Purposes: Use for characterization of morphology of materials’ surface at various courses such as electrochemistry, materials characterization techniques, synthesis nanomaterials techniques

Specifications:

• High-resolution imaging in both air and fluid
• Single closed-loop scanner to span the range from atomic resolution scans up to much larger micron-scale scans.
• Ease of use and a rugged, reliable design
• Easily upgradable for additional functionality.
• A wide rage of modes and accessories

2. UV-Vis Spectrometer

To characterize optical properties of materials, it can be used in various courses such as electrochemistry, materials characterization techniques, Synthesis of nanomaterials, analytical chemistry, and Fundamentals of Materials Science.

For the Practical work:

• Optical properties of Materials.
• Measuring absorption and Transmittance of synthesized organic solution

3. Plasma cleaner

Aims: This can be used in various courses such as electrochemistry, materials characterization techniques, Synthesis of nanomaterials, analytical chemistry.

For the practical work:

– Electrochemical synthesis of nanomaterials.

– Electrochemical characterization of organic materials”

Specifications: 

Plasma: oxygen (O2), argon (Ar), and oxygen/argon mixtures (O2/Ar).

Gas supply: 2 gas channels via MFCs

– Adjustable power up to 100 W.

– Manual control of the pressure and gas flow (10-100 sccm).

– Vacuum chamber of borosilicate glass (diameter 105 mm, depth 300 mm, volume approx. 2.6 )L

4. Spin-Coater

Purposes: It is used to form a thin film at different spin rotation rate.

Specifications: Programable, friendly-user.

Maximum spin speed 12000rpm

Maximum ramp: 30,000rpm/s

Maximum substrate size accommodated by bowl  200mm

5. FITR

Specifications:

Spectral range: 15 to 27,000 cm-1

6. Zeta Meter 4.0

Purposes: measures electrophoretic mobility and zeta potential. The basic instrument is for aqueous suspending liquids but accessories are available for working with organic suspending liquids.

7. Contact Angle

Purpose: Measure the contact angle on different surfaces

8. Kelvin Probe

Aims: to measure the contact potential difference (CPD) between a probe gold surface and a sample. The contact potential is the equilibrium potential that is established between the surfaces of two materials when electrons can flow from one material to the other.

Specifications:

• Tip material/diameter: Standard 2 mm gold tip
• Work function resolution: 1-3mV
• Sample scan size: 50×50 mm
• 3D sample area: Square
• Height Control ( auto): 25mm

9. High resolution Microscope

10. Microfluidic system

Description: It includes a Syringe pump, microscope, high-speed camera integrated computer.

Purpose: to utilize for multiple purposes related to microfluidics.

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The post Facilities appeared first on University of Science and Technology of Hanoi.

