Rikard Emanuelsson
Universitetsadjunkt vid Institutionen för kemi - BMC; Organisk kemi; Emanuelsson grupp
- Telefon:
- 018-471 38 22
- E-post:
- rikard.emanuelsson@kemi.uu.se
- Besöksadress:
- Husargatan 3
752 37 Uppsala - Postadress:
- Box 576
75123 Uppsala
Mer information visas för dig som medarbetare om du loggar in.
Publikationer
Urval av publikationer
- Redox-site accessibility of composites containing a 2D redox-active covalent organic framework (2023)
- An Alternative to Carbon Additives (2021)
- An Aqueous Conducting Redox-Polymer-Based Proton Battery that Can Withstand Rapid Constant-Voltage Charging and Sub-Zero Temperatures (2020)
- A crosslinked conducting polymer with well-defined proton trap function for reversible proton cycling in aprotic environments (2020)
- An All-Organic Proton Battery (2017)
Senaste publikationer
- Unlocking the Charge‐storage Potential of a Phenanthraquinone‐based Two‐dimensional Covalent Organic Framework (2D COF) (2024)
- Influence of Cationic Species on the Electrochemical Performance of Quinone Derivatives (2024)
- Conducting redox polymers for efficient surface immobilization of molecular porphyrin catalysts (2024)
- Redox-site accessibility of composites containing a 2D redox-active covalent organic framework (2023)
- Tetraphenylporphyrin electrocatalysts for the hydrogen evolution reaction: applicability of molecular volcano plots to experimental operating conditions (2023)
Alla publikationer
Artiklar
- Unlocking the Charge‐storage Potential of a Phenanthraquinone‐based Two‐dimensional Covalent Organic Framework (2D COF) (2024)
- Influence of Cationic Species on the Electrochemical Performance of Quinone Derivatives (2024)
- Redox-site accessibility of composites containing a 2D redox-active covalent organic framework (2023)
- Tetraphenylporphyrin electrocatalysts for the hydrogen evolution reaction: applicability of molecular volcano plots to experimental operating conditions (2023)
- Characterization of a porphyrin-functionalized conducting polymer (2022)
- An Alternative to Carbon Additives (2021)
- Rocking-Chair Proton Batteries with Conducting Redox Polymer Active Materials and Protic Ionic Liquid Electrolytes (2021)
- A conducting additive-free high potential quinone-based conducting redox polymer as lithium ion battery cathode (2021)
- Cover Feature (2020)
- Conducting Redox Polymer as a Robust Organic Electrode-Active Material in Acidic Aqueous Electrolyte towards Polymer-Air Secondary Batteries (2020)
- An Aqueous Conducting Redox-Polymer-Based Proton Battery that Can Withstand Rapid Constant-Voltage Charging and Sub-Zero Temperatures (2020)
- Effect of Cycling Ion and Solvent on the Redox Chemistry of Substituted Quinones and Solvent-Induced Breakdown of the Correlation between Redox Potential and Electron-Withdrawing Power of Substituents (2020)
- A crosslinked conducting polymer with well-defined proton trap function for reversible proton cycling in aprotic environments (2020)
- Characterization of PEDOT-Quinone conducting redox polymers in water-in-salt electrolytes for safe and high-energy Li-ion batteries (2019)
- Investigating electron transport in a PEDOT/Quinone conducting redox polymer with in situ methods (2019)
- Redox-State-Dependent Interplay between Pendant Group and Conducting Polymer Backbone in Quinone-Based Conducting Redox Polymers for Lithium Ion Batteries (2019)
- In situ Investigations of a Proton Trap Material: A PEDOT-Based Copolymer with Hydroquinone and Pyridine Side Groups Having Robust Cyclability in Organic Electrolytes and Ionic Liquids (2019)
- A Computational Investigation of the Substituent Effects on Geometric, Electronic, and Optical Properties of Siloles and 1,4-Disilacyclohexa-2,5-dienes (2017)
- Quinone based conducting redox polymers for electrical energy storage (2017)
- Quinone based conducting redox polymers for electrical energy storage (2017)
- An All-Organic Proton Battery (2017)
- Unraveling factors leading to efficient norbornadiene-quadricyclane molecular solar-thermal energy storage systems (2017)
