Electronic Components, Technology and Materials
Department of Microelectronics

MSc Hong Wah Chan

Guest
Electronic Components, Technology and Materials (ECTM), Department of Microelectronics

Expertise: Ultrathin Dynodes for Timed Photon Counter

Themes: MEMS Technology

Projects history

Fabrication of Ultrathin Dynodes for Timed Photon Counter

  1. Ultra-thin corrugated metamaterial film as large-area transmission dynode
    H.W. Chan; V. Prodanović; A.M.M.G. Theulings; T. ten Bruggencate; C.W. Hagen; P.M. Sarro; H. v.d. Graaf;
    Journal of Instrumentation,
    Volume 17, pp. P09027, 2022. DOI: 10.1088/1748-0221/17/09/P09027

  2. Effect of thermal annealing and chemical treatments on secondary electron emission properties of atomic layer deposited MgO
    Violeta Prodanovic; Hong Wah Chan; Anil U. Mane; Jeffrey W. Elam; Matthias M. Minjauw; Christophe Detavernier; Harry van der Graaf; Pasqualina M. Sarro;
    Journal of Vacuum Science and Technology A,
    Volume 36, Issue 6, pp. 06A102-1-9, 2018.
    document

  3. Ultra-thin Alumina and Silicon Nitride MEMS Fabricated Membranes for the Electron Multiplication
    Violeta Prodanović; Hong Wah Chan; W A van der Graaf; Lina Sarro;
    Nanotechnology,
    Volume 29, pp. 155703, 2018.
    document

  4. Ultra-thin ALD MGO membranes as mems transmission dynodes in a timed photon counter
    Violeta Prodanovic; Hong Wah Chan; Anil U Mane; Jeffrey W Elam; Harry VD Graaf; Pasqualina M Sarro;
    In Micro Electro Mechanical Systems (MEMS), 2017 IEEE 30th International Conference on,
    pp. 740-743, 2017.

  5. Potential applications of electron emission membranes in medicine
    Yevgen Bilevych; Stefan E. Brunner; Hong Wah Chan; Edoardo Charbon; Harry van der Graaf; Cornelis W. Hagen; Gert Nützelf; Serge D. Pintof; Violeta Prodanović; Daan Rotman; Fabio Santagata; Lina Sarro; Dennis R. Schaar;
    Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment,
    Volume 809, pp. 171-174, 2016.

  6. The Tynode: A new vacuum electron multiplier
    Harry van der Graaf; Hassan Akhtar; Neil Budko; Hong Wah Chan; Cornelis W. Hagen; Conny C.T. Hansson; Gert Nützel; Serge D. Pinto; Violeta Prodanović; Behrouz Raftari; Pasqualina M. Sarro; John Sinsheimer; John Smedle;
    Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment,
    2016.
    document

  7. Optimization of Silicon-rich Silicon Nitride Films for Electron Multiplication in Timed Photon Counters
    V. Prodanovic; H.W. Chan; J. Smedley; A. Theulings; S. Tao; H.v.d. Graaf; P.M. Sarro;
    In Procedia Engineering 120: EUROSENSORS 2015,
    pp. 1111-1114, 2015.

  8. Study on thermal interface material with carbon nanotubes and carbon black in high-brightness LED packaging with flip-chip technology
    K. Zhang; G. W. Xiao; C. K. Y. Wong; H. W. Gu; M. M. F. Yuen; P. C. H. Chan; B. Xu;
    In Proceedings-Electronic Components and Technology Conference,
    Lake Buena Vista, FL, pp. 60-65, 2005.

  9. Monolithic Spiral Inductors fabricated using a VLSI Cu-Damascene Interconnect Technology and Low-Loss Substrates
    J.N. Burghartz; D.C. Edelstein; K.A. Jenkins; C. Jahnes; C. Uzoh; E.J. O Sullivan; K.K. Chan; M. Soyuer; P. Roper; S. Cordes;
    In IEEE International Electron Devices Meeting (IEDM),
    pp. 99-102, 1996.

BibTeX support

Last updated: 6 Oct 2021

Hong Wah Chan

Alumnus
  • Left in 2018