Understanding the Origin of Highly Selective CO₂ Electroreduction to CO on Ni,N‐doped Carbon Catalysts. 132:4072-4079. 2020
Breaking Parallel Orientation of Rods via a Dendritic Architecture toward Diverse Supramolecular Structures. 58:11879-11885. 2019
Breaking Parallel Orientation of Rods via a Dendritic Architecture toward Diverse Supramolecular Structures. 131:12005-12011. 2019
A DNAzyme‐Based Colorimetric Paper Sensor for Helicobacter pylori. 131:10012-10016. 2019
A DNAzyme‐Based Colorimetric Paper Sensor for Helicobacter pylori. 58:9907-9911. 2019
Boosting Solid‐State Diffusivity and Conductivity in Lithium Superionic Argyrodites by Halide Substitution. 58:8681-8686. 2019
Boosting Solid‐State Diffusivity and Conductivity in Lithium Superionic Argyrodites by Halide Substitution. 131:8773-8778. 2019
Atypical Lone Pair–π Interaction with Quinone Methides in a Series of Imido‐Ferrociphenol Anticancer Drug Candidates. 58:8421-8425. 2019
Atypical Lone Pair–π Interaction with Quinone Methides in a Series of Imido‐Ferrociphenol Anticancer Drug Candidates. 131:8509-8513. 2019
Globular Polymer Grafts Require a Critical Size for Efficient Molecular Sieving of Enzyme Substrates. 58:8448-8453. 2019
Globular Polymer Grafts Require a Critical Size for Efficient Molecular Sieving of Enzyme Substrates. 131:8536-8541. 2019
In Vitro Selection of Circular DNA Aptamers for Biosensing Applications. 58:8013-8017. 2019
In Vitro Selection of Circular DNA Aptamers for Biosensing Applications. 131:8097-8101. 2019
A Homoleptic KrF₂ Complex, [Hg(KrF₂)₈][AsF₆]₂⋅2 HF. 57:13167-13171. 2018
A Homoleptic KrF₂ Complex, [Hg(KrF₂)₈][AsF₆]₂⋅2 HF. 130:13351-13355. 2018
A Stable Crown Ether Complex with a Noble‐Gas Compound. 57:12448-12452. 2018
A Stable Crown Ether Complex with a Noble‐Gas Compound. 130:12628-12632. 2018
Self‐Assembled Functional DNA Superstructures as High‐Density and Versatile Recognition Elements for Printed Paper Sensors. 57:12440-12443. 2018
Self‐Assembled Functional DNA Superstructures as High‐Density and Versatile Recognition Elements for Printed Paper Sensors. 130:12620-12623. 2018
A CuO Nanowire‐Based Alternating Current Oxide Powder Electroluminescent Device with High Stability. 57:11267-11272. 2018
A CuO Nanowire‐Based Alternating Current Oxide Powder Electroluminescent Device with High Stability. 130:11437-11442. 2018
Target‐Induced Catalytic Assembly of Y‐Shaped DNA and Its Application for In Situ Imaging of MicroRNAs. 57:9739-9743. 2018
Target‐Induced Catalytic Assembly of Y‐Shaped DNA and Its Application for In Situ Imaging of MicroRNAs. 130:9887-9891. 2018
A Paper Sensor Printed with Multifunctional Bio/Nano Materials. 57:4549-4553. 2018
A Paper Sensor Printed with Multifunctional Bio/Nano Materials. 130:4639-4643. 2018
Competitive Affinity Release for Long‐Term Delivery of Antibodies from Hydrogels. 57:3406-3410. 2018
On the Role of Chirality in Guiding the Self‐Assembly of Peptides. 56:13288-13292. 2017
Innentitelbild: Sol–Gel‐Derived Biohybrid Materials Incorporating Long‐Chain DNA Aptamers (Angew. Chem. 36/2017). 129:10746-10746. 2017
Inside Cover: Sol–Gel‐Derived Biohybrid Materials Incorporating Long‐Chain DNA Aptamers (Angew. Chem. Int. Ed. 36/2017). 56:10610-10610. 2017
Sol–Gel‐Derived Biohybrid Materials Incorporating Long‐Chain DNA Aptamers. 56:10686-10690. 2017