- Characterization of PEDOT-Quinone Conducting Redox Polymers for Water Based Secondary Batteries (2017)
- The Proton Trap Technology - Toward High Potential Quinone-Based Organic Energy Storage (2017)
- Expanding the (Cross-)Hyperconjugation of 1,4-Disilacyclohexa-2,5-dienes to Larger Monomers and Oligomers (2016)
- Enthalpic versus Entropic Contribution to the Quinone Formal Potential in a Polypyrrole-Based Conducting Redox Polymer (2016)
- A versatile route to polythiophenes with functional pendant groups using alkyne chemistry (2016)
- Optimization of the Cyclic Cross-Hyperconjugation in 1,4-Ditetrelcyclohexa-2,5-dienes (2014)
- Configuration- and Conformation-Dependent Electronic Structure Variations in 1,4-Disubstituted Cyclohexanes Enabled by a Carbon-to-Silicon Exchange (2014)
- In Search of Flexible Molecular Wires with Near Conformer-Independent Conjugation and Conductance (2014)
- Siloles and cyclopentadienes as "aromatic chameleons" influenced by aromaticity in both the ground state and lowest electronically excited states (2014)
- Impact of Ground- and Excited-State Aromaticity on Cyclopentadiene and Silole Excitation Energies and Excited-State Polarities (2014)
- A computational study of potential molecular switches that exploit Baird's rule on excited-state aromaticity and antiaromaticity (2014)
- 1,4-Disilacyclohexa-2,5-diene (2014)
- Cross-hyperconjugation (2013)
- Charge transfer through cross-hyperconjugated versus cross-pi-conjugated bridges (2013)
- Conductance through Carbosilane Cage Compounds (2013)
- Coupling of Disilane and Trisilane Segments Through Zero, One, Two, and Three Disilanyl Bridges in Cyclic and Bicyclic Saturated Carbosilanes (2013)
- Investigation of alpha-phenylnorstatine and alpha-benzylnorstatine as transition state isostere motifs in the search for new BACE-1 inhibitors (2011)
- Using Ground and Excited State Aromaticity to Understand Cyclopentadiene and Silole Excitation Energies and Excited State Polarities
- Post-Deposition Polymerization
Böcker
Konferenser
- Conducting redox polymers for efficient surface immobilization of molecular porphyrin catalysts (2024)
- Conducting Redox Polymers as Electrical Energy Storage Materials (2019)
- Binder- and conducting additive free organic electrode materials – Post-deposition polymerization of conducting redox oligomers (2019)
- Side chain quinone redox reaction effects on conductivity of quinone-PEDOT based conducting redox polymer. (2019)
- Side chain quinone redox reaction effects on conductivity of quinonePEDOT based conducting redox polymer (2019)
- Quinone-Substituted Conducting Polymers as Electrode Materials for All-Organic Proton Batteries (2018)
- The proton trap – a new route to high potential organic energy storage (2018)
- Quinone Based Conducting Redox Polymer for Energy Storage (2017)
- Conducting Redox Polymer Based Batteries (2017)
- Organic Batteries Based on Quinone-Substituted Conducting Polymers (2017)
- Electrochemical Characterization of Conducting Redox Polymers – Redox Matching and Mass Transport (2017)
- Electrochemical Properties of a PEDOT-Based Conducting Redox Polymer (2017)
- Building Conducting Redox Polymer Batteries (2017)
- Conducting Redox Polymer Batteries – Challenges and possibilities (2017)
- Conducting Redox Polymers for Secondary Batteries (2016)
- Linker Effect in PEDOT/Quinone Organic Battery Materials (2016)
- Characterization of a PEDOT/Quinone Conducting Redox Polymer (2016)
- Quinone based Conducting Redox Polymers for Renewable Energy Storage (2016)
- Quinone based Conducting Redox Polymers for Renewable Energy Storage (2016)
- Organic Materials for Renewable Energy Storage (2016)
- Conducting Redox Polymers for Renewable Energy Storage (2016)
- Organic Polymeric Materials for Renewable Energy Storage (2016)
- Rational design of conducting redox polymers for electrical energy storage (2015)
- Design principles for constructing conducting redox polymer based battery materials (2015)
- Organic Polymeric Materials for Renewable Batteries (2015)