1. Assoc.Prof. Nguyen Van Quynh – Director

Selected publications 

1. Vuong, A. K.Nguyen, T. X.Wei, L.Van Pham, H.Nguyen, N. H.Pham, N. H.Van Nguyen, Q.Vuong, O. K. T.Vu, K. H.,Zhen, X., Large-scale production and magnetic properties of Sn-substituted MnBi rare-earth-free melt-spun ribbons. Applied Physics A 2024, 130 (9), 630.
2. Thanh, T. D.Van Quynh, N.Nha, T. T. N.Nam, P. H.,Phong, P. T., Correlation between critical magnetic behavior and griffiths phase in ferromagnetic La0. 7Sr0. 3Mn1− xFexO3 (x= 0.05) nanoparticle. Physica Scripta 2023, 98 (10), 105533.
3. Nguyen, L. H.Nam, N. H.Van Tuan, D.Truong, N. X.Van Quynh, N.Tuyet, P. T. H.Thu, H. P.Phong, P. T.,Nam, P. H., Effect of Gd substitution on structure, optical and magnetic properties, and heating efficiency of Fe3O4 nanoparticles for magnetic hyperthermia applications. Journal of Alloys and Compounds 2023, 968, 172205.
4. Nguyen, L. H.Nam, N. H.Truong, N. X.Van Tuan, D.Van Quynh, N.Tri, N. L. M.Phong, P. T.,Nam, P. H., Evaluation of structural, optical, and magnetic properties of Gd doped MnFe2O4 nanoparticles. Ceramics International 2023, 49 (24), 40981-40989.
5. Le, Q.-H.Tran, T.-U.Dinh, V.-T.Nguyen, H.-N.Pham, H.-N.Nguyen, X.-T.Nguyen, L.-L.,Nguyen, V.-Q., Fabrication of an inverse opal structure of a hybrid metal-conducting polymer for plasmon-induced hyperthermia applications. RSC advances 2023, 13 (9), 6239-6245.
6. Benaoudia, D.Nguyen, V.-Q.Bennevault, V.Martin, P.Montel, F.Guégan, P.,Lacroix, J.-C., Direct Electrografting of Poly (2-alkyl-2-oxazoline) s on Gold, ITO, and Gold Nanoparticles for Biopassivation. ACS Applied Nano Materials 2023, 6 (18), 16267-16275.
7. Tung, D. T.Nguyet, H. M.Linh, N. T. N.Dung, N. T.Van Quynh, N.Van Dang, N.Vernardou, D.Le, T. K.,Minh, P. N., High electrochemical performance of ink solution based on manganese cobalt sulfide/reduced graphene oxide nano-composites for supercapacitor electrode materials. RSC advances 2022, 12 (31), 20182-20190.
8. Thu, N. M.Van Tuan, D.Ngan, D. T. T.Nam, P. H.,Van Quynh, N., Silver nanoparticles decorated a hybrid of PANI/MoS2 and PANI/WO3 as potential catalysts for direct photoelectrochemical oxidation of glucose. Vietnam Journal of Chemistry 2022, 60 (5), 597-605.
9. Phong, L.Dang, N.Dang, N.Nguyen, V.-Q.Manh, D.Nam, P.Nguyen, L.,Phong, P., Structural, optical and conductivity properties in tetragonal BaTi 1− x Co x O 3 (0≤ x≤ 0.1). RSC advances 2022, 12 (25), 16119-16130.
10. Nguyen, T. X.Vuong, A. K.Dang, N. T. T.Nguyen, N. H.Pham, N. H.Van Quynh, N.Van Tuan, D.,Van Nguyen, V., Melt Spun Ribbons: Microstructures and Magnetic Properties. Communications in Physics 2022, 32 (3), 285-285.
11. Le, Q.-H.Nguyen, T.-L.Dinh, V.-T.Nguyen, H.-N.Pham, H.-N.Nguyen, T.-A.Nguyen, L.-L.,Nguyen, V.-Q., Electrosynthesized nanostructured molecularly imprinted polymer for detecting diclofenac molecule. Journal of Electroanalytical Chemistry 2022, 921, 116709.
12. Dinh, Q. T.Nguyen, H. N.Nguyen, T. A.Nguyen, X. T.Nguyen, L. L.Dinh, T. M. T.Pham, H. N.,Nguyen, V. Q., Synthesis of magneto-plasmonic hybrid material for cancer hyperthermia. Journal of Military Science and Technology 2022, (81), 128-137.
13. Dat, L. T.Nguyen, L. H.Nam, N. H.Van, T. D.Tam, L. T.Truong, N. X.Nguyen, V.-Q.Phong, P. T.,Nam, P. H., Dependence of specific absorption rate on concentration of Fe3O4 nanoparticles: from the prediction of Monte Carlo simulations to experimental results. Journal of Nanoparticle Research 2022, 24 (11), 214.
14. Tung, D. T.Nguyet, H. M.Dung, N. T.Dung, H. T.Yen, N. T.Thanh, N. B.Hong, P. N.Van Hoi, P.Van Quynh, N.,Minh, P. N., Pulse electrodeposition of polyaniline/Mn-Fe binary metal hydroxide composite cathode material for a Zn-ion hybrid supercapacitor. Journal of Electronic Materials 2021, 50 (8), 4407-4414.
15. Tung, D. T.Dung, H. T.Dung, N. T.Hong, P. N.Nguyet, H. M.Van-Quynh, N.Van Chuc, N.Trung, V. Q.,Minh, P. N., Freeze gelation 3D printing of rGO-CuCo2S4 nanocomposite for high-performance supercapacitor electrodes. Electrochimica Acta 2021, 392, 138992.
16. Thanh, C. T.Binh, N. H.Duoc, P. N. D.Thu, V. T.Van Trinh, P.Anh, N. N.Van Tu, N.Tuyen, N. V.Van Quynh, N.,Tu, V. C., Electrochemical sensor based on reduced graphene oxide/double-walled carbon nanotubes/octahedral Fe 3 O 4/chitosan composite for glyphosate detection. Bulletin of Environmental Contamination and Toxicology 2021, 106, 1017-1023.
17. Nha, T.Nam, P.Phuc, N.Nguyen, V.Nam, N.Manh, D.Tam, L.Linh, N.Khanh, B.,Lu, L., Sensitive MnFe 2 O 4–Ag hybrid nanoparticles with photothermal and magnetothermal properties for hyperthermia applications. RSC advances 2021, 11 (48), 30054-30068.
18. Nguyen, L.-L.Le, Q.-H.Pham, V.-N.Bastide, M.Gam-Derouich, S.Nguyen, V.-Q.,Lacroix, J.-C., Confinement effect of plasmon for the fabrication of interconnected aunps through the reduction of diazonium salts. Nanomaterials 2021, 11 (8), 1957.
19. Nguyen, L. L.Trinh, Q. T.Tu, Q. B.Nguyen, V. Q.,Hoang, T. H. C., Effect of Geometrical Properties on Localized Surface Plasmon Resonance of Gold Nanoparticles. Communications in Physics 2021, 31 (4), 369-369.
20. Nguyen, L.Phuc, N.Manh, D.Nam, N.Truong, N.Quynh, N.Phong, P.,Nam, P., Size-dependent magnetic heating of MnFe2O4 nanoparticles. Journal of Electronic Materials 2021, 50 (9), 5318-5326.
21. Nguyen, L.Le, Q.Pham, V.Bastide, M.Gam-Derouich, S.Nguyen, V.,Lacroix, J., Confinement Effect of Plasmon for the Fabrication of Interconnected AuNPs through the Reduction of Diazonium Salts. Nanomaterials 2021, 11, 1957. s Note: MDPI stays neutral with regard to jurisdictional claims in published …: 2021.
22. Ngan, L.Dang, N.Nam, P.Khan, D.Nguyen, L.Bau, L.Dang, N.Nguyen, V.,Phong, P., Prediction of Magnetocaloric Effects of La 0.7 Sr 0.3 Mn 1-x Cu x O 3 Compounds (x= 0.08 and 0.12) Using a Phenomenological Model. Journal of Electronic Materials 2021, 50, 978-986.
23. Nam, P. H.Bach, T.Nam, N.Quynh, N.Truong, N.Manh, D.Nguyen, L.,Phong, P., Enhancement of specific absorption rate in CoO. 7ZnO. 3Fe2O4 and CoO. 5ZnO. 5Fe2O4 composite nanoparticles. Vietnam Journal of Science and Technology 2021, 59 (1), 30-39.
24. Nam, P.Phuc, N.Manh, D.Tung, D.Nguyen, V.Nam, N.Son, P.Bach, T.,Phong, P., Physical characterization and heating efficacy of chitosan-coated cobalt ferrite nanoparticles for hyperthermia application. Physica E: Low-dimensional Systems and Nanostructures 2021, 134, 114862.

