was done at 1200 ^C. All other ionic substituted nanopowders showed a biphasic

mixture of hydroxyapatite and TCP at 1000 ^C and 1200 ^C (Table 23.6).

SiHA and KSiHA nanopowders heat-treated at 800 ^C showed both HA and

α-TCP as major phases with β-TCP as the secondary phase. Although α-TCP and

HA are primary phases in potassium and silicon co-substituted HA (KSiHA)

nanopowder, the fraction of α-TCP decreased in KSiHA nanopowder in comparison

to SiHA nanopowder. The fraction of β-TCP phase increased in the case of KSiHA

nanopowder with respect to SiHA nanopowder. With an increase in heat treatment

temperature, the calculated weight % of TCP phase increased. The order of structural

stability is as follows:

FHA > HA > ZnFHA > KSiHA > ZnHA > EuHA > MgSrHA > SiHA

> SrFHA > MgSrFHA > MgHA

Fourier transform infrared spectra were recorded in the region 400–4000 cm
¹

using KBr pellets (1%, wt/wt) with a spectral resolution of 2 cm
¹ to identify the

various functional groups present in nanodimensional powders of HA such as

phosphates, carbonates, hydroxyl, and nitrates. Figure 23.6 shows the characteristic

peaks exhibited by the FTIR spectra of as-synthesized nanopowder. The FTIR

spectrum of as-synthesized HA nanopowder showed all the specific peaks of pure

HA, i.e., phosphate vibrations, ν1 PO4

3
(962 cm
1), ν2 PO4

3
(473 cm
1), ν3

PO4

3
(broad band 1031–1093 cm
1), and ν4 PO4

3
(569 cm
1 and 602 cm
1), and

hydroxyl group of hydrogen bonded to OH
at 3569 cm
¹ and 631 cm
¹. The peak

at 874 cm
¹ could be attributed to P-O-H vibration in HPO4

2
. Broad envelop

between 3446 cm
¹ and 3242 cm
¹ and absorption bands between 2076-2001 cm
¹

and at 1636 cm
¹ could be attributed to O-H and H-O-H vibrations of absorbed

water molecules in HA crystal structure, respectively.

The FTIR spectra of ZnHA nanopowder were similar to HA but with decreased

strength of OH
vibrational mode at 3569 cm
¹ and 630 cm
¹ and PO4

3

Table 23.6 Weight % of HA and TCP phases in heat-treated nanopowders from XRD patterns

Nanopowder

Weight % HA

Weight % β-TCP and α-TCP

800 ^C

1000 ^C

1200 ^C

800 ^C

1000 ^C

1200 ^C

HA

100.00

100.00

77.00

0.00

0.00

23.00

ZnHA

84.60

67.50

50.82

15.40

32.50

49.18

MgHA

51.00

42.00

35.00

49.00

58.00

65.00

EuHA

83.50

67.24

59.45

17.50

32.76

40.55

FHA

100.00

100.00

87.00

0.00

0.00

13.00

SiHA

73.83

72.44

62.70

5.37, 20.44

11.09, 16.47

20.38, 16.91

KSiHA

84.99

73.79

69.99

6.52, 8.49

12.81, 13.41

21.37, 8.64

ZnFHA

100.00

92.23

63.48

0.00

7.76

36.52

SrFHA

73.00

72.00

71.00

27.00

28.00

29.00

MgSrHA

77.00

75.00

69.00

23.00

25.00

31.00

MgSrFHA

60.00

47.00

44.00

40.00

53.00

56.00

23

Unleashing Potential of Bone Mimicking Nanodimensional Hydroxyapatites and. . .

439