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This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.

List of results

O2k-TPP+ ISE-Module + ([[File:TPP new.jpg|180px|right]]'''O2k-TPP+ ISE-Module''': Potentiometric ion-selective electrodes for measurement of mitochondrial membrane potential)
Avogadro constant + ([[File:Table Physical constants.png|left|4 … [[File:Table Physical constants.png|left|400px|thumb|]] {''Quote''} The '''Avogadro constant''' ''N''A is a proportionality constant between the quantity [[amount]] of substance (with unit [[mole]]) and the quantity for [[count |counting entities]] ... One mole contains exactly 6.022 140 76 × 1023 elementary [[entity |entities]]. This number is the fixed numerical value of the Avogadro constant, ''N''A, when expressed in the unit mol−1 and is called the Avogadro number {''End of Quote'': [[Bureau International des Poids et Mesures 2019 The International System of Units (SI)]]}. Thus the Avogadro constant ''N''A has the SI unit 'per mole' [mol-1], but more strictly the unit for counting entities per amount is 'units per mole' [x·mol-1] (compare [[elementary charge]]). Therefore, ''N''A is 'count per amount' with units 'counting units per mole'. The Avogadro constant times elementary charge is the [[Faraday constant]].raday constant]].)
Boltzmann constant + ([[File:Table Physical constants.png|left|4 … [[File:Table Physical constants.png|left|400px|thumb|]] The '''Boltzmann constant''' ''k'' has the SI unit [J·K-1] (IUPAC), but more strictly the units for energy per particles per temperature is [J·x-1·K-1]. ''k'' = ''f''·''e''-1, the [[electrochemical constant]] ''f'' times the [[elementary charge]] ''e''. ''k'' = ''R''·''N''A-1, the [[gas constant]] ''R'' divided by the [[Avogadro constant]] ''N''A.gadro constant]] ''N''A.)
Gas constant + ([[File:Table Physical constants.png|left|4 … [[File:Table Physical constants.png|left|400px|thumb|]] The '''gas constant''', ''R'' = 8.314462618 J·mol-1·K-1, has the SI unit for energy per amount per temperature. ''R'' is primarily known from the ideal gas equation, ''pV'' = ''nRT'' or ''p'' = ''cRT''. Therefore, ''RT'' is the ratio of pressure ''p'' and concentration ''c''. ''R'' = ''f''·''F'', the [[electrochemical constant]] ''f'' times the [[Faraday constant]] ''F''. ''R'' = ''k''·''N''A, the [[Boltzmann constant]] ''k'' times the [[Avogadro constant]] ''N''A.ogadro constant]] ''N''A.)
Electrochemical constant + ([[File:Table Physical constants.png|right| … [[File:Table Physical constants.png|right|400px|thumb|]] The '''electrochemical constant''' ''f'' has the SI unit for energy per charge per temperature [J·C-1·K-1]. ''f'' = ''k''·''e''-1, the [[Boltzmann constant]] ''k'' divided by the [[elementary charge]] ''e''. ''f'' = ''R''·''F''-1, the [[gas constant]] ''R'' divided by the [[Faraday constant]] ''F''.raday constant]] ''F''.)