Sol–Gel‐Derived Biohybrid Materials Incorporating Long‐Chain DNA Aptamers. 129:10826-10830. 2017
A DNAzyme Feedback Amplification Strategy for Biosensing. 56:6142-6146. 2017
A DNAzyme Feedback Amplification Strategy for Biosensing. 129:6238-6242. 2017
Coordination of KrF₂ to a Naked Metal Cation, Mg²⁺. 56:6251-6254. 2017
Coordination of KrF₂ to a Naked Metal Cation, Mg²⁺. 129:6347-6350. 2017
Cover Picture: Manganese Silylene Hydride Complexes: Synthesis and Reactivity with Ethylene to Afford Silene Hydride Complexes (Angew. Chem. Int. Ed. 22/2017). 56:5945-5945. 2017
Manganese Silylene Hydride Complexes: Synthesis and Reactivity with Ethylene to Afford Silene Hydride Complexes. 56:6223-6227. 2017
Manganese Silylene Hydride Complexes: Synthesis and Reactivity with Ethylene to Afford Silene Hydride Complexes. 129:6319-6323. 2017
Titelbild: Manganese Silylene Hydride Complexes: Synthesis and Reactivity with Ethylene to Afford Silene Hydride Complexes (Angew. Chem. 22/2017). 129:6039-6039. 2017
Tunable Syngas Production from CO₂ and H₂O in an Aqueous Photoelectrochemical Cell. 55:14262-14266. 2016
Tunable Syngas Production from CO₂ and H₂O in an Aqueous Photoelectrochemical Cell. 128:14474-14478. 2016
Syntheses and Structures of Xenon Trioxide Alkylnitrile Adducts. 55:13780-13783. 2016
Syntheses and Structures of Xenon Trioxide Alkylnitrile Adducts. 128:13984-13987. 2016
Total Synthesis of Aspergillomarasmine A and Related Compounds: A Sulfamidate Approach Enables Exploration of Structure–Activity Relationships. 55:13259-13262. 2016
Total Synthesis of Aspergillomarasmine A and Related Compounds: A Sulfamidate Approach Enables Exploration of Structure–Activity Relationships. 128:13453-13456. 2016
Synthesis and Characterization of [XeOXe]²⁺in the Adduct‐Cation Salt, [CH₃CN‐ ‐ ‐XeOXe‐ ‐ ‐NCCH₃][AsF₆]₂. 55:11917-11920. 2016
Synthesis and Characterization of [XeOXe]²⁺in the Adduct‐Cation Salt, [CH₃CN‐ ‐ ‐XeOXe‐ ‐ ‐NCCH₃][AsF₆]₂. 128:12096-12099. 2016
Re‐engineering the Immune Response to Metastatic Cancer: Antibody‐Recruiting Small Molecules Targeting the Urokinase Receptor. 55:3642-3646. 2016
Re‐engineering the Immune Response to Metastatic Cancer: Antibody‐Recruiting Small Molecules Targeting the Urokinase Receptor. 128:3706-3710. 2016
Cover Picture: Target‐Induced and Equipment‐Free DNA Amplification with a Simple Paper Device (Angew. Chem. Int. Ed. 8/2016). 55:2603-2603. 2016
Target‐Induced and Equipment‐Free DNA Amplification with a Simple Paper Device. 55:2709-2713. 2016
Target‐Induced and Equipment‐Free DNA Amplification with a Simple Paper Device. 128:2759-2763. 2016
Titelbild: Target‐Induced and Equipment‐Free DNA Amplification with a Simple Paper Device (Angew. Chem. 8/2016). 128:2649-2649. 2016
A Catalytic DNA Activated by a Specific Strain of Bacterial Pathogen. 55:2431-2434. 2016
A Catalytic DNA Activated by a Specific Strain of Bacterial Pathogen. 128:2477-2480. 2016
Molecular‐Curvature‐Induced Spontaneous Formation of Curved and Concentric Lamellae through Nucleation. 55:2459-2463. 2016
Molecular‐Curvature‐Induced Spontaneous Formation of Curved and Concentric Lamellae through Nucleation. 128:2505-2509. 2016
Total Synthesis and Activity of the Metallo‐β‐lactamase Inhibitor Aspergillomarasmine A. 55:2210-2212. 2016
