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<li><a href="#abstract">Abstract</a></li>
<li><a href="#intro">Introduction</a></li>
<li><a href="#methods">Materials and Methods</a></li>
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<li><a href="#methods">Materials and Methods</a></li>
<li><a href="#results">Calculations and Results</a></li>
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<p class="art-type" id="articleinfo">Review Article</p>
<p class="art-title">Calculation of the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR Mode Frequency and the Damping Constant (FWHM) close to the Phase Transitions in NH<sub>4</sub>ZN(HCOO)<sub>3</sub> and ND<sub>4</sub>ZN(DCOO)<sub>3</sub></p>
<p class="art-author"><?php $authors="Arzu Kurt<sup>1</sup>, Hamit Yurtseven<sup>2*</sup> and Mustafa Kurt<sup>3</sup>"; echo (stristr($authors,$coauthor))?str_replace($coauthor,"<a href='".$extpath."authors/".$courl."' target='_blank'>".$coauthor."</a>",$authors):$authors; ?></p>
<p class="art-affl"><sup>1</sup>Lapseki &#304;&#199;DA&#350; &#199;&#304;B MTAL High School, &#199;anakkale, Turkey<br/><sup>2</sup>Department of Physics, Middle East Technical University, Ankara, Turkey<br/><sup>3</sup>Department of Physics, &#199;anakkale 18 Mart University, &#199;anakkale, Turkey</p>
<p class="art-aff"><b>*Corresponding author: <?php $corresponding_author="Hamit Yurtseven"; echo ($coauthor!="" && $coauthor==$corresponding_author)?"<a href='".$extpath."authors/".$courl."' target='_blank'>".$coauthor."</a>":$corresponding_author;?></b>, Professor, Department of Physics, Middle East Technical University, Ankara, Turkey, E-mail: <a href="mailto:hamit@metu.edu.tr">hamit@metu.edu.tr</a></p>
<p class="art-aff"><b>Received:</b> February 28, 2019 <b>Accepted:</b> September 13, 2019 <b>Published:</b> September 23, 2019</p>
<p class="art-aff"><b>Citation:</b> Kurt A, Yurtseven H, Kurt M. Calculation of the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR Mode Frequency and the Damping Constant (Fwhm) close to the Phase Transitions in NH<sub>4</sub>ZN(HCOO)<sub>3</sub> and ND<sub>4</sub>ZN(DCOO)<sub>3</sub>. <i>Int J Chem Res</i>. 2019; 1(2): 46-50. doi: <a href="https://doi.org/10.18689/ijcr-1000107">10.18689/ijcr-1000107</a></p>
<p class="art-aff"><b>Copyright:</b> &copy; 2019 The Author(s). This work is licensed under a Creative Commons Attribution 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.</p>
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<p class="art-subhead" id="abstract">Abstract</p>
<p class="art-para">Temperature dependence of the IR frequency and the damping constant (FWHM) of the &#957;<sub>4</sub>(1440 cm<sup>-1</sup>) NH<sub>4</sub>+and &#957;<sub>4</sub>(1084 cm<sup>-1</sup>) ND<sub>4</sub>+ modes, are calculated for the metal formate frameworks (MOFs) of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>, respectively, by using the experimental data from the literature. By assuming the IR frequency of the &#957;<sub>4</sub> mode as an order parameter, its temperature dependence is calculated close to the phase transition (TC=191 K) in the NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> by the molecular field theory. The temperature dependence of the damping constant of the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR mode is also calculated by means of the pseudospin-phonon coupled (PS) and the energy fluctuation (EF) models for these metal formate frameworks. The damping constant due to both models (PS and EF) is fitted to the observed FWHM data of the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR mode from the literature at various temperatures close to TC in the MOFs studied.</p>
<p class="art-para">Our results show that the molecular field theory is adequate for the temperature dependence of the IR frequency and also the PS model explains the observed behaviour of the FWHM for the &#957;<sub>4</sub>(NH<sub>4</sub>+) mode in NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>.</p>
