บุคลากรสายวิชาการ

รศ.ดร.ภญ. นันทนา นุชถาวร รศ.ดร.ภญ. นันทนา นุชถาวร nantana.nuc@mahidol.ac.th nantana.nuc@mahidol.ac.th อาจารย์ประจำภาควิชาเภสัชเคมี

2021

1. A rapid stability indicating HPLC method for determination of quetiapine fumarate in tablets and extemporaneous formulations

   Nuchtavorn N*, Leanpolchareanchai J, Chanton D, Supapsophon P, Chongruchiroj S, Chatmapanrangsee J, Suksiriworapong J*. Pharmaceutical Chemistry Journal 2021; 55(8): 845-854.
   
   

2. PLS-regression-model-assisted Raman spectroscopy for vegetable oil classification and non-destructive analysis of alpha-tocopherol contents of vegetable oils

   Moe Htet T.T., Cruz J., Khongkaew P., Suwanvecho C., Suntornsuk L., Nuchtavorn N., Limwikrant W., Journal of Food Composition and Analysis 2021; 103: 104119
   
   

2020

1. A simple and rapid microplate fluorescence determination of adamantanes in pharmaceutical formulations

   Nuchtavorn N, Sudprasert C, Yurai P, Suntornsuk L*. Chemical papers 2020; 74(6): 1859-1865.
   
   

2. Antiviral dosing modification for coronavirus disease 2019-infected patients receiving extracorporeal therapy

   Chaijamorn W*, Rungkitwattanakul D, Nuchtavorn N, Charoensareerat T, Pattharachayakul S, Sirikun W, Srisawat N. Crit care explor 2020; 2(10): e0242.
   
   

3. Distance-based paper device using polydiacetylene liposome as a chromogenic substance for rapid and in-field analysis of quaternary ammonium compounds

   Chutvirasakul B, Nuchtavorn N, Macka M, Suntornsuk L*. Analytical and bioanalytical chemistry 2020; 412(13): 3221-3230.
   
   

4. Exosome aggregation mediated stop-flow paper-based portable device for rapid exosome quantification

   Chutvirasakul B, Nuchtavorn N, Suntornsuk L*, Zeng Y. Electrophoresis 2020; 41(5-6): 311-318.
   
   

5. Paper-based molecularly imprinted-interpenetrating polymer network for on-spot collection and microextraction of dried blood spots for capillary electrophoresis determination of carbamazepine

   Nuchtavorn N, Dvořák M*, Kubáň P. Analytical and bioanalytical chemistry 2020; 412(12): 2721-2730.
   
   

6. Paper-based sol-gel thin films immobilized cytochrome P450 for enzyme activity measurement

   Nuchtavorn N*, Leanpolchareanchai J, Suntornsuk L, Macka M. Analytica chimica acta 2020; 1098: 86-93.
   
   

2019

1. Cost effective paper-based colorimetric devices for a simple assay of dopamine in pharmaceutical formulations using 3,3’,5,5’-tetramethylbenzidine- silver nitrate as a chromogenic reagent

   Manmana Y, Chutvirasakul B, Suntornsuk L, Nuchtavorn N Pharmaceutical Sciences Asia 2019; 46 (4), 270-277
   
   

2018

1. High power deep UV-LEDs for analytical optical instrumentation

   Li Y, Dvořák M, Nesterenko PN, Nuchtavorn N, Macka M.* Sensors and Actuators, B: Chemical 2018; 255: 1238-1243
   
   

2. In-capillary derivatization with fluorescamine for the rapid determination of adamantane drugs by capillary electrophoresis with UV detection

   Prapatpong P., Nuchtavorn N., Macka M., Suntornsuk L. Journal of Separation Science 2018; (Article in Press)
   
   

2017

1. Brompheniramine as a novel probe for indirect UV detection and its application for the capillary electrophoresis of adamantane drugs

   Prapatpong P, Prutthiwanasan B, Nuchtavorn N, Buranaphalin S, Suntornsuk L*. Journal of Separation Science 2017; 40(5): 1184-1192
   
   

2016

1. A novel highly flexible, simple, rapid and low-cost fabrication tool for paper-based microfluidic devices (μPADs) using technical drawing pens and in-house formulated aqueous inks

   Nuchtavorn N, Macka M*. Analytica Chimica Acta 2016; 919: 70-77
   
   

2. Antioxidant and anti-inflammatory activites of Clerodendrum leaf extracts collected in Thailand

   Phosrithong N, Nuchtavorn N. European Journal of Integrative Medicine 2016; 8: 281-285
   
   

2015

1. Miniaturised medium pressure capillary liquid chromatography system with flexible open platform design using off-the-shelf microfluidic components

   Li Y, Dvořák M, Nesterenko PN, Stanley R, Nuchtavorn N, Krčmová LK, Aufartová J, Macka M*. Analytica Chimica Acta. 2015; 896: 166-176
   
   

2. Recent applications of microchip electrophoresis to biomedical analysis.

   Nuchtavorn N, Suntornsuk W, Lunte SM, Suntornsuk L. Journal of Pharmaceutical and Biomedical Analysis 2015; 113: 72-96
   
   

2013

1. Exploring chip-capillary electrophoresis-laser-induced fluorescence field-deployable platform flexibility: Separations of fluorescent dyes by chip-based non-aqueous capillary electrophoresis

   Nuchtavorn N, Smejkal P, Breadmore MC, Guijt RM, Doble P, Bek F, Foret F, Suntornsuk L, Macka M*. Journal of Chromatography A 2013; 1286: 216-221
   
   

2. Potential of capillary electrophoresis (CE) and chip-CE with dual detection (capacitively-coupled contactless conductivity detection (C4D) and fluorescence detection) for monitoring of nicotine and cotinine derivatization

   Nuchtavorn N, Ryvolova M, Bek F, Macka M, Phechkrajang C, Suntornsuk L*. Analytical Sciences 2013; 29(3): 339-344
   
   

2012

1. Rapid separations of nile blue stained microorganisms as cationic charged species by chip-CE with LIF

   Nuchtavorn N, Bek F, Macka M, Suntornsuk W, Suntornsuk L*. Electrophoresis 2012; 33(9-ต.ค.): 1421-1426
   
   

2. Simultaneous analysis of biologically active pyridines in pharmaceutical formulations by capillary zone electrophoresis

   Nuchtavorn N, Suntornsuk L. J Chromatogr Sci 2012; 50(2): 151-156
   
   

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หมายเหตุ: ชื่อที่ใช้ในการทำวิจัยของ รศ.ดร.ภญ. นันทนา นุชถาวร ได้แก่ Nuchtavorn N ;