Total Synthesis and Activity of the Metallo‐β‐lactamase Inhibitor Aspergillomarasmine A. 128:2250-2252. 2016
Click Functionalization of a Dibenzocyclooctyne‐Containing Conjugated Polyimine. 55:945-949. 2016
Click Functionalization of a Dibenzocyclooctyne‐Containing Conjugated Polyimine. 128:957-961. 2016
A Eu^II‐Containing Cryptate as a Redox Sensor in Magnetic Resonance Imaging of Living Tissue. 54:14398-14401. 2015
A Eu^II‐Containing Cryptate as a Redox Sensor in Magnetic Resonance Imaging of Living Tissue. 127:14606-14609. 2015
Syntheses and Structures of F₆XeNCCH₃ and F₆Xe(NCCH₃)₂. 54:14169-14173. 2015
Syntheses and Structures of F₆XeNCCH₃ and F₆Xe(NCCH₃)₂. 127:14375-14379. 2015
Organometallic Antitumor Compounds: Ferrocifens as Precursors to Quinone Methides. 54:10230-10233. 2015
Organometallic Antitumor Compounds: Ferrocifens as Precursors to Quinone Methides. 127:10368-10371. 2015
Biosensing by Tandem Reactions of Structure Switching, Nucleolytic Digestion, and DNA Amplification of a DNA Assembly. 54:9637-9641. 2015
Biosensing by Tandem Reactions of Structure Switching, Nucleolytic Digestion, and DNA Amplification of a DNA Assembly. 127:9773-9777. 2015
Synthesis and Platinum Complexes of an Alane‐Appended 1,1′‐Bis(phosphino)ferrocene Ligand. 54:2165-2169. 2015
Synthesis and Platinum Complexes of an Alane‐Appended 1,1′‐Bis(phosphino)ferrocene Ligand. 127:2193-2197. 2015
Back Cover: Translating Bacterial Detection by DNAzymes into a Litmus Test (Angew. Chem. Int. Ed. 47/2014). 53:12972-12972. 2014
Rücktitelbild: Translating Bacterial Detection by DNAzymes into a Litmus Test (Angew. Chem. 47/2014). 126:13186-13186. 2014
Translating Bacterial Detection by DNAzymes into a Litmus Test. 53:12799-12802. 2014
Translating Bacterial Detection by DNAzymes into a Litmus Test. 126:13013-13016. 2014
Enantioselective Organocatalytic Michael/Aldol Sequence: Anticancer Natural Product (+)‐trans‐Dihydrolycoricidine. 53:8450-8454. 2014
Enantioselective Organocatalytic Michael/Aldol Sequence: Anticancer Natural Product (+)‐trans‐Dihydrolycoricidine. 126:8590-8594. 2014
Catching Bubbles: Targeting Ultrasound Microbubbles Using Bioorthogonal Inverse‐Electron‐Demand Diels–Alder Reactions. 53:6459-6463. 2014
Catching Bubbles: Targeting Ultrasound Microbubbles Using Bioorthogonal Inverse‐Electron‐Demand Diels–Alder Reactions. 126:6577-6581. 2014
Pullulan Encapsulation of Labile Biomolecules to Give Stable Bioassay Tablets. 53:6155-6158. 2014
Pullulan Encapsulation of Labile Biomolecules to Give Stable Bioassay Tablets. 126:6269-6272. 2014
High Yielding Synthesis of Carboranes Under Mild Reaction Conditions Using a Homogeneous Silver(I) Catalyst: Direct Evidence of a Bimetallic Intermediate. 53:5156-5160. 2014
High Yielding Synthesis of Carboranes Under Mild Reaction Conditions Using a Homogeneous Silver(I) Catalyst: Direct Evidence of a Bimetallic Intermediate. 126:5256-5260. 2014
Turning Tryptophanase into Odor‐Generating Biosensors. 53:2620-2622. 2014
Turning Tryptophanase into Odor‐Generating Biosensors. 126:2658-2660. 2014
Potassium–Alkane Interactions within a Rigid Hydrophobic Pocket. 52:1696-1699. 2013
Potassium–Alkane Interactions within a Rigid Hydrophobic Pocket. 125:1740-1743. 2013
Direct Detection of Discharge Products in Lithium–Oxygen Batteries by Solid‐State NMR Spectroscopy. 51:8560-8563. 2012