<p class="art-para"><b>Keywords:</b> IR frequency; Damping constant (FWHM); Molecular field theory; Pseudospin-phonon coupled (PS) model; MOFs.</p>
<p class="art-subhead" id="intro">Introduction</p>
<p class="art-para">Metal formate frameworks (MOFs) with the ammonium cations, NH<sub>4</sub>M(HCOO)<sub>3</sub> for M=Mn, Co and Ni compounds have been studied extensively by using X-ray diffraction, dielectric, differential scanning calorimetry (DSC) and magnetic measurements <a href="#1" id="ref1">[1</a>-<a href="#5" id="ref5">5]</a>. In particular, infrared (IR) and Raman bands in these structures have been assigned <a href="#3" id="ref3">[3</a>,<a href="#4" id="ref4">4]</a> in order to investigate both temperature- and pressure- induced phase transition mechanism including order-disorder, displacive transitions and H-bonds studies <a href="#6" id="ref6">[6</a>-<a href="#9" id="ref9">9]</a>. It has been pointed out that H-bonds and ordering of the ammonium ions play an important role in the mechanism of the phase transition (order-disorder) and multiferroelectric behavior of this family of compounds at low temperatures <a href="#5" id="ref5">[5]</a>. Dielectric properties of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>, DSC study of the deuterated sample, temperature-dependent of Raman scattering and infrared (IR) studies of both compounds, high-pressure Raman scattering of ND<sub>4</sub>Zn(DCOO)<sub>3</sub> and DFT calculations of both structures have been reported to investigate their structural phase changes <a href="#5" id="ref5">[5]</a>. From the DSC measurements of ND<sub>4</sub>Zn(DCOO)<sub>3</sub> an anomaly occurs at around 191 K upon heating and 190 K upon cooling, which is similar as observed for other NH<sub>4</sub>M(HCOO)<sub>3</sub> formates with M=Mn, Co, Fe, Ni, Zn and Mg <a href="#1" id="ref1">[1</a>-<a href="#4" id="ref4">4]</a>, indicating a second order, reversible phase transition, as pointed out previously <a href="#5" id="ref5">[5]</a>. On the other hand, for NH<sub>4</sub>Zn(HCOO)<sub>3</sub> the phase transition was reported to be 192 K in the heating mode <a href="#1" id="ref1">[1</a>,<a href="#2" id="ref2">2]</a> which shows that the isotope effect for this compound is very small <a href="#5" id="ref5">[5]</a>. Anomaly was attributed to the onset of a ferroelectric order in the low temperature phase and the ferroelectricity of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> was confirmed by the presence of a dielectric hysteresis loop <a href="#1" id="ref1">[1</a>,<a href="#2" id="ref2">2</a>,<a href="#10" id="ref10">10]</a>, as indicated previously <a href="#5" id="ref5">[5]</a>.</p>
<p class="art-para">The temperature dependence of the Raman and IR bands of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> regarding internal vibrations of the ammonium and formate ions, and the lattice vibrations can be studied, as observed experimentally <a href="#5" id="ref5">[5]</a> in terms of their frequency shifts and FWHM. In particular, the IR frequency of the &#957;<sub>4</sub> (NH<sub>4</sub>+) mode decreases which can be associated with the order parameter and its FWHM increases as the temperature increases toward the transition temperature Tc from low temperature (ordered phase) for NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> as observed experimentally <a href="#5" id="ref5">[5]</a>, so that the temperature dependence of the IR frequency and FWHM of this mode can be calculated for those compounds. The anomalous behaviour of the observed IR frequency and FWHM of the &#957;<sub>4</sub> (NH<sub>4</sub>+) mode can then be explained for the order-disorder transition in NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> compounds on the basis of the calculations by