Projects

1. Principle Investigator: “Integrating plasmonic substrate inside microfluidic channel for advanced SERS-based sensor.” – Goodd889 cá cược trực tuyến funding for establishing emerging RG from 1/2024 – 12/2026.
2. Principle Investigator: “Elaboration of a regular structure of a multifunctional hybrid organic-inorganic surface towards to controllable drug releasing, antibacterial film and plasmonic-based wound healing. – Funded by VAST from 7/2020 – 7/2022.
3. Principle Investigator: “Elaboration of hybrid immunosensor based on dual channel tranduction mechanisms: electrochemical and surface plasmon resonance detection for determining organic pollutants in waters” – Funded by NAFOSTED from 5/2017 đến 4/2019.
4. Principle Investigator: “Synthesis and characterization of the hybrid organic/inorganic materials. Applications in enzyme-based electrochemical biosensors for glucose detection” Funded by Goodd889 cá cược trực tuyến from 1/2017 – 12/2017
5. Science Secretary: “Development of a microfluidic system for investigating a large number of single cancer cells” – Funded by NAFOSTED từ 5/2018 – 5/2020, PI: TS. Nguyen Tien Anh – MTA
6. Key research member: “Smart garden for waste water treatment.” – Funded bt VAST from 6/2018 – 6/2020.
7. Key research member: ‘An investigation of plasmon induced nanolocalized chemistry, application in advanced nanofabrication” – Funded by Goodd889 cá cược trực tuyến From 4/2018 – 4/2020.
8. Key research member: “Lab on Prinited Circuited Board (PCB) for nanomaterials synthesis investigation” Funded by Goodd889 cá cược trực tuyến From 2021 – 2022.