Direct Detection of Discharge Products in Lithium–Oxygen Batteries by Solid‐State NMR Spectroscopy. 124:8688-8691. 2012
Innenrücktitelbild: Direct Detection of Discharge Products in Lithium–Oxygen Batteries by Solid‐State NMR Spectroscopy (Angew. Chem. 34/2012). 124:8795-8795. 2012
Inside Back Cover: Direct Detection of Discharge Products in Lithium–Oxygen Batteries by Solid‐State NMR Spectroscopy (Angew. Chem. Int. Ed. 34/2012). 51:8665-8665. 2012
Richard Bader (1931–2012). 51:4521-4522. 2012
Richard Bader (1931–2012). 124:4599-4600. 2012
Fluorescent Nanorods and Nanospheres for Real‐Time In Vivo Probing of Nanoparticle Shape‐Dependent Tumor Penetration. 50:11417-11420. 2011
Fluorescent Nanorods and Nanospheres for Real‐Time In Vivo Probing of Nanoparticle Shape‐Dependent Tumor Penetration. 123:11619-11622. 2011
Fluorogenic DNAzyme Probes as Bacterial Indicators. 50:3751-3754. 2011
Fluorogenic DNAzyme Probes as Bacterial Indicators. 123:3835-3838. 2011
A Nanoparticle Size Series for In Vivo Fluorescence Imaging. 49:8649-8652. 2010
A Nanoparticle Size Series for In Vivo Fluorescence Imaging. 122:8831-8834. 2010
A General Approach to the Construction of Structure‐Switching Reporters from RNA Aptamers. 49:7938-7942. 2010
A General Approach to the Construction of Structure‐Switching Reporters from RNA Aptamers. 122:8110-8114. 2010
η³‐Vinylborane Complexes of Platinum and Nickel: Borataallyl‐ and Alkyl/Borataalkene‐Like Coordination Modes. 49:2716-2719. 2010
η³‐Vinylborane Complexes of Platinum and Nickel: Borataallyl‐ and Alkyl/Borataalkene‐Like Coordination Modes. 122:2776-2779. 2010
Direct, Electronic MicroRNA Detection for the Rapid Determination of Differential Expression Profiles. 48:8461-8464. 2009
Direct, Electronic MicroRNA Detection for the Rapid Determination of Differential Expression Profiles. 121:8613-8616. 2009
Nanostructuring of Patterned Microelectrodes To Enhance the Sensitivity of Electrochemical Nucleic Acids Detection. 48:8457-8460. 2009
Nanostructuring of Patterned Microelectrodes To Enhance the Sensitivity of Electrochemical Nucleic Acids Detection. 121:8609-8612. 2009
Naphthalene‐Mediated Electronic Communication in Tetrakis(imino)pyracene Complexes. 48:8369-8371. 2009
Naphthalene‐Mediated Electronic Communication in Tetrakis(imino)pyracene Complexes. 121:8519-8521. 2009
Recycling the Waste: The Development of a Catalytic Wittig Reaction. 48:6836-6839. 2009
Recycling the Waste: The Development of a Catalytic Wittig Reaction. 121:6968-6971. 2009
Colorimetric Sensing by Using Allosteric‐DNAzyme‐Coupled Rolling Circle Amplification and a Peptide Nucleic Acid–Organic Dye Probe. 48:3512-3515. 2009
Colorimetric Sensing by Using Allosteric‐DNAzyme‐Coupled Rolling Circle Amplification and a Peptide Nucleic Acid–Organic Dye Probe. 121:3564-3567. 2009
Rolling Circle Amplification: Applications in Nanotechnology and Biodetection with Functional Nucleic Acids. 47:6330-6337. 2008
Rolling‐Circle‐Amplifikation: Anwendungen in der Nanotechnologie und in der Biodetektion mit funktionellen Nucleinsäuren. 120:6428-6436. 2008
X‐ray Crystal Structure of an Alkene–Pentacarbonyldicobalt–Alkyne Complex: Isolation of a Stable Magnus‐Type Pauson–Khand Reaction Intermediate. 46:2907-2910. 2007
X‐ray Crystal Structure of an Alkene–Pentacarbonyldicobalt–Alkyne Complex: Isolation of a Stable Magnus‐Type Pauson–Khand Reaction Intermediate. 119:2965-2968. 2007