using the models used in this study. This is the motivation of our study given here to investigate the mechanism of the phase transitions in the MOFs considered. For the IR frequency of the &#957;<sub>4</sub> (NH<sub>4</sub>+) mode, we use the molecular field theory <a href="#11" id="ref11">[11]</a> by calculating the temperature dependence of the order parameter. For the FWHM of this mode, we use mainly pseudospin-phonon coupling (PS) model <a href="#12" id="ref12">[12]</a> and also energyfluctuation (EF) model <a href="#13" id="ref13">[13]</a> for the damping constant of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>.</p>
<p class="art-subhead" id="methods">Materials and Methods</p>
<p class="art-para">Temperature-dependent raman spectra were obtained for NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>, which were measured using a bruker FT100/S spectrometer with YAG:Nd laser excitation (1064 nm) and a helium-flow oxford crysostat as pointed out in the previous study <a href="#5" id="ref5">[5]</a>. The vibrational spectra of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> were regarded as composed of internal vibrations of the ammonium and formate ions, and the lattice vibrations, in particular, the bending modes &#957;<sub>2</sub> and &#957;<sub>4</sub> of the ammonium cation were observed <a href="#5" id="ref5">[5]</a> near 1600-1720 and 1390-1460 cm<sup>-1</sup> (1100-1300 and 1050-1150 cm<sup>-1</sup>) for NH<sub>4</sub>+(ND<sub>4</sub>+), respectively <a href="#14" id="ref14">[14</a>-<a href="#16" id="ref16">16]</a>.</p>
<p class="art-para">The temperature dependent changes in vibrational spectra, in particular, plots of frequencies and full width at the half-maximum (fwhm) values for a number of structural units were presented <a href="#5" id="ref5">[5]</a>. In the present study, temperature dependence of the bending modes of &#957;<sub>4</sub> (1440 cm<sup>-1</sup>) NH<sub>4</sub> and &#957;<sub>4</sub> (1084 cm<sup>-1</sup>)ND<sub>4</sub>+ are given (<a href="#f001">Figure 1</a>). Temperature-dependent Raman spectra <a href="#5" id="ref5">[5]</a> are analyzed to predict the frequencies and FWHM for the bending modes &#957;<sub>4</sub> NH<sub>4</sub>+ and &#957;<sub>4</sub> ND<sub>4</sub>+ of NH<sub>4</sub>Zn(HCOO)<sub>3</sub>and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>, respectively in this study.</p>
<div class="art-img" id="f001">
<img src="<?php echo $imgpath;?>images/ijcr-107-f001.gif" class="img-responsive center-block"/></div>
<p class="art-subhead" id="results">Calculations and Results</p>
<p class="art-para">The order parameter S can be calculated below the transition temperature T<sub>c</sub> by the molecular field theory <a href="#11" id="ref11">[11]</a> according to the relation</p>
<div class="art-img">
<img src="<?php echo $imgpath;?>images/ijcr-107-e001.gif" class="img-responsive center-block"/></div>
<p class="art-para">Regarding order&#8211;disorder transition in molecular crystals, the critical behaviour of the frequency can be associated with the order parameter close to the transition. In particular, &#957;<sub>4</sub> (NH<sub>4</sub>+) infrared mode frequency is the driving mechanism of the order-disorder transition in the metal formate frameworks (MOFs) of the compounds NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>. The temperature dependence of this IR mode can be considered as an order parameter in those MOFs. On that basis, we have related the IR frequency of the &#957;<sub>4</sub> (NH<sub>4</sub>+) mode to the order parameter by considering the temperature dependence of the frequency as</p>
<div class="art-img">
<img src="<?php echo $imgpath;?>images/ijcr-107-e002.gif" class="img-responsive center-block"/></div>
<p class="art-para">according to the relation</p>
<div class="art-img">
<img src="<?php echo $imgpath;?>images/ijcr-107-e003.gif" class="img-responsive center-block"/></div>