2. Dr. Pham Van Nhat – Lecturer

1. Van N P, Villemejane J, Hamdi F, Mottet G, Dalmay C, Woytasik M, Martincic E, Dufour-Gergam E, Franşais O and Mir L M 2010 A high density microfluidic device for cell pairing and electrofusion Procedia Engineering 5 49–52
2. Pernot P, Bonneté F, Teychené S, Pham N, Radajewski D, Biscans B, Guillet P, Brennich M and Round A 2015 Crystallisation in situ – and much more – at the ESRF BioSAXS BM29 beamline Acta Crystallographica Section A Foundations and Advances 71 s143–4
3. Pham N, Radajewski D, Round A, Brennich M, Pernot P, Biscans B, Bonneté F and Teychené S 2017 Coupling high throughput microfluidics and small-angle X-ray scattering to study protein crystallization from solution Analytical chemistry 89 2282–7
4. Rodríguez-Ruiz I, Teychené S, Van Pham N, Radajewski D, Lamadie F, Llobera A and Charton S 2017 Broadcasting photonic lab on a chip concept through a low cost manufacturing approach Talanta 170 180–4
5. Rodríguez-Ruiz I, Radajewski D, Charton S, Phamvan N, Brennich M, Pernot P, Bonneté F and Teychené S 2017 Innovative High-Throughput SAXS Methodologies Based on Photonic Lab-on-a-Chip Sensors: Application to Macromolecular Studies Sensors 17 1266
6. Teychené S, Radajewski D, Pham N, Rodríguez-Ruiz I, Pernot P, Brennich M, Bizien T, Biscans B and Bonneté F 2017 Coupling microfluidics and SAXS to study the whole crystallization process Acta Crystallographica Section A Foundations and Advances 73 C611–C611
7. Nguyen T V, Pham N V, Mai H H, Duong D C, Le H H, Sapienza R and Ta V-D 2019 Protein-based microsphere biolasers fabricated by dehydration Soft Matter 15 9721–6
8. Nguyen L-L, Le Q-H, Pham V-N, Bastide M, Gam-Derouich S, Nguyen V-Q and Lacroix J-C 2021 Confinement Effect of Plasmon for the Fabrication of Interconnected AuNPs through the Reduction of Diazonium Salts Nanomaterials 11 1957
9. Anh N N, Chuc N V, Thang B H, Nhat P V, Hao N, Phuong D D, Minh P N, Subramani T, Fukata N and Trinh P V 2020 Solar Cell Based on Hybrid Structural SiNW/Poly(3,4 ethylenedioxythiophene): Poly(styrenesulfonate)/Graphene Global Challenges 4 2000010
10. Nguyen N A, Nguyen V H, Pham V N, Le T T, Nguyen V T and Pham V T 2021 Effect of graphene oxide concentration on the properties of silicon nanoholes/poly(3,4-ethylene dioxythiophene): poly(styrene sulfonate)/graphene oxide hybrid solar cell Adv. Nat. Sci: Nanosci. Nanotechnol. 12 035009
11. Pham V N, Radajewski D, Rodríguez-Ruiz I and Teychene S 2021 Microfluidics: A Novel Approach for Dehydration Protein Droplets Biosensors 11 460
12. Toan N V, Nhat P V and Duong T V 2021 Fabricating Microsphere Lasers by Protein Dehydration: A Fast Fabrication Method and Excellent Lasing Properties VNU Journal of Science: Mathematics – Physics 37
13. Editor A 2021 Effect of graphene oxide concentration on the properties of silicon nanoholes/poly(3,4-ethylene dioxythiophene): poly(styrene sulfonate)/graphene oxide hybrid solar cell Advances in Natural Sciences: Nanoscience and Nanotechnology 035009–035009
14. Van Duong T, Chung N X, Phan H N, Nguyen H T, Nguyen D D, Le L T and Van Pham N 2022 A facile way to optimize thermoelectric properties of SnSe thin films via sonication-assisted liquid-phase exfoliation J Mater Sci: Mater Electron