Format + ([[File:Table Physical constants.png|right| … [[File:Table Physical constants.png|right|600px|thumb|Converstion between different motive formats and corresponding motive units ([[Gnaiger 2020 BEC MitoPathways]])]].Different '''formats''' can be chosen to express physicochemical quantities ([[motive entity |motive entities]] or transformants) in corresponding [[motive unit]]s [MU]. Fundamental formats for electrochemical transformations are:* ''N'': particle or molecular format of a count; MU = x * ''n'': chemical or molar format of amount; MU = mol * ''e'': electrical format of charge; MU = C* ''m'': mass format; MU = kg* ''V'': volume format; MU = m3* ''G'': exergy format; MU = J* ''H'': enthalpy format; MU = J* ''S'': entropy format; MU = J·K-1lt;/u>: exergy format; MU = J * ''H'': enthalpy format; MU = J * ''S'': entropy format; MU = J·K-1)
Elementary charge + ([[File:Table Physical constants.png|right| … [[File:Table Physical constants.png|right|400px|thumb|]] The '''elementary charge''' or proton charge ''e'' has the SI unit coulomb [C], but more strictly coulomb per elementary unit [C·x-1]. -''e'' is the charge per electron. Elementary charge ''e'' is the charge per [[elementary entity]] H+ with SI unit [C] but canonical SI unit [C·x-1]. When the charge ''Q''el [C] of a number ''N''e [x] of electrons e is divided by the count ''N''e, then the [[particle charge]] ''QNX'' (''QNX'') charge per elementary entity is obtained, -''e'' = ''Q''el/''N''e [C·x-1]. ''e'' is also used as an atomic unit.X'') charge per elementary entity is obtained, -''e'' = ''Q''el/''N''e [C·x-1]. ''e'' is also used as an atomic unit.)
T-Shirt: MitoFit + ([[File:Tshirt MitoFit OROBOROS.jpg|right|180px]] '''T-Shirt MitoFit''': Oroboros Logo on front, MitoFit Logo on back.)
Tube Racks + ([[File:Tube Racks.JPG|right|180px]]'''Tube Racks''': stainless steel, accomodating four 50-ml tubes, for cleaning of microsyringes, cleaning and storage of stoppers during cleaning of the [[O2k-chamber]]s; package of two (for a total of eight tubes).)
United Mitochondrial Disease Foundation + ([[File:UMDF LOGO.JPG|200px|left|UMDF]] The … [[File:UMDF LOGO.JPG|200px|left|UMDF]]The '''United Mitochondrial Disease Foundation''' (UMDF) was founded in 1996 to promote research and education for the diagnosis, treatment and cure of mitochondrial disorders and to provide support to affected individuals and families.port to affected individuals and families.)
V-ring\30-35-4.5 mm + ([[File:V-Ring 30-35-4.5.JPG|right|180px]] '''V-ring\30-35-4.5 mm''', mounted on [[O2k-Chamber Holder]] and [[O2k-Chamber Holder sV]].)
O-ring\Viton\18x2 mm + ([[File:Viton O-ring 18x2.jpg|right|180px|link=]] '''O-ring\[[Viton]]\18x2 mm''', mounted on the [[O2k-Chamber Holder]].)
SUIT-003 O2 ce D039 + ([[File:ce1;(ce2Omy);ce3U;ce4Rot;ce5Ama.jpg|300px]])
SUIT-003 O2 ce D061 + ([[File:ce1;(ce2Omy);ce3U;ce4Rot;ce5DMSO;ce6DMSO;ce7Ama.png|400px]])