<p class="art-para">where <i>a<sub>0</sub>, a<sub>1</sub>, a<sub>2</sub>, a, b</i> and <i>c</i> are all constants. &#957;<sub>max</sub> denotes the maximum value of the IR &#957;<sub>4</sub> (NH<sub>4</sub>+) frequency to normalize it (&#957;/&#957;<sub>max</sub>) since the order parameter (S) varies from 0 to 1. We assume here quadratic dependence of the order parameter on the frequency (Eq.3).</p>
<p class="art-para">We first analyzed the temperature dependence of the &#957;<sub>4</sub>(NH<sub>4</sub>+) IR mode frequencies by using the experimental data <a href="#5" id="ref5">[5]</a> according to Eq.(2) with the parameters <i>a<sub>0</sub>, a<sub>1</sub></i> and <i>a<sub>2</sub></i> determined (<a href="#t001">Table 1</a>). Calculated order parameter S (Eq.1) was then fitted to the observed frequency data (&#957;/&#957;max) by using Eq. (3) with the parameters <i>a, b</i> and <i>c</i> below <i>T<sub>c</sub></i> (<a href="#t001">Table 1</a>). This analysis and calculation of the IR &#957;<sub>4</sub>(NH<sub>4</sub>+) mode were performed for the NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and its deutero compound of ND<sub>4</sub>Zn(DCOO)<sub>3</sub> with the IR frequencies of 1440 and 1084 cm<sup>-1</sup>, respectively. Above <i>T<sub>c</sub></i>, since S=0 (Eq.1) the observed IR frequency data <a href="#5" id="ref5">[5]</a> were analyzed by using Eq.(2) with the parameters <i>a<sub>0</sub>, a<sub>1</sub></i> and <i>a<sub>2</sub></i> within the temperature intervals considered, as given in <a href="#t002">table 2</a>. <a href="#f002">Figures 2</a> and <a href="#f003">3</a> give the calculated wave numbers of 1440 and 1084 cm<sup>-1</sup> for the &#957;<sub>4</sub>(NH<sub>4</sub>+) IR mode, with the observed data <a href="#5" id="ref5">[5]</a> as a function of temperature for the compounds of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> respectively.</p>
<div class="art-img" id="t001">
<img src="<?php echo $imgpath;?>images/ijcr-107-t001.gif" class="img-responsive center-block"/></div><br/>
<div class="art-img" id="t002">
<img src="<?php echo $imgpath;?>images/ijcr-107-t002.gif" class="img-responsive center-block"/></div><br/>
<div class="art-img" id="f002">
<img src="<?php echo $imgpath;?>images/ijcr-107-f001.gif" class="img-responsive center-block"/></div><br/>
<div class="art-img" id="f003">
<img src="<?php echo $imgpath;?>images/ijcr-107-f003.gif" class="img-responsive center-block"/></div>
<p class="art-para">Temperature dependence of the damping constant (FWHM) can also be evaluated by using the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR mode frequency as an order parameter for NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>. For this calculation, the pseudospin-phonon coupled (PS) model <a href="#12" id="ref12">[12]</a> was employed according to the relation</p>
<div class="art-img">
<img src="<?php echo $imgpath;?>images/ijcr-107-e004.gif" class="img-responsive center-block"/></div>
<p class="art-para">where &#915;<sub>0</sub> represents the background damping constant &#915;<sub>SP</sub> due to the coupling between pseudospin (PS) of the (NH<sub>4</sub>+) ions and phonon in those MOFs and A is the amplitude. In Eq.(4) we used the IR &#957;<sub>4</sub> (NH<sub>4</sub>+) frequency as an order parameter S. This calculation of &#915;<sub>SP</sub> was carried out below (<i>S</i>&#8800;0) and above (<i>S</i>=0) the transition temperature TC. <a href="#f004">Figures 4</a> and <a href="#f005">5</a> give our calculated FWHM (damping constant &#915;<sub>SP</sub>) according to Eq.(4) by using the 1440 and 1084 cm<sup>-1</sup> IR frequencies calculated (Eqs.1 and 3) of the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR mode for NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> compounds, respectively, with the observed FWHM of those modes <a href="#5" id="ref5">[5]</a>. <a href="#t003">Table 3</a> gives the values of &#915;<sub>0</sub> and A for both IR modes (1440 and 1084 cm<sup>-1</sup>).</p>
