Nanozyme Database

	ref	title	DOI	material type	comment
3848	662	Graphitic carbon nitride for efficient fluorometric quenching bioassay of hydrogen peroxide: Effect of structure on Properties	https://doi.org/10.1016/j.jphotochem.2020.112731	Carbon	So, metal-free nanostructures of g-C3N4 were synthesized and characterized through different techniques.

	ref	material	size	size err	size unit	size type	size comment	BET	b _nanozyme	b 10ⁿ	b unit	specific act	sa 10ⁿ	sa unit	comment
7879	662	g-C3N4			nm	SEM	The SEM images in Fig. 4 show the morphological and structural differences between PCN and CCN. PCN exhibited a fluffy-like structure with a small and irregular dense-texture as compared to CCN texture. These fluffy nanosheets were connected in such a way that they have left a small hollow space between them. In comparison, CCN exhibited a uniform surface texture, and g-C3N4 crystalline sheets were looked like large-sized aggregates.	89.9，11.8							A summary of the comparison of the specific surface area (SBET), total pore volume, and pore width of PCN and CCN are listed in Table 2. PCN exhibited greater SBET (89.9 m2/g) than that of CCN (11.8 m2/g). This enlarged surface area can be attributed to porous, thin, and curled nanosheets in fluffy PCN as compared to crystallized, planar, and large layered nanosheets of CCN.

	ref	material	enzyme type	substrate	pH	T	k_m	k_m err	k_m 10ⁿ	k_m unit	v_max	v_max err	v_max 10ⁿ	v_max unit	k_cat	k_cat err	k_cat 10ⁿ	k_cat unit	k_cat/k_m	k_cat/k_m 10ⁿ	k_cat/k_m unit	comment
6544	662	g-C3N4	POD				0.159			mM	1.3		-8	M/s					662

	ref	material	application	target	method	linear range	linear ran unit	LOD	lod unit	recovery	comment
5591	662	g-C3N4	detection of H2O2	H2O2	Fluor	90-2500	nM	73	nM