Michael Reber

  Michael Reber

Michael Reber
ZHAW Life Sciences und Facility Management

michael.reber@zhaw.ch

Persönliches Profil

Tätigkeit an der ZHAW als

Postdoc

www.zhaw.ch/icbt/polymer

Aus- und Fortbildung

2007-2011: B.Sc Chemistry: University of Pittsburgh (USA)
2011-2012: Masters in Synthesis, Catalysis, and Sustainable Chemistry: University Claude Bernard Lyon 1 (FR)
2012-2016: PhD Chemistry: University of Zurich (CH)
2017: Postdoctoral Researcher: ZHAW (CH)

Beruflicher Werdegang

Pore size tuning and morphology control of mesoporous silica. Together, these will produce Molecular Alignment Chips (MACs), which are promising as host materials for light-harvesting and size-selective serpatations.

Mitglied in Netzwerken

Projekte

Mitarbeit an folgenden Projekten

Publikationen

Woodtli, Pascal; ; Müller, Patrick; Sägesser, Lucie; ; Reber, Michael; ; ;

2018.

Indigo in the nanochannels of zeolite L : towards a new type of colorant

.

Dyes and pigments.

149,

S. 456-461.

Verfügbar unter: https://doi.org/10.21256/zhaw-1367

; Reber, Michael; Pestalozzi, Lias; Schmid, Ramon; Neels, Antonia; ;

2018.

The structure of mesoporous silica obtained by pseudomorphic transformation of SBA-15 and SBA-16

.

Microporous and Mesoporous Materials.

257,

S. 232-240.

Verfügbar unter: https://doi.org/10.21256/zhaw-3458

Reber, Michael; ;

2015.

Bimodal mesoporous silica with bottleneck pores

.

Dalton Transactions.

44(41),

S. 17960-17967.

Verfügbar unter: https://doi.org/10.21256/zhaw-1172

Beiträge, peer-reviewed

; ().

Bimodal mesoporous silica with bottleneck pores

.

Dalton Transactions, 44 17960-17967. Peer reviewed.

; ; ; ; ; ; ; ; ().

Incorporation of a FRET dye pair into mesoporous materials: a comparison of fluorescence spectra, FRET activity and dye accessibility

.

Analyst, 140 5324-5334. Peer reviewed.

; ().

Mesoporous Hybrid Materials by Simultaneous Pseudomorphic Transformation and Functionalization of Silica Microspheres

.

Particle & Particle Systems Characterization, 32 243-250. Peer reviewed.

; ; ; ; ; ; ().

A novel 99mTc labelling strategy for the development of silica based particles for medical applications

.

Dalton Transactions, 43 4260-4263. Peer reviewed.

Beiträge, nicht peer-reviewed

; ().

Development of Luminescent Solar Concentrators

: Molecular Alignment Chips.

Bundesamt für Energie BFE: Programm Photovoltaik 2014 143-146.

Publikationen vor Tätigkeit an der ZHAW

Mengning Ding, Yifan Tang, Pingping Gou, Michael J. Reber, Alexander Star. Advanced Materials. 2011, 23, 536–540