Small‐Molecule Screening Made Simple for a Difficult Target with a Signaling Nucleic Acid Aptamer that Reports on Deaminase Activity. 45:5648-5652. 2006
Small‐Molecule Screening Made Simple for a Difficult Target with a Signaling Nucleic Acid Aptamer that Reports on Deaminase Activity. 118:5776-5780. 2006
Solid‐Phase Enzyme Activity Assay Utilizing an Entrapped Fluorescence‐Signaling DNA Aptamer. 45:3295-3299. 2006
Solid‐Phase Enzyme Activity Assay Utilizing an Entrapped Fluorescence‐Signaling DNA Aptamer. 118:3373-3377. 2006
DNA Polymerization on Gold Nanoparticles through Rolling Circle Amplification: Towards Novel Scaffolds for Three‐Dimensional Periodic Nanoassemblies. 45:2409-2413. 2006
DNA Polymerization on Gold Nanoparticles through Rolling Circle Amplification: Towards Novel Scaffolds for Three‐Dimensional Periodic Nanoassemblies. 118:2469-2473. 2006
DNA polymerization on gold nanoparticles through rolling circle amplification: Towards novel scaffolds for three-dimensional periodic nanoassemblies. 45:2409-2413. 2006
A DNA–Protein Nanoengine for “On‐Demand” Release and Precise Delivery of Molecules. 44:5464-5467. 2005
A DNA–Protein Nanoengine for “On‐Demand” Release and Precise Delivery of Molecules. 117:5600-5603. 2005
In Vitro Selection of Structure‐Switching Signaling Aptamers. 44:1061-1065. 2005
In Vitro Selection of Structure‐Switching Signaling Aptamers. 117:1085-1089. 2005
Stable Cubic Phosphorus‐Containing Radicals. 43:502-505. 2004
Stable Cubic Phosphorus‐Containing Radicals. 116:508-511. 2004
The Role of Acyloxyphosphonium Ions and the Stereochemical Influence of Base in the Phosphorane‐Mediated Esterification of Alcohols. 42:4051-4054. 2003
The Role of Acyloxyphosphonium Ions and the Stereochemical Influence of Base in the Phosphorane‐Mediated Esterification of Alcohols. 115:4185-4188. 2003
2,2′‐Diborabiphenyl: A Lewis Acid Analogue of 2,2′‐Bipyridine. 42:1252-1255. 2003
2,2′‐Diborabiphenyl: A Lewis Acid Analogue of 2,2′‐Bipyridine. 115:1290-1293. 2003
Dimerization of Molecular Phosphorus Oxides. 40:4691-4694. 2001
Solid-Phase Synthesis of Transition Metal Linked, Branched Oligonucleotides. 40:4629-4632. 2001
Solid-Phase Synthesis of Transition Metal Linked, Branched Oligonucleotides. 113:4765-4768. 2001
Surface-Confined Light Harvesting, Energy Transfer, and Amplification of Fluorescence Emission in Chromophore-Labeled Self-Assembled Monolayers. 39:2163-2167. 2000
Surface-Confined Light Harvesting, Energy Transfer, and Amplification of Fluorescence Emission in Chromophore-Labeled Self-Assembled Monolayers. 112:2247-2251. 2000
Das Sammeln von Licht und die Energieübertragung in neuen konvergent aufgebauten Dendrimeren. 111:1519-1524. 1999
Light Harvesting and Energy Transfer in Novel Convergently Constructed Dendrimers. 38:1422-1427. 1999
Isomerie und blaue Elektrolumineszenz einer neuartigen Organoborverbindung: BIII2(O)(7-azain)2Ph2. 111:1039-1041. 1999
Isomerism and Blue Electroluminescence of a Novel Organoboron Compound: BIII2(O)(7-azain)2Ph2. 38:985-988. 1999
Die Biosynthese von Vitamin B₁ (Thiamin): ein Beispiel für biochemische Vielfalt. 109:1096-1111. 1997
Biosynthesis of Vitamin B₁ (Thiamin): An Instance of Biochemical Diversity. 36:1032-1046. 1997