3. Dr. Vu Thi Thu – Lecturer

1. Nguyen Tien Hoang, Pham Do Chung, Vu Thi Thu Ha, Pham Truong Thuan Nguyen, Pham Thi Nam, Tran Quang Hung, Vu Thi Thu^*, Electrochemical preparation of monodisperse Pt nanoparticles on grafted 4-aminothiophenol supporting layer for enhanced MOR reaction, RSC Advances, 2022, 12, 8137. ISSN: 2046-2069
2. Vu Cam Nhung, Nguyen Ngoc Tien, Dau Thi Ngoc Nga, Pham Do Chung, Nguyen Thi Thanh Ngan, Vu Cam Tu, Vu Thi Thu^*, Facile preparation of uniform and stable AuNPs/rGO-PEDOT:PSS hybrid film for electrochemical detection of pharmaceutical residue in water, Journal of Nanoparticles Research, 2021, 24:34. ISSN (electronic) 1572-896X. ISSN (Print) 1388-0764
3. Manh B Nguyen, Dau Thi Ngoc Nga, Vu Thi Thu^*, Giang H Le, Vu Thi Hong Nhung, Pham Thi Hai Yen, Tuan A Vu, Dao Ngoc Nhiem, Vu Thi Thu Ha^*, Novel nanoscale Yb-MOF used as highly efficient electrode for heavy metal ions detection, Journal of Materials Science, 2021, 56, 8172–8185. ISSN (print): 0022-2461. ISSN (electronic): 1573-4803
4. Vu Thi Thu^*, Dau Thi Ngoc Nga, Ly Cong Thanh, Pham Do Chung, Pham Van Trinh, Nguyen Thi Thanh Ngan, Aqueous electrodeposition of (AuNPs/MWCNT-PEDOT) composite for high-affinity acetylcholinesterase electrochemical sensors, Journal of Materials Science, 2020, 55, 9070–9081. ISSN: 0022-2461 (print), 1573-4803 (electronic)
5. Dau Thi Ngoc Nga, Vu Viet Hung, Cao Thi Thanh, Nguyen Van Chuc, Ly Cong Thanh, Tran Dai Lam, Pham Truong Thuan Nguyen, Nguyen Thai Loc, Benoit Piro, Vu Thi Thu^*, In-situ electrochemically deposited Fe3O4 nanoparticles onto graphene nanosheets as amperometric amplifiers for electrochemical biosensing applications, Sensors and Actuators B, 2019, 283, 52-60. ISSN: 0925-4005.
6. Vu Thi Thu, Bui Quang Tien, Dau Thi Ngoc Nga, Ly Cong Thanh, Le Hoang Sinh, Le Cam Tu, Tran Dai Lam, Reduced graphene oxide-polyaniline film as enhanced sensing interface for the detection of loop-mediated-isothermal-amplification products by open circuit potential measurement, RSC Advances, 2018, 8, 25361-25367.  ISSN 2046-2069
7. Biochip for real-time monitoring of Hepatitis B Virus (HBV) by combined loop-mediated isothermal amplification and solution-phase electrochemical detection for real-time monitoring hepatitis B virus (HBV), Bui Quang Tien, Nguyen Thy Ngoc, Nguyen Thai Loc, Vu Thi Thu, Tran Dai Lam, Journal of Electronic Materials, 46(6), 2017, 3565-3571. ISSN: 0361-5235
8. Development of a PMMA electrochemical microfluidic device for carcinoembryonic antigen detection, Nguyen Van Anh, Hoang Van Trung, Bui Quang Tien, Nguyen Hai Binh, Cao Hong Ha, Nguyen Le Huy, Nguyen Thai Loc, Vu Thi Thu, Tran Dai Lam, Journal of Electronic Materials 45 (2016) 2455-2462. ISSN: 0361-5235
9. Fabrication of PDMS-based microfluidic devices: Application for synthesis of magnetic nanoparticles, VU Thi Thu, An Ngoc Mai, Bui Quang Tien, Hoang Van Trung, Phung Thi Thu, Nguyen Tran Thuat, Tran Dai Lam, Journal of electronic Materials 45 (2016) 2576-2581. ISSN: 0361-5235
10. A new and easy surface functionalization technnology for monitoring wettability in heterogeneous nano- and microfluidic devices, Thi Thu VU, Marc FOUET, Anne-Marie GUE, Jan SUDOR, Sensors and Actuators B: Chemical (2014), 196, pp 64-70. ISSN: 0925-4005.

