Department of Biomolecular Electronics

Implementation acts:

  • Act of implementation of the results of research obtained during the performance of scientific and research work on the topic: “Development of a portable express monitoring system for the ratio of lactate and pyruvate in the blood for urgent needs of clinical diagnostics” at the SE “Research and Production Center “Energoimpulse”” - (link)
  • Act of implementation of the results of research obtained during the performance of scientific and research work on the topic: "Development of a portable express monitoring system for the ratio of lactate and pyruvate in the blood for urgent needs of clinical diagnostics" at the I.Ya. Horbachevskyi Ternopil National Medical University of the Ministry of Health of Ukraine at the Department of Medical Physics of Diagnostic and Medical Equipment - (link)
  • Act on the implementation of the results of the implementation of the BIONANOSENS project at Institute Molecular Biology and Genetics of the National Academy of Sciences of Ukraine – (link)

Metrological methods:

2010:

  • 919-36-10 Method for preparing solutions of sucrose, glucose, lactose and maltose in a buffer solution with pH 7.4 and calculating the expanded uncertainty of their concentrations – (link)
  • 920-36-10 Method for preparing solutions of acetylcholine chloride and butyrylcholine chloride in a buffer solution with pH 7.4 and calculating the expanded uncertainty of their concentrations – (link)
  • 921-36-10 Method for preparing solutions of mercury (II) nitrate and trichlorfon in a buffer solution with pH 7.4 and calculating the expanded uncertainty of their concentrations – (link)
  • 922-36-10 Method for preparing aqueous solutions of urea and creatinine and calculating the expanded uncertainty of their concentrations – (link)
  • 923-36-10 Method for preparing solutions of ethanol, glycerin and sodium lactate in a buffer solution with pH 7.2 and calculating the expanded uncertainty of their concentrations – (link)
  • 924-36-10 Method for preparing formaldehyde solutions and calculating the expanded uncertainty of their concentration – (link)
  • 926-36-10 Method for preparing solutions of procatechin and phenol and calculating the expanded uncertainty of their concentrations – (link)

2011:

  • 970-36-11 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of pyrocatechin in water – (link)
  • 973-36-11 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of glucose in juices and wines – (link)
  • 974-36-11 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of urea in the blood serum of patients with renal failure – (link)
  • 975-36-11 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of steroidal glycoalkaloids in potatoes – (link)
  • 976-36-11 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of trichlorophene in water – (link)
  • 977-36-11 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of formaldehyde in pharmaceuticals and detergents – (link)

2012:

  • 1045-36-12 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of sucrose in beverages – (link)
  • 1046-36-12 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of glucose in blood serum – (link)
  • 1047-36-12 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of lactate in wine and wine products – (link)
  • 1048-36-12 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of lactose in dairy products – (link)
  • 1049-36-12 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of ethanol in wine and wine products – (link)
  • 1050-36-12 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of creatinine in dialysis fluid – (link)
  • 1051-36-12 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of phenol in water – (link)

2013:

  • 081/36-0857-13 Aqueous solution of L-arginine. Method of preparation and calculation of expanded uncertainty of its concentration – (link)
  • 081/36-0858-13 Solutions of heavy metal ions (Hg, Cu, Pb, Cd, Cr, Fe, Zn, Co, Sn, Ag, Sr, Ni) in a buffer solution with pH 7.4. Method of preparation and calculation of expanded uncertainty of its concentration – (link)
  • 081/36-0859-13 Solutions of aflatoxins (B1, B2, G1, G2, M1) in a buffer solution with pH 7.4. Method of preparation and calculation of expanded uncertainty of its concentration – (link)
  • 081/36-0860-13 Solutions for the preparation of gold nanoparticles. Method of preparation and calculation of the expanded uncertainty of its concentration – (link)
  • 081/36-0861-13 Laboratory prototype of a biosensor system based on acetylcholinesterase, designed for the determination of heavy metal ions in aqueous solutions. Calibration method – (link)
  • 081/36-0862-13 Laboratory prototype of the device designed to measure the molar concentration of protatechine in wastewater. Calibration method – (link)
  • 081/36-0863-13 Laboratory prototype of the device designed to measure the molar concentration of maltose in aqueous solutions. Calibration method – (link)
  • 081/36-0864-13 Laboratory prototype of the device designed to measure the molar concentration of urea in dialysis fluid. Calibration method – (link)

2014:

  • МК 1174-36-14 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of aflatoxin B1 - (link)
  • МК 1175-36-14 Method for preparing fructose solution and calculating expanded uncertainty of its concentration – (link)
  • МК 1176-36-14 Method for preparing an aqueous solution of uric acid and calculating the expanded uncertainty of its concentration – (link)
  • МК 1177-36-14 Method for preparing a bisphenol A solution and calculating the expanded uncertainty of its concentration – (link)

2015:

  • 081/36-1011-15 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of bisphenol – (link)
  • 081/36-1013-15 Method for preparing a patulin solution and calculating the expanded uncertainty of its concentration – (link)
  • 081/36-1014-15 Method for preparing a reserpine solution and calculating the expanded uncertainty of its concentration – (link)
  • 081/36-1015-15 Method for preparing a d-lactate solution and calculating the expanded uncertainty of its concentration – (link)

2016:

  • 36/1212-16 Method of calibration of a laboratory prototype of a device designed to measure the molar concentration of uric acid in a model solution - (link)
  • 36/1213-16 Methodology for calibrating a laboratory prototype of a device designed to measure phenol concentration in wastewater samples - (link)
  • 36/1214-16 Method for preparing oligonucleotide solutions for recording biospecific reactions and calculating the expanded uncertainty of their concentration - (link)

2017:

  • 36/1047-17 Methodology for calibrating a laboratory prototype of a device designed to measure the molar concentration of patulin – (link)
  • 36/1048-17 Method for preparing EDTA and cysteine solutions and calculating the expanded uncertainty of their concentrations – (link)
  • 36/1049-17 Method for preparing a solution of hydrate disodium salt of adenosine-5'-triphosphate and calculating the expanded uncertainty of its concentrations – (link)

2018:

  • 36/900-18 Method for preparing a creatine kinase solution with appropriate activity and a method for estimating the expanded uncertainty of its activity value – (link)
  • 36/901-18 Method for preparing zearalenone solutions in an organic solvent and a method for estimating the expanded uncertainty of the molar concentration of these solutions – (link)
  • 36/902-18 Methodology for calibrating a laboratory prototype of a device designed to measure the concentration of adenosine-5’-triphosphate – (link)
  • 36/903-18 Methodology for measuring the concentration of adenosine-5'-triphosphate and the method for estimating the expanded uncertainty of the measurement result – (link)

2019:

  • 36/866-19 Methodology for measuring the concentration of aflatoxin B1 in aqueous solutions and the method for estimating the expanded uncertainty of the measurement result – (link)
  • 36/867-19 Methodology for bisensor measurement of arginine concentration and method for estimating expanded uncertainty of measurement result – (link)
  • 36/868-19 Method for preparing a glutamate solution and calculating the expanded uncertainty of its concentrations – (link)
  • 36/869-19 Method for preparing pyruvate solution and calculating expanded uncertainty of its concentrations – (link)

2020:

  • 36-4/20488 Method for preparing ajmalin solution and calculating the expanded uncertainty of its concentrations – (link)
  • 36-4/20489 Methodology for measuring the concentration of zearalenone in aqueous solutions and method for estimating the expanded uncertainty of the measurement result – (link)
  • 36-4/20490 Methodology for biosensor measurement of lactate concentration in blood and method for estimating expanded uncertainty of measurement result – (link)
  • 36-4/20491 Methodology for biosensor measurement of glutamate concentration and method for estimating expanded uncertainty of measurement result – (link)

2021:

  • МВ 003-36-2021 Methodology for biosensor measurement of pyruvate concentration in biological fluids and method for estimating expanded uncertainty of measurement result – (link)
  • МВ 004-36-2021 Methodology for biosensor measurement of paraoxon-methyl concentration in aqueous solutions and method for estimating expanded uncertainty of measurement result – (link)
  • МВ 005-36-2021 Methodology for bisensor measurement of lactate concentration in sweat and method for estimating expanded uncertainty of measurement result – (link)

2022:

  • МВ 007-36-2022 Methodology for measuring the molar concentration of bisphenol A in aqueous solutions using a smartphone and a method for estimating the expanded uncertainty of the measurement result – (link)
  • МВ 008-36-2022 Method for preparing surfactant solutions (sodium dodecyl sulfate and benzalkonium chloride) and calculating the expanded uncertainty of its concentration – (link)
  • МВ 009-36-2022 Method of preparing solutions of aspartate aminotransferase and alanine aminotransferase with the appropriate activity and a method for estimating the expanded uncertainty of its activity value – (link)