SUIT-003 O2 ce D060 + ([[File:ce1;(ce2Omy);ce3U;ce4Rot;ce5Snv;ce6Mnanv;ce7Ama.png|400px]])
SUIT-002 O2 ce-pce D007a + ([[File:ce1;1Dig;1D;2M.1;3Oct;3c;4M2;5P;6G;7S;8Gp;9U;10Rot;11Ama;12AsTm;13Azd.png|400px|SUIT-RP2 for PBMC and PLT]])
SUIT-002 O2 ce-pce D007 + ([[File:ce1;1Dig;1D;2M.1;3Oct;3c;4M2;5P;6G;7S;8Gp;9U;10Rot;11Ama;12AsTm;13Azd.png|400px|SUIT-RP2]])
SUIT-008 O2 ce-pce D025 + ([[File:ce1;1Dig;1PM;2D;2c;3G;4S;5U;6Rot;7Ama;8AsTm;9Az.png|600px]])
SUIT-012 O2 ce-pce D052 + ([[File:ce1;1Dig;1PM;2D;2c;3G;4U;5Ama.png|450px]])
SUIT-001 O2 ce-pce D004 + ([[File:ce1;1Dig;1PM;2D;2c;3U;4G;5S;(6Oct);7Rot;8Gp;9Ama;10AsTm;11Azd.png|400px|SUIT-RP1 for PBMC and PLT]])
SUIT-001 O2 ce-pce D003 + ([[File:ce1;1Dig;1PM;2D;2c;3U;4G;5S;6Oct;7Rot;8Gp;9Ama;10AsTm;11Azd.png|600px|SUIT-RP1]])
SUIT-006 MgG ce-pce D085 + ([[File:ce1;1Dig;1PM;2D;3Cat;4U;5Ama.png|400px]])
SUIT-006 Q ce-pce D073 + ([[File:ce1;1Dig;1Q2;1Rot;1S;2D;(3Omy);4U;5Anox;6Ama.png|400px]])
SUIT-026 O2 ce-pce D088 + ([[File:ce1;1Dig;1S;2Rot;3D;3c;4Ama.png|400px]])
SUIT-003 O2 ce D062 + ([[File:ce1;ce1DMSO;(ce2Omy);ce3U;ce4Rot;ce5Ama.png|400px]])

SUIT-003 AmR ce D059 + ([[File:ce1;ce1H2O;ce1MiR05;ce1DMSO;ce2Omy;ce3U;ce4Rot;ce5Ama.png|500px]])

SUIT-003 O2 ce-pce D013 + ([[File:ce1;ce1P;ce2Omy;ce3U;ce4Glc;ce5M;ce6Rot;ce7S;1Dig;1c;2Ama;3AsTm;4Azd.png|600px]])
SUIT-003 O2 ce-pce D020 + ([[File:ce1;ce1P;ce2Omy;ce3U;ce4Rot;ce5S;1Dig;1c;2Ama;3AsTm;4Azd.png|600px]])
SUIT-003 Ce1;ce1P;ce3U;ce4Glc;ce5M;ce6Rot;ce7S;1Dig;1c;2Ama;3AsTm;4Azd + ([[File:ce1;ce1P;ce3U;ce4Glc;ce5M;ce6Rot;ce7S;1Dig;1c;2Ama;3AsTm;4Azd.png|600px]])
SUIT-003 Ce1;ce1SD;ce2Omy;ce3U- + ([[File:ce1;ce1SD;ce2Omy;ce3U;ce4Rot;ce5Ama.png|200px]])
SUIT-003 AmR ce D058 + ([[File:ce1;ce1SOD;ce1HRP;ce1AmR;ce2Omy;ce3U;ce4Rot;ce5Ama.png|500px]])
SUIT-003 O2 ce D050 + ([[File:ce1;ce1Snv;(ce2Omy);ce3U;ce4Rot;ce5Ama.png|400px]])
SUIT-022 O2 ce D051 + ([[File:ce1;ce2KCN;ce3SHAM.v2.png|350px]] [[File:ce1;ce2KCN;ce3SHAM.png|350px]])
SUIT-022 + ([[File:ce1;ce2KCN;ce3SHAM.v2.png|400px]])
SUIT-003 O2 ce D028 + ([[File:ce1;ce2Omy;ce3U;ce4Rot;ce5S;ce6Ama.png|500px]])
SUIT-003 AmR ce D017 + ([[File:ce1;ce2P;ce3Omy;ce4U;ce5Rot;ce6S;ce7Ama.png|500px]])
SUIT-010 + ([[File:ce1;ce2Rot;ce3S;ce4D;1Dig;1c.png|400px|Respirometric test of optimum digitonin concentration ]])
SUIT-010 O2 ce-pce D008 + ([[File:ce1;ce2Rot;ce3S;ce4D;1Dig;1c.png|400px|Respirometric test of optimum digitonin concentration ]])
SUIT-003 Ce1;ce2SD;ce3Omy;ce4U- + ([[File:ce1;ce2SD;ce3Omy;ce4U;ce5Rot;ce6Ama.png|200px]])
SUIT-003 Ce1;ce2SD;ce3U;ce4Rot;ce5Ama + ([[File:ce1;ce2SD;ce3U;ce4Rot;ce5Ama.png|200px]])
SUIT-023 O2 ce D053 + ([[File:ce1;ce2SHAM;ce3KCN.png|350px]])
SUIT-023 + ([[File:ce1;ce2SHAM;ce3KCN.png|400px]])
SUIT-006 02 mt D108 + ([[File:mt;1PGM;2D;2c;(3Omy);4U;5Myx.png|300 px]])
SUIT-006 NADH mt D084 + ([[File:mt;1PGM;2D;3(Omy);4U;5Anox;6Myx;7Reox.png|350px]])
