Blue Bottle Experiment: Learning Chemistry without Knowing the Chemicals

Limpanuparb, Taweetham; Areekul, Cherprang; Montriwat, Punchalee; Rajchakit, Urawadee

doi:10.1021/acs.jchemed.6b00844

Cited by 24 publications

(49 citation statements)

References 30 publications

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“…The solution is blue and is not reduced to colourless over time. — Replacement of dextrose by acetoin and dihydroxyacetone in the blue bottle experiment yields repeatable colour change and chemical patterns [ 18 ]. Phenol-derivatives such as catechol reacts with oxygen rapidly under alkaline conditions without a dye to produce a dark-coloured solution.…”

Section: Resultsmentioning

confidence: 99%

“… Alternative reducing agents such as amino acids may also be used in the blue bottle experiment. — Replacement of dextrose by amino acid and various food products yields repeatable colour change but some of the reactions are slow [ 18 ]. — In an iodine clock experiment [ 60 ], cysteine is also used successfully in place of ascorbic acid.…”

Section: Resultsmentioning

confidence: 99%

“…— Replacement of dextrose by amino acid and various food products yields repeatable colour change but some of the reactions are slow [ 18 ].…”

Section: Resultsmentioning

confidence: 99%

“…The blue bottle reaction and its analogues are popular chemical demonstrations due to their visual appeal and simplicity, and the majority of the research on this topic is published in the Journal of Chemical Education [ 1 – 18 ]. Fundamental research and non-education applications of the reactions have also been discussed elsewhere [ 19 – 26 ].…”

Section: Introductionmentioning

confidence: 99%

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A DFT investigation of the blue bottle experiment:E^∘_half-cellanalysis of autoxidation catalysed by redox indicators

2017

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The blue bottle experiment is a collective term for autoxidation reactions catalysed by redox indicators. The reactions are characterized by their repeatable cycle of colour changes when shaken/left to stand and intricate chemical pattern formation. The blue bottle experiment is studied based on calculated solution-phase half-cell reduction potential of related reactions. Our investigation confirms that the reaction in various versions of the blue bottle experiment published to date is mainly the oxidation of an acyloin to a 1,2-dicarbonyl structure. In the light of the calculations, we also propose new non-acyloin reducing agents for the experiment. These results can help guide future experimental studies on the blue bottle experiment.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

“…— Replacement of dextrose by amino acid and various food products yields repeatable colour change but some of the reactions are slow [ 18 ].…”

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A DFT investigation of the blue bottle experiment:E^∘_half-cellanalysis of autoxidation catalysed by redox indicators

2017

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“…In our context, this inquiry-based laboratory is given at the very last week of the first chemical laboratory course for undergraduate students. Our students have had prior knowledge of the reaction by completing the first four activities of the blue bottle experiment (see ref (5)’s Supporting Information) in one of the previous lab sessions. Students work in groups because of the nature of the work that required simultaneous mixing or transferring of chemicals and limited lab space/equipment.…”

Section: Preparation and Proceduresmentioning

confidence: 99%

Chemical Patterns in Autoxidations Catalyzed by Redox Dyes

et al. 2019

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We present simple and effective experiments to produce intricate chemical patterns from common chemicals in a classroom setting. Students selected an independent variable of their interest, designed their experiment, and investigated its effect on chemical patterns in a four-hour activity. Photographs and videos were taken, while the identity and the concentration of chemicals in the reaction mixture, the concentration of oxygen gas above the solution, the depth of the solution, the shape and the total area of container’s cross section, and the temperature were varied. Students discussed their results and presented their investigation to the class. Our experiments enable students to conduct inquiries with open-ended discussion and also open possibilities for a chemical art competition.