4. Dr. Nguyen Thi Ngoc – Lecturer

1. Vu Nguyen Thuc, Ho Anh Tam, Do Thi Huong Giang, Nguyen Huu Duc, Nguyen Thi Ngoc, Vu Thi Ngoc Khanh, Le Van Lich, y and Van-Hai Dinh, Hierarchical geometric designs for Fe-based amorphous materials with tunable soft magnetic properties, Journal of Alloys and Compounds, (2021)
2. N. T. Ngoc, G. Agnus, S. Matzen, T. Maroutian , D. T. Huong. Giang, P. Lecoeur. Cantilever magnetoelectric PZT/Tb-Fe-Co resonators for magnetic sensing applications, APL Materials 9, 041103 (2021)
3. Do Thi Huong Giang, Ho Anh Tam, Vu Thi Ngoc Khanh,Nguyen Trong Vinh,Phung Anh Tuan, Nguyen Van Tuan,Nguyen Thi Ngoc  and Nguyen Huu Duc, Magnetoelectric Vortex Magnetic Field Sensors Based on the Metglas/PZT Laminates, Sensors   (2020)
4. N. H. Duc,B. D. Tu, N. T. Ngoc and D. T. Huong Giang, Metglas/PZT-magnetoelectric 2-D geomagnetic device for computing precise angular position, IEEE Transactions on Magnetics (2013)
5. D T Huong Giang, P A Duc, N T Ngoc, N T Hien and N H Duc, Enhancement of the magnetic flux in Metglas/PZT-magnetoelectric integrated 2D geomagnetic device, Journal of Magnetics/The Korean Magnetics Society/Korea (2012)
6. D.T.Huong Giang, P.A. Duc, N.T. Ngoc, N.T. Hien, and N.H. Duc, Spatial angular positioning device with three-dimensional magnetoelectric sensors, Review of scientific instrument/AIP Publishing/America, (2012)
7. D.T. Huong Giang, P.A. Duc, N.T. Ngoc and N.H. Duc, Geomagnetic sensors based on Metglas/PZT laminates, Sensor and Actuator A: Physics/Elsevier, B.V/Netherlands, 2012

5. Dr. Nguyen Luong Lam- Lecturer

1. Nguyen, L.-L. ; Le, Q.-H. ; Pham, V.-N. ; Bastide, M. ; Gam-Derouich, S. ; Nguyen, V.-Q.; Lacroix, J.-C. Confinement Effect of Plasmon for the Fabrication of Interconnected AuNPs through the Reduction of Diazonium Salts. Nanomaterials 2021, 11, 1957.

2. Minh Thi Hong Nguyen, Lam Luong Nguyen, Tae-Hee Kim, Won-Kyo Jung and Phuong Thi Mai Nguyen*. Berberine Loaded Nanoparticles Induce Apoptosis in Human Fibrosarcoma Cells, Chiang Mai J. Sci. 2021; 48(1)
3. Van Quynh, N., Minh, N.B., Thanh, D.T.M., Lam, N.L. and Anh, N.T. (2020), Electrochemical deposition of gold nanoparticles-based plasmonic catalyst for glucose oxidation. VJCH, 58: 785-791
4. Nguyen PT, Nguyen MT, Quach LT, Nguyen PT, Nguyen LL, Quyen DV. Antibiofilm activity of alpha-mangostin loaded nanoparticles against Streptococcus mutans. Asian Pac J Trop Biomed 2020;10:325-32
5. C. T. Ha, N. T. H. Lien, N. D. Anh and N. L. Lam, Journal of Electronic Materials 2017, 46, 6843-6847. DOI: 10.1007/s11664-017-5743-y
6. L. L. Nguyen, R. Guillot, J. Laisney, L. Rechignat, S. Bedoui, G. Molnar, E. Riviere and M.-L. Boillot, New Journal of Chemistry 2015, 39, 1603-1610.
7. Tran Thi Duc, Nguyen Luong Lam, Tran Xuan Hoai, Nguyen Thi Hue, Nguyen Trong Tinh, Enhanced Photocatalytic Activity of nanostructured TiO2 Thin Film Journal of Chemistry V.42. N.2 (2004).

