Which particle materials are supported for NanoCuvette™ S in SpectroWorks™?

SpectroWorks™ supports a wide range of particle materials for use with NanoCuvette™ S. They are all based on published scientific papers. This table provides a comprehensive overview of all supported materials and their sources.

Particle Material	Source(s)
Antheraea assamensis	Perotto et al. 2017: Fibroin film; n 0.3-1.695 µm
Antheraea mylitta	Perotto et al. 2017: Fibroin film; n 0.3-1.695 µm
B4C	Larruquert et al. 2012: n,k 0.001738-21.54 µm
Bombyx_mori	Bucciarelli et al. 2018: Photocrosslinkable fibroin film, crosslinked; n 0.4-1.5 µm
	Bucciarelli et al. 2018: Photocrosslinkable fibroin film, uncrosslinked; n 0.4-1.5 µm
	Bucciarelli et al. 2018: Pure fibroin film, formed using formic acid; n 0.4-1.5 µm
	Bucciarelli et al. 2018: Pure fibroin film, formed using water; n 0.4-1.5 µm
	Bucciarelli et al. 2018: Photocrosslinkable sericin film, crosslinked; n 0.4-1.5 µm
	Bucciarelli et al. 2018: Photocrosslinkable sericin film, uncrosslinked; n 0.4-1.5 µm
	Bucciarelli et al. 2018: Sericin film; n 0.4-1.5 µm
	Perotto et al. 2017: Native fibroin film; n 0.3-1.7 µm
	Perotto et al. 2017: Uncrystallized fibroin film; n 0.3-1.7 µm
	Perotto et al. 2017: Crystallized fibroin film; n 0.3-1.7 µm
C	Larruquert et al. 2013: n,k 0.0197-10.1 µm
	Arakawa et al. 1977: n,k 0.326-2.07 µm
	Querry 1985: Pyrolytic carbon; n,k 0.21-55.6 µm
	Song et al. 2018: c-HOPG; n(e) 0.193-1.69 µm
	Song et al. 2018: s-HOPG; n(e) 0.193-1.69 µm
	Ermolaev et al. 2020: Carbon nanotubes film, aerosol CVD; n,k 0.250-3.30 µm
	Song et al. 2020: Carbon nanotubes film, Arc grown; n,k 0.370-1.69 µm
CaCO3	Ghosh 1999: n(o) 0.204-2.172 µm
CaCO3	Ghosh 1999: n(e) 0.204-2.172 µm
colon	Giannios et al. 2016: Mucosa; n,k 0.45-1.551 µm
	Giannios et al. 2016: Submucosa; n,k 0.45-1.551 µm
	Giannios et al. 2016: Serosa; n,k 0.45-1.551 µm
CsCl	Li 1976: n 0.18-40 µm
CuCl	Feldman and Horowitz 1969: n 0.43-2.5 µm
Diesel soot	Querry 1987: Sample 1; n,k 0.260-55.6 µm
Diesel soot	Querry 1987: Sample 1, heated; n,k 0.260-55.6 µm
HfO2	Al-Kuhaili 2004: Thin film; n 0.2-2.0 µm
KCL	Li 1976: n 0.18-35 µm
KCL	Querry 1987: n,k 0.22-167 µm
LiCl	Li 1976: n 0.17-16 µm
Liver	Giannios et al. 2016: n,k 0.45-1.551 µm
MgO	Stephens and Malitson 1952: n 0.36-5.4 µm
NaCl	Querry 1987: n,k 0.22-167 µm
NaCl	Li 1976: n 0.20-30 µm
Os	Nemoshkalenko et al. 1968: n,k(o) 0.24-15 µm
Os	Nemoshkalenko et al. 1968: n,k(e) 0.25-8.0 µm
Polycarbonate	Zhang et al. 2020: n,k 0.4-20 µm
Polydimethylsiloxane	Gupta et al. 2019: n 0.30-1.69 µm
Polyetherimide	Zhang et al. 2020: n,k 0.4-20 µm
Polyethylene terephthalate	Zhang et al. 2020: n,k 0.4-20 µm
Polylactic acid	Bodurov et al. 2016: PDLA; n 0.405-0.635 µm
Polystyrene	Sultanova et al. 2009: n 0.437-1.05 µm
Samia ricini	Perotto et al. 2017: Fibroin film; n 0.3-1.695 µm
SiC	Singh et al. 1971: α-SiC; n(o) 0.488-1.064 µm
	Singh et al. 1971: α-SiC; n(e) 0.488-1.064 µm
	Wang et al. 2013: 6H-SiC; n(o) 0.436-2.33 µm
	Wang et al. 2013: 6H-SiC; n(e) 0.436-2.33 µm
	Wang et al. 2013: 4H-SiC; n(o) 0.405-5 µm
	Wang et al. 2013: 4H-SiC; n(e) 0.405-2.33 µm
	Larruquert et al. 2011: Thin film; n,k 0.006154-131.7 µm
TeO2	Uchida 1971: α-TeO2; n(o) 0.4-1.0 µm
TeO2	Uchida 1971: α-TeO2; n(e) 0.4-1.0 µm
TiO2	Devore 1951: Crystal; n(o) 0.43-1.53 µm
	Devore 1951: Crystal; n(e) 0.43-1.53 µm
	Sarkar et al. 2019: Thin film; n,k 0.30-1.69 µm
	Siefke et al. 2016: Thin film; n,k 0.120-125 µm
WO3	Kulikova et al. 2020: n,k 0.3-1.0 µm
Y2O3	Nigara 1968: n 0.25-9.6 µm
ZnO	Bond et al. 1965: n(o) 0.45-4.0 µm
	Bond et al. 1965: n(e) 0.45-4.0 µm
	Stelling et al. 2017: n,k 0.302-1.685 µm
	Aguilar et al. 2019: n,k 0.3-3.2 µm; 100% ZnO
	Querry 1985: n,k 0.21-55.6 µm
ZnO-CdO	Aguilar et al. 2019: n,k 0.3-3.2 µm; 100% ZnO
ZrO2	Wood and Nassau 1982: 12 mol % Y2O3; n 0.361-5.135 µm
ZrO2-Y2O3	Wood and Nassau 1982: 12 mol % Y2O3; n 0.361-5.135 µm

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