รองศาสตราจารย์ ดร. บุษยรัตน์ ธรรมพัฒนกิจ
- ห้อง 1536 อาคารมหามกุฎ ภาควิชาเคมี คณะวิทยาศาสตร์ จุฬาลงกรณ์มหาวิทยาลัย แขวงวังใหม่ เขตปทุมวัน กทม. 10330
- 02-2187642
การศึกษา
- [2003] Ph.D. (Chemsitry), Chulalongkorn University, Thailand
- [1995] B.Sc. (Chemsitry), Chulalongkorn University, Thailand
ประสบการณ์การทำงาน
- [2001] Training Research from Thailand Research Fund, under supervision Prof. Paul D. Beer, University of Oxford, Oxford, UK
- [1995] Training Researcher Scholarship from France Government, under supervision Dr. Française Arnaud, Universite Louis Pastueur, Strasbourg, France
หัวข้องานวิจัยในปัจจุบัน
- Our works encompasse many aspects of supramolecular chemistry, particularly in applications such as the design and synthesis of molecular sensors for anions, cations, amino acids, monosaccharides, nucleotides and biogenic amines. Molecular sensors or chemosensors are molecules which are capable to recognize and to give signals for specific analytes in the real time. Signaling is given by the cooperation of the basic function of the components such as a binding site and a signaling unit. Molecular recognition is a process involved interactions between host and guest which do not define only binding event but this process requires the selectivity between the host and the guest. The molecular recognition of biological targets has formed a major part of host-guest chemistry. Moreover, the hybrid organic/inorganic based on nanomateries for sensing purposed have been a great interests in our researches.
ทุนการศึกษาและรางวัล
- [2011] Middle Scientist Awards from Faculty of Science, Chulalongkorn University
ผลงานตีพิมพ์
•Fluorescent-based micellar incorporated hydrogel materials for selective determination of long-chain aldehydes. Microchimica Acta.
2024. Cited 0
•Bifunctional electrocatalyst for oxygen reduction/evolution reactions based on controlled morphology of nickel–cobalt nanoprickly particles composited by graphene and carbon nanotube. Journal of Materials Science. 2024. Cited 0
•Supramolecular self-assembled polymeric nanospheres based on hydrazino naphthalimide functionalised pillar[5]arene for long chain aldehyde detection. Chemical Communications. 2023. Cited 4
•A fluorescence-based sweat test sensor in a proof-of-concept clinical study for COVID-19 screening diagnosis. Analyst. 2023. Cited 7
•Helicene-Hydrazide Encapsulated Ethyl Cellulose as a Potential Fluorescence Sensor for Highly Specific Detection of Nonanal in Aqueous Solutions and a Proof-of-Concept Clinical Study in Lung Fluid. ACS Applied Materials and Interfaces. 2022. Cited 4
Full list
•Bifunctional electrocatalyst for oxygen reduction/evolution reactions based on controlled morphology of nickel–cobalt nanoprickly particles composited by graphene and carbon nanotube. Journal of Materials Science. 2024. Cited 0
•Supramolecular self-assembled polymeric nanospheres based on hydrazino naphthalimide functionalised pillar[5]arene for long chain aldehyde detection. Chemical Communications. 2023. Cited 4
•A fluorescence-based sweat test sensor in a proof-of-concept clinical study for COVID-19 screening diagnosis. Analyst. 2023. Cited 7
•Helicene-Hydrazide Encapsulated Ethyl Cellulose as a Potential Fluorescence Sensor for Highly Specific Detection of Nonanal in Aqueous Solutions and a Proof-of-Concept Clinical Study in Lung Fluid. ACS Applied Materials and Interfaces. 2022. Cited 4
Full list