6. Dr. Nguyen Van Quyen – Lecturer

1. Quyen Van Nguyen: “Controlling Rectification in Metal–Molecules–Metal Junctions Based on 11-(Ferrocenyl) Undecanethiol: Effects of the Electronic Coupling Strength”, Journal The Journal of Physical Chemistry C 2022 (accepted).
2. Phuong Thi Tuyet Anh, Nguyen Viet Toan, Hoang Thi Phuong, Nguyen Kim Thoa, Nguyen Van Quyen*, Nguyen Van Chien, Dao Hai Yen: “Dragon Fruit foliage: An agricultural cellulosic source to extract cellulose nanomaterials”, Molecules 2022 (accepted).
3. Quyen Van Nguyen, Zuoti Xie, C Daniel Frisbie: “Quantifying Molecular Structure-Tunneling Conductance Relationships: Oligophenylene Dimethanethiol vs Oligophenylene Dithiol Molecular Junctions,” Journal of Physical Chemistry C ( accepted)
4. Quyen Van Nguyen, C Daniel Frisbie: “Hopping Conductance in Molecular Wires Exhibits a Large Heavy-Atom Kinetic Isotope Effect” Journal of the American Chemical Society 143 (7), 2638–2643 (accepted)
5. Quyen Van Nguyen, Ushula Tefashe, Pascal Martin, Maria Luisa Della Rocca, Frederic Lafolet, Philippe Lafarge, Richard L McCreery, Jean‐Christophe Lacroix: “Molecular Signature and Activationless Transport in Cobalt‐Terpyridine‐Based Molecular Junctions”, Advanced Electronic Material ((Back Cover ).
6. Quyen Van Nguyen, Frederic Lafolet, Pascal Martin, Jean-Christophe Lacroix: “Ultrathin Molecular Layer Junctions Based on Cyclometalated Ruthenium Complexes”, The Journal of Physical Chemistry C 122 (50), 29069-29074.
7. Quyen Van Nguyen, Pascal Martin, Denis Frath, Maria Luisa Della Rocca, Frederic Lafolet, Sebastien Bellinck, Philippe Lafarge, and Jean-Christophe Lacroix. “Highly Efficient Long-Range Electron Transport in a Viologen-Based Molecular Junction” J. Am. Chem. Soc., Article ASAP, DOI: 10.1021/jacs.8b05589.
8. Quyen Van Nguyen, Pascal Martin, Maria Luisa Della Rocca, Clément Barraud, Philippe Lafarge, Denis Frath, Frederic Lafolet, Vineetha Mukundan, David James, Richard L. McCreery, Jean-Christophe Lacroix “Control of rectification in molecular junctions: Contact effects and molecular signature”, J. Am. Chem. Soc. 2017, 139 (34), 11913–11922.
9. M. Tefashe, Quyen Van Nguyen, Frederic Lafolet, Jean-Christophe Lacroix, Richard L. McCreery, “Robust Bipolar Light Emission and Charge Transport in Symmetric Molecular Junctions” J. Am. Chem. Soc. 2017, 139, 7436-7439.  (Editor’s choice in Science) (2014), 196, pp 64-70. ISSN: 0925-4005.

Chia sẻ0

The post Publications appeared first on University of Science and Technology of Hanoi.

• Advanced materials for electronics and energy
• Advanced materials for environment, agriculture, and medicine
• Nanophotonics for sensing devices

Two complementary activities to be established in collaboration with other departments and other Universities and research centers in Vietnam:

• Nanomagnetism (with other universities in Vietnam and France)
• Numerical simulations (to be discussed as transverse shared activities at Goodd889 cá cược trực tuyến

List of the research projects of the lecturers of the Department of Advanced Materials and Nanotechnology: 