<div class="art-img" id="f004">
<img src="<?php echo $imgpath;?>images/ijcr-107-f004.gif" class="img-responsive center-block"/></div><br/>
<div class="art-img" id="f005">
<img src="<?php echo $imgpath;?>images/ijcr-107-f005.gif" class="img-responsive center-block"/></div><br/>
<div class="art-img" id="t003">
<img src="<?php echo $imgpath;?>images/ijcr-107-t003.gif" class="img-responsive center-block"/></div>
<p class="art-subhead" id="discussion">Discussion</p>
<p class="art-para">The IR frequency of the &#957;<sub>4</sub> (NH<sub>4</sub>+) mode for the MOFs of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> (1440 cm<sup>-1</sup>) and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> (1084 cm<sup>-1</sup>) was calculated as an order parameter S from the molecular field theory (Eq.1) through Eqs.(2) and (3) at various temperatures (<a href="#f002">Figures 2</a> and <a href="#f003">3</a>) as stated above. Our fits are reasonably good indicating that the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR mode can be considered as an order parameter and it can be associated with the mechanism of the order-disorder transition in those MOFs. In a wide temperature range below the transition temperature (T<sub>C</sub>&#8776;191 K), we find that the molecular field theory (Eq.1) describes adequately the observed behaviour of the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR mode frequency. Close to T<sub>C</sub>, the temperature dependence of the order parameter S is given by the relation from the molecular field theory <a href="#11" id="ref11">[11]</a>,</p>
<div class="art-img">
<img src="<?php echo $imgpath;?>images/ijcr-107-e005.gif" class="img-responsive center-block"/></div>
<p class="art-para">with the critical exponent &#946;=1/2 for the order parameter according to the power-law <i>S &#8733;&#8712;<sup>&#946;</sup></i> where the reduced temperature is &#8712;=(<i>T<sub>c</sub>-T)/T<sub>c</sub></i>. Thus, in the vicinity of T<sub>C</sub>, the &#957;<sub>4</sub>(NH<sub>4</sub>+) IR frequency data can be analyzed by the power-law formula and the &#946;-value (different from 1/2) can be obtained for NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>. This requires the IR frequencies measured accurately in a very narrow temperature interval around T<sub>C</sub>.</p>
<p class="art-para">For the mechanism of the phase transition in NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>, the effect of isotopic substitution can be investigated since it influences phase transition temperature and facilitates assignment of modes to the respective motions of atoms in the unit cell <a href="#5" id="ref5">[5]</a> in these compounds with the extensive H-bonds. It has been pointed out that temperature-dependent studies reveal a very weak isotopic effect on the phase transition temperature and that ordering of ammonium cations plays a major role in the mechanism of the phase transition <a href="#5" id="ref5">[5]</a>. In fact, for both compounds of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>, transition temperature is almost the same (&#8776;191 K) and due to the reorientations of the NH<sub>4</sub>+(ND<sub>4</sub>+) ions the ordered phase occurs at low temperatures (below T<sub>C</sub>). This also explains the multiferroic behaviour of those compounds at low temperatures.</p>
<p class="art-para">Regarding the temperature dependence of the damping constant &#915;<sub>SP</sub> (FWHM) due to the pseudospin-phonon coupling for the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR mode, the pseudospin-phonon coupled (PS) model is satisfactory to describe the observed behaviour of the IR line widths of this mode below <i>T<sub>C</sub></i> (<a href="#f004">Figures 4</a> and <a href="#f005">5</a>). Above T<sub>C</sub>, since the order parameter is zero (<i>S</i>=0) as predicted from the molecular field theory (Eq.1) without using any IR frequency, Eq.(4) was fitted to the observed FWHM data of this mode, as mentioned before. We also used the energy fluctuation (EF) model <a href="#13" id="ref13">[13]</a> according to the relation</p>
