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Author: Pawasuth Saengdee

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    Development of ion sensitive field effect transistor device for real time growth detection of mycobacterium tuberculosis
    (Mahidol University. Mahidol University Library and Knowledge Center, 2023) Pawasuth Saengdee; Chamras Promptmas; Watchara Kasinrerk; Wutthinan Jeamsaksiri
    The development of rapid and highly reliable sensor is essential for preventing the transmission of M. tuberculosis which is a major health issue in developing countries. In this study, the ion sensitive field effect transistor (ISFET) was developed... into the culture system to obtain a more effective M. tuberculosis sensor.
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    Optimization of 3-aminopropyltriethoxysilane functionalization on silicon nitride surface for biomolecule immobilization
    (2020-01-15) Pawasuth Saengdee; Chamras Promptmas; Surachoke Thanapitak; Awirut Srisuwan; Apirak Pankiew; Nutthaphat Thornyanadacha; Woraphan Chaisriratanakul; Ekalak Chaowicharat; Wutthinan Jeamsaksiri; Mahidol University; Thailand National Electronics and Computer Technology Center
    to demonstrate the agglomeration of APTES molecule. Moreover, ion sensitive field effect transistor (ISFET) was employed as a biosensor model to demonstrate the effect between surface thickness and sensitivity of biosensor. The results show that the APTES... property, chemical bonding composition and surface thickness, respectively. In addition, biotin was used as a model to determine the effectiveness of APTES modification condition by coupling with glutaraldehyde (GA). The Alexa Flour 488 conjugated
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    Surface modification of silicon dioxide, silicon nitride and titanium oxynitride for lactate dehydrogenase immobilization
    (2015-05-05) Pawasuth Saengdee; Woraphan Chaisriratanakul; Win Bunjongpru; Witsaroot Sripumkhai; Awirut Srisuwan; Wutthinan Jeamsaksiri; Charndet Hruanun; Amporn Poyai; Chamras Promptmas; Mahidol University; Thai Microelectronics Center (TMEC)
    among tested surfaces, with both APTES and APTES-GA modification. However, TiON and Si3N4surfaces could be used as alternative candidate materials in the preparation of ion-sensitive field-effect transistor (ISFET) based biosensors, including lactate
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    A silicon nitride ISFET based immunosensor for Ag85B detection of tuberculosis
    (2016-10-21) Pawasuth Saengdee; Woraphan Chaisriratanakul; Win Bunjongpru; Witsaroot Sripumkhai; Awirut Srisuwan; Charndet Hruanun; Amporn Poyai; Ponrut Phunpae; Supansa Pata; Wutthinan Jeamsaksiri; Watchara Kasinreak; Chamras Promptmas; Mahidol University; Thailand National Science and Technology Development Agency; Chiang Mai University
    © 2016 The Royal Society of Chemistry. A silicon nitride Ion Sensitive Field Effect Transistor (ISFET) based immunosensor was developed as a low-cost and label-free electrical detection for the detection of antigen 85 complex B (Ag85B). The sensing