Beweis der Existenz einer endohedralen He@C₆₀‐Struktur durch Gasphasenneutralisation von HeC^.+₆₀. 104:242-244. 1992
The Neutralization of HeC in the Gas Phase: Compelling Evidence for the Existence of an Endohedral Structure for He@C₆₀. 31:183-185. 1992
Das Phosphor‐Ylid CH₂PH₃ ist stabil in der Gasphase. 104:65-66. 1992
The Phosphorus Ylide CH₂PH₃ is Stable in the Gas Phase. 31:86-87. 1992
RS ‐ P  S in der Gasphase ‐ erstmalige Erzeugung von (Organothio)thioxophosphanen. 103:331-333. 1991
RS‐PS in the Gas Phase—First Generation of (Organothio)thioxophosphanes. 30:318-320. 1991
Ionic Isomer Distinction by Neutralization‐Reionization Mass Spectrometry (NRMS): Carbonic Acid Radical Cations, (HO)₂CO^˙⊕ versus (H₂O/CO2)^˙⊕ Clusters. 29:404-406. 1990
Unterscheidung isomerer Ionen durch Neutralisations‐Reionisations‐Massenspektrometrie (NRMS): Kohlensäure‐Radikalkationen (HO)₂CO^˙⊕ versus (H₂O/CO₂)^˙⊕‐Cluster. 102:431-433. 1990
Correspondenz. 101:652-652. 1989
One Pioneer or Several Pioneers? The Discovery of Noble‐Gas Compounds. 28:636-636. 1989
Erzeugung und Charakterisierung der schwefligen Säure (H₂SO₃) und ihres Radikalkations als stabile Moleküle in der Gasphase. 100:1591-1592. 1988
Generation and Characterization of Sulfurous Acid (H₂SO₃) and of Its Radical Cation as Stable Species in the Gas Phase. 27:1533-1534. 1988
Ein Pionier oder mehrere Pioniere? Die Entdeckung der Edelgas‐Verbindungen. 100:495-506. 1988
One or Several Pioneers? The Discovery of Noble‐Gas Compounds. 27:479-489. 1988
Erzeugung und Charakterisierung von Molekülen durch Neutralisations-Reionisations-Massenspektrometrie (NRMS). 99:829-839. 1987
The Generation and Characterization of Molecules by Neutralization‐Reionization Mass Spectrometry (NRMS). New Analytical Methods (33). 26:805-815. 1987
Thermolyse von NH4HCO3 – ein einfacher Weg zur freien Kohlensäure H2CO3 in der Gasphase. 99:352-353. 1987
Thermolysis of NH₄HCO₃—A Simple Route to the Formation of Free Carbonic Acid (H₂CO₃) in the Gas Phase. 26:354-355. 1987
CO2-Abspaltung aus Vinylencarbonat-Radikalanionen und Ladungsumkehr bei C2H2O⊙⊖: Reaktionen zum Radikalanion und -kation von Oxiren?. 99:153-155. 1987
CO₂ Elimination from Vinylene Carbonate Radical Anions and Charge Reversal in C₂H₂O^⊙⊖: Reactions Involving the Radical Anion and Cation of Oxirene?. 26:140-142. 1987
Aminoacetylene and Its Mono‐ and Dication—Identification of Potentially Interstellar Molecules. 25:827-828. 1986
Massenspektrometrischer Nachweis von Aminoacetylen sowie seinem Mono‐ und Dikation. 98:834-835. 1986
Hydroxyacetylen: Erzeugung und Charakterisierung des Neutralmoleküls, Radikalkations und Dikations in der Gasphase. 98:275-276. 1986
Hydroxyacetylene: Generation and Characterization of the Neutral Molecule, Radical Cation and Dication in the Gas Phase. 25:282-284. 1986
Reactions of Transition Metal Atoms with Organic Substrates. 14:195-199. 1975
Reaktionen von Übergangsmetallatomen mit organischen Verbindungen. 87:215-219. 1975
Fighting Mutations with Mutations: Evolutionarily Adapting a DNA Aptamer for High‐Affinity Recognition of Mutated Spike Proteins of SARS‐CoV‐2
Higher Affinity Enables More Accurate Detection of SARS‐CoV‐2 in Human Saliva Using Aptamer‐Based Litmus Test
Robert G. Parr (1921–2017) 2017
Robert G. Parr (1921–2017) 2017

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