SUIT-006 Q mt D071 + ([[File:mt;1Q2;1Rot;1S;2D;(3Omy);4U;5Anox;6Ama.png|400px]])
Stopper\white PVDF\conical Shaft\central Port + ([[Image:30221-24 PVDF Stopper.jpg|right|18 … [[Image:30221-24 PVDF Stopper.jpg|right|180px]] '''Stopper\white PVDF\conical Shaft\central Port''': for closing the 2-mL [[O2k-chamber]], with one capillary and conical basis; including [[Volume-Calibration Ring]] (A or B) for volume adjustment (1.5 to 3.2 mL); 2 mounted O-rings ([[O-ring\Viton\12x1 mm]]).'''Discontinued '''[[O-ring\Viton\12x1 mm]]). '''Discontinued ''')
TIP2k-Needle Spacer + ([[Image:80600-24 Spacers f. TIP2k needle.JPG|right|180px]]'''TIP2k-Needle Spacers''' for microinjection TIP2k needle, silicone stops (200/Pkg.) with mounting tool.)
ISE-Ca2+ Membranes + ([[Image:Ca2+ membranes.jpg|right|180px]]'''ISE-Ca2+ Membranes''': PVC, 4 mm diameter, box of 5 membranes. To be used with the [[O2k-TPP+ ISE-Module]].)
O2k-Chamber Holder + ([[Image:Chamber holder PVDF Stopper.jpg|ri … [[Image:Chamber holder PVDF Stopper.jpg|right|180px]]'''O2k-Chamber Holder''' (blue POM) for PVDF or PEEK stoppers (2-mL [[O2k-chamber]]), with [[O-ring\Viton\18x2 mm]] and [[V-ring\30-35-4.5 mm]]. Two units of this item are standard components mounted on the [[O2k-Main Unit]].[[O2k-Main Unit]].)
Cover-Slip\black + ([[Image:Cover-Slip_black.JPG|180px|right]] … [[Image:Cover-Slip_black.JPG|180px|right]] A '''Cover-Slip''' should be placed on top of the O2k-Stopper to minimize contamination and evaporation of liquid extruding from the capillary of the stopper. The Cover-Slips do not exert any direct effect on oxygen backdiffusion into the [[O2k-chamber]]. Use the the '''Cover-Slip\black''' to avoid light penetration and disturbance of fluorescence signals and generally for optical measurements in the O2k.rally for optical measurements in the O2k.)
SmartPOS + ([[Image:DSC_0491_SmartPOS.jpg|right|180px] … [[Image:DSC_0491_SmartPOS.jpg|right|180px]]The '''SmartPOS''' is a [[polarographic oxygen sensor]] (POS), for O2k-Series J and XB onward, with an amperometric mode of operation. The SmartPOS combines the previous [[OroboPOS]] and [[OroboPOS-Connector]] and is automatically recognized by the software DatLab 8. Combination of the previously separated components in one piece, protects the electrical connections. The SmartPOS is, like the [[OroboPOS]], a Clark type polarographic oxygen sensor (POS), which remains the gold standard for measuring dissolved oxygen in biomedical, environmental and industrial applications over a wide dynamic oxygen range. The SmartPOS meets the highest quality criteria in terms of linearity, stability and sensitivity of the signal.The sensor consists of a gold cathode, a silver/silverchloride anode and a KCl electrolyte reservoir separated from the sample by a 25 µm membrane (FEP). With application of a polarization voltage (0.8 V), a current is obtained as an amperometric signal.ent is obtained as an amperometric signal.)