1. Assoc. Prof. Dr. Nguyễn Văn Quỳnh – Director 

1. Principal Investigator (PI) on the project entitled “Elaboration of hybrid immunosensor based on dual-channel transduction mechanisms: electrochemical and surface plasmon resonance detection for determining organic pollutants in waters.” – Funded by NAFOSTED from 5/2017 to 4/2019
2.  Principal Investigator (PI) on the project entitled “Elaboration of a regular structure of a multifunctional hybrid organic-inorganic surface towards controllable drug-releasing, antibacterial film, and plasmonic-based wound healing.” – Funded by VAST from 7/2020 – 7/2022.
3.  Science Secretary on the project entitled “Development of a microfluidic system for investigating a large number of single cancer cells” – Funded by NAFOSTED from 5/2018 – 5/2020, PI: Dr. Nguyen Tien Anh – Technical University of Le Quy Don.
4. Science Secretary “Development of multiplex sensing system integrated with wireless module for detection of toxins in agricultural products” – Funded by Vietnam Academy of Science and Technology, 2017-2018, PI: Dr. Vu Thi Thu; AMSN-Goodd889 cá cược trực tuyến
5. Member: ‘Plasmon induced nanolocalized chemistry towards application in advanced nanofabrication’ – funded by Goodd889 cá cược trực tuyến from 4/2018 – 4/2020. PI: Dr. Nguyen Luong Lam; AMSN – Goodd889 cá cược trực tuyến

2. Dr. Pham Van Nhat – Lecturer

1. Using Microfluidic system to investigation the dehydration process of microdroplet of protein solution , GUST, PI, STS.ĐT2018-HH05.
2. Lab on Prinited Circuited Board (PCB) for nanomaterials synthesis investigation, Goodd889 cá cược trực tuyến S&T 2021-2022, PI, Code: AMSN.01/21-22,
3. Fabrication of Monodispersed and size-tunable microspheres of PLGA using microfluidic method, Youth VAST 2022,
4. 3D microstructures for on-chip isolation and protein analysis of circulating tumor cells in liquid biopsy, National Foundation for Science and Technology Development (NAFOSTED), 2019-2021, Member, Coded NAFOSTED 103.02-2018.360
5. Synthesis and characterization of graphene/TMDCs heterostructures for photodetector , NAFOSTED, Member, Code:
6. Novel catalytic materials for water electrolysis and CO2 reduction: from materials design, fabrication, and mechanistic investigation to their integration within a complete device . NAFOSTED, Member

3. Dr. Vu Thi Thu – Lecturer

1. Functionalized graphene for electrochemical sensing applications and energy storage (Chức năng hóa vật liệu graphene định hướng ứng dụng cảm biến điện hóa và dự trữ năng lượng), 2021-2023, PI, Goodd889 cá cược trực tuyến, Coded AMSN.01/21-23
2. Electrochemical sensors based on hybrid structures of graphene towards in-situ detection of pharmaceutical residues in water environment, 2021-2022, PI, VAST, Coded 07-05/21-22.
3. 3D microstructures for on-chip isolation and protein analysis of circulating tumor cells in liquid biopsy, National Foundation for Science and Technology Development (NAFOSTED), 2019-2021, PI, Coded NAFOSTED 103.02-2018.360
4. Development of highly sensitive optical and electrochemical based methods for tracing diclofenac in surface water, Vietnam Academy of Science and Technology (VAST), 2020-2021, PI, Coded 02/20-21.
5. Functionalized graphene for electrolyte-gated field effect transistors: Application to wearable sweat sensors, 2021, PI, Goodd889 cá cược trực tuyến Consortium
6. All ink-jet printed FET device using carbonaceous nanomaterials for early diagnosis of Sepsis , Vietnam Academy of Science and Technology (VAST), 2019-2020, Secretary, Coded 02/19-20
7. Development of multiplex sensing system integrated with wireless module for detection of toxins in agricultural products , Vietnam Academy of Science and Technology (VAST), 2017-2018, PI, Coded ĐLT.01.17-18

4. Dr. Nguyen Thi Ngoc – Lecturer

1. Investigation and fabrication of non-invasive continuous virtual human signal based on the ultra-high sensitivity microstructure magnetic sensor, 2022-2024, Secretary, Viet Nam National University, Coded QG.22.65
2. Enhance giant magnetoimpedance effect in amorphous ribbons for magnetic sensing application, 2021, PI, Goodd889 cá cược trực tuyến,
3. Simulation and fabrication of microparticles trapping for biomedical applications, 2020, PI, Goodd889 cá cược trực tuyến
4. Investigation and fabrication of navigation electronic compass based on magnetostriction-piezoelectric, 2015-2017, Key member, Vietnam National University, Hanoi
5. Design and fabrication of mobile marine satellite receiver systems based on high sensitivity magnetic sensor, 2013-2016, Key member, Space Science and Technology Program.

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