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The “blue bottle”‐redox flow battery

Quarthal

Novotny

Oetken

2018

Chemkon

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Zusammenfassung: Im folgendenBeitrag soll eine Hybrid-Redox-Flow-Batterie vorgestelltwerden, in welcher eine wässrige Methylenblaulçsung alsK atholytv erwendetw ird. DieseB atterie hatd en Vorteil, dass dieo xidierte/reduzierte Form desE lektrolytend urch einene indrucksvollen Farbwechsels ichtbar gemachtw erden kann.Der Aufbau unsererHybrid-Redox-Flow-Batterieermçglichteserstmals, dass das"Blue Bottle-Experiment"a uchd urch einene lektrochemischen Oxidations-u nd Reduktionsvorgangi ns ehrk urzerZ eitdurchgeführtwerdenkann.Stichworte: Hybrid-Redox-Flow-Batterie ·Redoxindikatoren ·Methylenblau ·Zink·blue bottleThe"blue bottle"-redoxflowbattery Abstract: In this articleahybrid redoxflowbattery is presented in whichanaqueoussolution basedonmethylene blue is used as catholyte. Thec rucial advantagei st he impressive colorc hangeo ft he electrolyte, which helpstodetermine thestate of charge of this redoxflowbattery. Forthe firsttimeitispossible, duetothe experimentalsetup of thehybrid redoxflowbattery,thatthe "bluebottleexperiment" canbecarried outbyelectrochemical oxidationand reductionprocesses in ashort period of time. CHEMKON Abb. 5: Ladevorgang einerHybrid-Redox-Flow-Batterie aufBasis vonmetallischemZinkund einerMethylenblaulçsung; links: Vordem Ladevorgang, Mitte: Nach 15 Sekunden, rechts: Nach 45 Sekunden. Abb. 6: Entladevorgang einerHybrid-Redox-Flow-Batterieauf Basisvon metallischem Zink undeinerMethylenblaulçsungper Kurzschlussstrom; links: Vordem Entladevorgang, Mitte: Nach 1,5Minuten, rechts: Nach 3,5Minuten.CHEMKON nenZ ustand überführtw erden. Diea llgemeinen Reaktionsgleichungenkçnnenwie folgtformuliertwerden:Dieb laue Farbed er Methylenblaulçsung istn achd em Begasenm it Luft nichts oi ntensiv wien ache inem Ladevorgang mitd er Spannungsquelleu nd dahera uchn icht vollständig durchL uftsauerstoff in deng eladenen Zustand überführt worden.A berm an kann bereitsn ache inminütigerO xidation durchL uftsauerstoffd er Batterie ca.7 9% derE ntladestrçme (Q out )e ntnehmen,d ie sien ache inem Ladevorgangm it einer Spannungsquellehätte. FazitDerV ersuch zeigts ehre indrucksvoll,d asse sg elungeni st, eine Hybrid-Redox-Flow-Batterie zu entwickeln,m it welcher Abb. 9: Schematische Darstellungdes Ladevorgangs derF reiburgerBlueBottle Redox-Flow-Batterie.Abb. 10: Entladevorgang einerHybrid-Redox-Flow-Batterieauf Basisvon metallischem Zink undeiner Alizarinlçsung perKurzschlussstrom; links: Vordem Entladevorgang, Mitte: Nach 30 Sekunden, rechts: Nach 1,5Minuten.

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Blue Bottle Experiment: Learning Chemistry without Knowing the Chemicals

Cited by 24 publications

References 30 publications

A DFT investigation of the blue bottle experiment:E^∘_half-cellanalysis of autoxidation catalysed by redox indicators

A DFT investigation of the blue bottle experiment:E^∘_half-cellanalysis of autoxidation catalysed by redox indicators

Chemical Patterns in Autoxidations Catalyzed by Redox Dyes

The “blue bottle”‐redox flow battery

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Blue Bottle Experiment: Learning Chemistry without Knowing the Chemicals

Cited by 24 publications

References 30 publications

A DFT investigation of the blue bottle experiment:E∘half-cellanalysis of autoxidation catalysed by redox indicators

A DFT investigation of the blue bottle experiment:E∘half-cellanalysis of autoxidation catalysed by redox indicators

Chemical Patterns in Autoxidations Catalyzed by Redox Dyes

The “blue bottle”‐redox flow battery

Contact Info

Product

Resources

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A DFT investigation of the blue bottle experiment:E^∘_half-cellanalysis of autoxidation catalysed by redox indicators

A DFT investigation of the blue bottle experiment:E^∘_half-cellanalysis of autoxidation catalysed by redox indicators