<div class="art-img">
<img src="<?php echo $imgpath;?>images/ijcr-107-e006.gif" class="img-responsive center-block"/></div>
<p class="art-para">where &#915;<sub>0</sub><sup>&#8242;</sup> and <i>A<sup>&#8242;</sup></i> are the background bandwidth and amplitude, respectively, as before. In contrast to the PS model, when Eq.(6) was fitted to the &#957;<sub>4</sub> (NH<sub>4</sub>+) mode for the MOFs of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> it was found that the agreement was not satisfactory. Most likely, this is due to the fact that the damping constant varies with the temperature as &#915;<sub><i>SP</i></sub>&#8733;(<i>T-T<sub>c</sub></i>)<sup>-1/2</sup> with the critical exponent value of 1/2 (for example, when S=0 above T<sub>C</sub>). This then indicates that the EF model (Eq.6) can describe the observed behaviour (FWHM) in the vicinity of the T<sub>C</sub> (in a very narrow temperature range) for the &#957;<sub>4</sub> (NH<sub>4</sub>+) IR mode of those MOFs. We note that for both models (PS and EF) due to the reorientation of the NH<sub>4</sub>+ ions which are ordered below T<sub>C</sub>, interaction between ammonium cations (spin) and the displacement of the metal formate framework (phonon) is considered for the mechanism of phase transitions in NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>.</p>
<p class="art-para">Increase in FWHM (<a href="#f004">Figures 4</a> and <a href="#f005">5</a>) indicates that the phase transition in NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub> has an order-disorder character and it is associated with the rotational dynamics of the ammonium cations <a href="#3" id="ref3">[3</a>,<a href="#4" id="ref4">4]</a> as also pointed out previously <a href="#5" id="ref5">[5]</a>. Including phonon-phonon anharmonic interactions, from the temperature dependence of FWHM of the &#957;<sub>4</sub> (NH<sub>4</sub>+) modes the activation energy was calculated in the thermal activated reorientational processes as 86 and 93 meV for NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>, respectively <a href="#5" id="ref5">[5]</a>. This shows that if the potential curve for the motion of ND<sub>4</sub>+ equals that of NH<sub>4</sub>+, the activation energy for the reorientation increases by the deutration due to the increase of the moment of inertia <a href="#17" id="ref17">[17]</a>, as also pointed out previously <a href="#5" id="ref5">[5]</a>. This is also an indication of the interaction between the ammonium cations and anionic framework, which is weakly affected by the deuteration <a href="#5" id="ref5">[5]</a>.</p>
<p class="art-subhead" id="conclusion">Conclusions</p>
<p class="art-para">The infrared (IR) frequencies and the line width (damping constant) of the &#957;<sub>4</sub> (NH<sub>4</sub>+) mode were calculated as a function of temperature close to the order-disorder transition in the MOFs of NH<sub>4</sub>Zn(HCOO)<sub>3</sub> and ND<sub>4</sub>Zn(DCOO)<sub>3</sub>. The IR frequency of this mode as an order parameter and its damping constant (FWHM) were calculated from the molecular field theory and the pseudospin-phonon coupling (PS) model, respectively.</p>
<p class="art-para">Our results show that the observed behaviour of the IR frequency and the line width for the &#957;<sub>4</sub> (NH<sub>4</sub>+) mode can be described satisfactory by the models used for the compounds studied here.</p>
<p class="art-subhead" id="references">References</p>
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